// SPDX-License-Identifier: GPL-2.0-or-later /* * * BlueZ - Bluetooth protocol stack for Linux * * Copyright (C) 2001-2002 Wayne Lee * Copyright (C) 2003-2011 Marcel Holtmann * * */ #ifdef HAVE_CONFIG_H #include #endif #define _GNU_SOURCE #include #include #include #include #include #include "parser.h" #include "rfcomm.h" #include "sdp.h" static char *cr_str[] = { "RSP", "CMD" }; #define CR_STR(mcc_head) cr_str[mcc_head->type.cr] #define GET_DLCI(addr) ((addr.server_chn << 1) | (addr.d & 1)) static void print_rfcomm_hdr(long_frame_head* head, uint8_t *ptr, int len) { address_field addr = head->addr; uint8_t ctr = head->control; uint16_t ilen = head->length.bits.len; uint8_t pf, dlci, fcs; dlci = GET_DLCI(addr); pf = GET_PF(ctr); fcs = *(ptr + len - 1); printf("cr %d dlci %d pf %d ilen %d fcs 0x%x ", addr.cr, dlci, pf, ilen, fcs); } static void print_mcc(mcc_long_frame_head* mcc_head) { printf("mcc_len %d\n", mcc_head->length.bits.len); } static inline void mcc_test(int level, uint8_t *ptr, int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { printf("TEST %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); p_indent(level, 0); printf("%*cTest data: 0x ", level, ' '); while (len > 1) { printf("%2.2x ", (uint8_t)*ptr); len--; ptr++; } printf("\n"); } static inline void mcc_fcon(int level, uint8_t *ptr, int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { printf("FCON %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); } static inline void mcc_fcoff(int level, uint8_t *ptr, int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { printf("FCOFF %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); } static inline void mcc_msc(int level, uint8_t *ptr, unsigned int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { msc_msg *msc = (void*) (ptr - STRUCT_END(msc_msg, mcc_s_head)); printf("MSC %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); p_indent(level, 0); printf("dlci %d fc %d rtc %d rtr %d ic %d dv %d", GET_DLCI(msc->dlci), msc->v24_sigs.fc, msc->v24_sigs.rtc, msc->v24_sigs.rtr, msc->v24_sigs.ic, msc->v24_sigs.dv ); /* Assuming that break_signals field is _not declared_ in struct msc_msg... */ if (len > STRUCT_OFFSET(msc_msg, fcs) - STRUCT_END(msc_msg, v24_sigs)) { break_signals *brk = (break_signals *) (ptr + STRUCT_END(msc_msg, v24_sigs)); printf(" b1 %d b2 %d b3 %d len %d\n", brk->b1, brk->b2, brk->b3, brk->len); } else printf("\n"); } static inline void mcc_rpn(int level, uint8_t *ptr, unsigned int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { rpn_msg *rpn = (void *) (ptr - STRUCT_END(rpn_msg, mcc_s_head)); printf("RPN %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); p_indent(level, 0); printf("dlci %d ", GET_DLCI(rpn->dlci)); /* Assuming that rpn_val is _declared_ as a member of rpn_msg... */ if (len <= STRUCT_OFFSET(rpn_msg, rpn_val) - STRUCT_END(rpn_msg, mcc_s_head)) { printf("\n"); return; } printf("br %d db %d sb %d p %d pt %d xi %d xo %d\n", rpn->rpn_val.bit_rate, rpn->rpn_val.data_bits, rpn->rpn_val.stop_bit, rpn->rpn_val.parity, rpn->rpn_val.parity_type, rpn->rpn_val.xon_input, rpn->rpn_val.xon_output); p_indent(level, 0); printf("rtri %d rtro %d rtci %d rtco %d xon %d xoff %d pm 0x%04x\n", rpn->rpn_val.rtr_input, rpn->rpn_val.rtr_output, rpn->rpn_val.rtc_input, rpn->rpn_val.rtc_output, rpn->rpn_val.xon, rpn->rpn_val.xoff, btohs(rpn->rpn_val.pm)); } static inline void mcc_rls(int level, uint8_t *ptr, int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { rls_msg* rls = (void*) (ptr - STRUCT_END(rls_msg, mcc_s_head)); printf("RLS %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); printf("dlci %d error: %d", GET_DLCI(rls->dlci), rls->error); } static inline void mcc_pn(int level, uint8_t *ptr, int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { pn_msg *pn = (void*) (ptr - STRUCT_END(pn_msg, mcc_s_head)); printf("PN %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); p_indent(level, 0); printf("dlci %d