/* 3GPP TS 48.071 BSSLAP protocol definitions */ /* * (C) 2020 by sysmocom - s.f.m.c. GmbH * All Rights Reserved * * Author: Neels Hofmeyr * * SPDX-License-Identifier: GPL-2.0+ * * 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. * */ #include #include #include #include #include /*! \addtogroup bsslap * @{ * \file bsslap.c * Message encoding and decoding for 3GPP TS 48.071 BSSLAP protocol. */ static const struct tlv_definition osmo_bsslap_tlvdef = { .def = { [BSSLAP_IEI_TA] = { TLV_TYPE_TV }, [BSSLAP_IEI_CELL_ID] = { TLV_TYPE_FIXED, 2 }, [BSSLAP_IEI_CHAN_DESC] = { TLV_TYPE_FIXED, 3 }, [BSSLAP_IEI_MEAS_REP] = { TLV_TYPE_TLV }, [BSSLAP_IEI_CAUSE] = { TLV_TYPE_TV }, [BSSLAP_IEI_RRLP_FLAG] = { TLV_TYPE_TV }, [BSSLAP_IEI_RRLP] = { TLV_TYPE_TLV }, [BSSLAP_IEI_CELL_ID_LIST] = { TLV_TYPE_TLV }, [BSSLAP_IEI_ENH_MEAS_REP] = { TLV_TYPE_TLV }, [BSSLAP_IEI_LAC] = { TLV_TYPE_TLV }, [BSSLAP_IEI_FREQ_LIST] = { TLV_TYPE_TLV }, [BSSLAP_IEI_MS_POWER] = { TLV_TYPE_TV }, [BSSLAP_IEI_DELTA_TIMER] = { TLV_TYPE_TV }, [BSSLAP_IEI_SERVING_CELL_ID] = { TLV_TYPE_TLV }, [BSSLAP_IEI_ENCR_KEY] = { TLV_TYPE_FIXED, 8 }, [BSSLAP_IEI_CIPH_MODE_SET] = { TLV_TYPE_TV }, [BSSLAP_IEI_CHAN_MODE] = { TLV_TYPE_TV, 2 }, [BSSLAP_IEI_MR_CONFIG] = { TLV_TYPE_TLV }, [BSSLAP_IEI_POLLING_REPETITION] = { TLV_TYPE_TV }, [BSSLAP_IEI_PACKET_CHAN_DESC] = { TLV_TYPE_FIXED, 4 }, [BSSLAP_IEI_TLLI] = { TLV_TYPE_FIXED, 4 }, [BSSLAP_IEI_TFI] = { TLV_TYPE_TLV }, [BSSLAP_IEI_TBF_START_TIME] = { TLV_TYPE_FIXED, 2 }, [BSSLAP_IEI_PWRUP_START_TIME] = { TLV_TYPE_TLV }, [BSSLAP_IEI_LONG_ENCR_KEY] = { TLV_TYPE_FIXED, 16 }, [BSSLAP_IEI_CONCUR_POS_PROC_F] = { TLV_TYPE_TV }, }, }; #define DEC_ERR(RC, MSG_TYPE, IEI, CAUSE, fmt, args...) do { \ if (err && !*err) { \ *err = talloc_zero(err_ctx, struct osmo_bsslap_err); \ **err = (struct osmo_bsslap_err){ \ .rc = (RC), \ .msg_type = (MSG_TYPE), \ .iei = (IEI), \ .cause = (CAUSE), \ .logmsg = talloc_asprintf(*err, "Error decoding BSSLAP%s%s%s%s%s: " fmt, \ (MSG_TYPE) >= 0 ? " " : "", \ (MSG_TYPE) >= 0 ? osmo_bsslap_msgt_name(MSG_TYPE) : "", \ (IEI) >= 0 ? ": " : "", \ (IEI) >= 0 ? osmo_bsslap_iei_name(IEI) : "", \ (IEI) >= 0 ? " IE" : "", \ ##args), \ }; \ } \ return RC; \ } while(0) static void osmo_bsslap_ie_enc_cell_id(struct msgb *msg, uint16_t cell_id) { msgb_put_u8(msg, BSSLAP_IEI_CELL_ID); msgb_put_u16(msg, cell_id); } static int osmo_bsslap_ie_dec_cell_id(uint16_t *cell_id, enum bsslap_msgt msgt, enum bsslap_iei iei, struct osmo_bsslap_err **err, void *err_ctx, const uint8_t *data, size_t len) { if (len != 2) DEC_ERR(-EINVAL, msgt, iei, LCS_CAUSE_UNSPECIFIED, "Expected 2 bytes, got %zu", len); *cell_id = osmo_load16be(data); return 0; } static void osmo_bsslap_ie_enc_ta(struct msgb *msg, uint8_t ta) { msgb_put_u8(msg, BSSLAP_IEI_TA); msgb_put_u8(msg, ta); } static int osmo_bsslap_ie_dec_ta(uint8_t *ta, enum bsslap_msgt msgt, enum bsslap_iei iei, struct osmo_bsslap_err **err, void *err_ctx, const uint8_t *data, size_t len) { if (len != 1) DEC_ERR(-EINVAL, msgt, iei, LCS_CAUSE_UNSPECIFIED, "Expected 1 byte, got %zu", len); *ta = data[0]; return 0; } static void osmo_bsslap_ie_enc_cause(struct msgb *msg, enum bsslap_cause cause) { msgb_put_u8(msg, BSSLAP_IEI_CAUSE); msgb_put_u8(msg, cause); } static int osmo_bsslap_ie_dec_cause(enum bsslap_cause *cause, enum bsslap_msgt msgt, enum bsslap_iei iei, struct osmo_bsslap_err **err, void *err_ctx, const uint8_t *data, size_t len) { if (len != 1) DEC_ERR(-EINVAL, msgt, iei, LCS_CAUSE_UNSPECIFIED, "Expected 1 byte, got %zu", len); *cause = data[0]; return 0; } static void osmo_bsslap_ie_enc_chan_desc(struct msgb *msg, const struct gsm48_chan_desc *chan_desc) { struct gsm48_chan_desc *put_chan_desc; msgb_put_u8(msg, BSSLAP_IEI_CHAN_DESC); put_chan_desc = (void*)msgb_put(msg, sizeof(*chan_desc)); *put_chan_desc = *chan_desc; } static int osmo_bsslap_ie_dec_chan_desc(struct gsm48_chan_desc *chan_desc, enum bsslap_msgt msgt, enum bsslap_iei iei, struct osmo_bsslap_err **err, void *err_ctx, const uint8_t *data, size_t len) { if (len != sizeof(*chan_desc)) DEC_ERR(-EINVAL, msgt, iei, LCS_CAUSE_UNSPECIFIED, "Expected %zu bytes, got %zu", sizeof(*chan_desc), len); *chan_desc = *(struct gsm48_chan_desc*)data; return 0; } /*! Encode BSSLAP PDU and append to msgb (3GPP TS 48.071). * \param[out] msg msgb to append to. * \param[in] pdu PDU data to encode. * \return number of bytes written, negative on error. */ int osmo_bsslap_enc(struct msgb *msg, const struct bsslap_pdu *pdu) { uint8_t *old_tail = msg->tail; msgb_put_u8(msg, pdu->msg_type); switch (pdu->msg_type) { case BSSLAP_MSGT_TA_REQUEST: /* The TA Request message contains only the message type. */ break; case BSSLAP_MSGT_TA_RESPONSE: osmo_bsslap_ie_enc_cell_id(msg, pdu->ta_response.cell_id); osmo_bsslap_ie_enc_ta(msg, pdu->ta_response.ta); break; case BSSLAP_MSGT_REJECT: osmo_bsslap_ie_enc_cause(msg, pdu->reject); break; case BSSLAP_MSGT_RESET: osmo_bsslap_ie_enc_cell_id(msg, pdu->reset.cell_id); osmo_bsslap_ie_enc_ta(msg, pdu->reset.ta); osmo_bsslap_ie_enc_chan_desc(msg, &pdu->reset.chan_desc); osmo_bsslap_ie_enc_cause(msg, pdu->reset.cause); break; case