frame_type %d credit_flow %d pri %d ack_timer %d\n", pn->dlci, pn->frame_type, pn->credit_flow, pn->prior, pn->ack_timer); p_indent(level, 0); printf("frame_size %d max_retrans %d credits %d\n", btohs(pn->frame_size), pn->max_nbrof_retrans, pn->credits); } static inline void mcc_nsc(int level, uint8_t *ptr, int len, long_frame_head *head, mcc_long_frame_head *mcc_head) { nsc_msg *nsc = (void*) (ptr - STRUCT_END(nsc_msg, mcc_s_head)); printf("NSC %s: ", CR_STR(mcc_head)); print_rfcomm_hdr(head, ptr, len); print_mcc(mcc_head); p_indent(level, 0); printf("cr %d, mcc_cmd_type %x\n", nsc->command_type.cr, nsc->command_type.type ); } static inline void mcc_frame(int level, struct frame *frm, long_frame_head *head) { mcc_short_frame_head *mcc_short_head_p = frm->ptr; mcc_long_frame_head mcc_head; uint8_t hdr_size; if ( mcc_short_head_p->length.ea == EA ) { mcc_head.type = mcc_short_head_p->type; mcc_head.length.bits.len = mcc_short_head_p->length.len; hdr_size = sizeof(mcc_short_frame_head); } else { mcc_head = *(mcc_long_frame_head *)frm->ptr; mcc_head.length.val = btohs(mcc_head.length.val); hdr_size = sizeof(mcc_long_frame_head); } frm->ptr += hdr_size; frm->len -= hdr_size; p_indent(level, frm); printf("RFCOMM(s): "); switch (mcc_head.type.type) { case TEST: mcc_test(level, frm->ptr, frm->len, head, &mcc_head); break; case FCON: mcc_fcon(level, frm->ptr, frm->len, head, &mcc_head); break; case FCOFF: mcc_fcoff(level, frm->ptr, frm->len, head, &mcc_head); break; case MSC: mcc_msc(level, frm->ptr, frm->len, head, &mcc_head); break; case RPN: mcc_rpn(level, frm->ptr, frm->len, head, &mcc_head); break; case RLS: mcc_rls(level, frm->ptr, frm->len, head, &mcc_head); break; case PN: mcc_pn(level, frm->ptr, frm->len, head, &mcc_head); break; case NSC: mcc_nsc(level, frm->ptr, frm->len, head, &mcc_head); break; default: printf("MCC message type 0x%02x: ", mcc_head.type.type); print_rfcomm_hdr(head, frm->ptr, frm->len); printf("\n"); frm->len--; raw_dump(level, frm); } } static inline void uih_frame(int level, struct frame *frm, long_frame_head *head) { uint32_t proto; if (!head->addr.server_chn) { mcc_frame(level, frm, head); } else { p_indent(level, frm); printf("RFCOMM(d): UIH: "); print_rfcomm_hdr(head, frm->ptr, frm->len); if (GET_PF(head->control)) { printf("credits %d\n", *(uint8_t *)(frm->ptr)); frm->ptr++; frm->len--; } else printf("\n"); frm->len--; frm->dlci = GET_DLCI(head->addr); frm->channel = head->addr.server_chn; proto = get_proto(frm->handle, RFCOMM_PSM, frm->channel); if (frm->len > 0) { switch (proto) { case SDP_UUID_OBEX: if (!p_filter(FILT_OBEX)) obex_dump(level + 1, frm); else raw_dump(level, frm); break; case SDP_UUID_LAN_ACCESS_PPP: case SDP_UUID_DIALUP_NETWORKING: if (!p_filter(FILT_PPP)) ppp_dump(level + 1, frm); else raw_dump(level, frm); break; case SDP_UUID_SIM_ACCESS: if (!p_filter(FILT_SAP)) sap_dump(level + 1, frm); else raw_dump(level, frm); break; default: if (p_filter(FILT_RFCOMM)) break; raw_dump(level, frm); break; } } } } void rfcomm_dump(int level, struct frame *frm) { uint8_t hdr_size, ctr_type; short_frame_head *short_head_p = (void *) frm->ptr; long_frame_head head; if (short_head_p->length.ea == EA) { head.addr = short_head_p->addr; head.control = short_head_p->control; head.length.bits.len = short_head_p->length.len; hdr_size = sizeof(short_frame_head); } else { head = *(long_frame_head *) frm->ptr; head.length.val = btohs(head.length.val); hdr_size = sizeof(long_frame_head); } frm->ptr += hdr_size; frm->len -= hdr_size; ctr_type = CLR_PF(head.control); if (ctr_type == UIH) { uih_frame(level, frm, &head); } else { p_indent(level, frm); printf("RFCOMM(s): "); switch (ctr_type) { case SABM: printf("SABM: "); break; case UA: printf("UA: "); break; case DM: printf("DM: "); break; case DISC: printf("DISC: "); del_frame(frm->handle, GET_DLCI(head.addr)); break; default: printf("ERR: "); } print_rfcomm_hdr(&head, frm->ptr, frm->len); printf("\n"); } }