BSSLAP_MSGT_ABORT: osmo_bsslap_ie_enc_cause(msg, pdu->abort); break; case BSSLAP_MSGT_TA_LAYER3: osmo_bsslap_ie_enc_ta(msg, pdu->ta_layer3.ta); break; default: return -ENOTSUP; } return (msg->tail - old_tail); } /*! Decode BSSLAP PDU (3GPP TS 48.071). * \param[out] pdu Write decoded values here. * \param[out] err Returned pointer to error info, dynamically allocated; NULL to not return any. * \param[in] err_ctx Talloc context to allocate err from, if required. * \param[in] data Pointer to BSSLAP PDU raw data. * \param[in] len Data length to decode. * \return 0 on success, negative on error. */ int osmo_bsslap_dec(struct bsslap_pdu *pdu, struct osmo_bsslap_err **err, void *err_ctx, const uint8_t *data, size_t len) { const uint8_t *ies_start; int ies_len; struct tlv_parsed tp; *pdu = (struct bsslap_pdu){}; if (err) *err = NULL; #define DEC_IE_MANDATORY(IEI, DEC_FUN, DEC_FUN_ARG) do { \ const struct tlv_p_entry *e; \ int rc; \ if (!(e = TLVP_GET(&tp, IEI))) \ DEC_ERR(-EINVAL, pdu->msg_type, IEI, LCS_CAUSE_DATA_MISSING_IN_REQ, "missing mandatory IE"); \ rc = DEC_FUN(DEC_FUN_ARG, pdu->msg_type, IEI, err, err_ctx, e->val, e->len); \ if (rc) \ DEC_ERR(rc, pdu->msg_type, IEI, LCS_CAUSE_UNSPECIFIED, "cannot parse IE"); \ } while (0) if (len < 1) DEC_ERR(-EINVAL, -1, -1, LCS_CAUSE_UNSPECIFIED, "PDU too short: %zu b", len); pdu->msg_type = data[0]; if (pdu->msg_type == BSSLAP_MSGT_TA_REQUEST) { /* The TA Request message contains only the message type. */ return 0; } ies_start = &data[1]; ies_len = len - 1; if (tlv_parse2(&tp, 1, &osmo_bsslap_tlvdef, ies_start, ies_len, 0, 0) <= 0) DEC_ERR(-EINVAL, pdu->msg_type, -1, LCS_CAUSE_UNSPECIFIED, "failed to parse TLV structure"); switch (pdu->msg_type) { case BSSLAP_MSGT_TA_RESPONSE: DEC_IE_MANDATORY(BSSLAP_IEI_CELL_ID, osmo_bsslap_ie_dec_cell_id, &pdu->ta_response.cell_id); DEC_IE_MANDATORY(BSSLAP_IEI_TA, osmo_bsslap_ie_dec_ta, &pdu->ta_response.ta); return 0; case BSSLAP_MSGT_REJECT: DEC_IE_MANDATORY(BSSLAP_IEI_CAUSE, osmo_bsslap_ie_dec_cause, &pdu->reject); return 0; case BSSLAP_MSGT_RESET: DEC_IE_MANDATORY(BSSLAP_IEI_CELL_ID, osmo_bsslap_ie_dec_cell_id, &pdu->reset.cell_id); DEC_IE_MANDATORY(BSSLAP_IEI_TA, osmo_bsslap_ie_dec_ta, &pdu->reset.ta); DEC_IE_MANDATORY(BSSLAP_IEI_CHAN_DESC, osmo_bsslap_ie_dec_chan_desc, &pdu->reset.chan_desc); DEC_IE_MANDATORY(BSSLAP_IEI_CAUSE, osmo_bsslap_ie_dec_cause, &pdu->reset.cause); return 0; case BSSLAP_MSGT_ABORT: DEC_IE_MANDATORY(BSSLAP_IEI_CAUSE, osmo_bsslap_ie_dec_cause, &pdu->abort); return 0; case BSSLAP_MSGT_TA_LAYER3: DEC_IE_MANDATORY(BSSLAP_IEI_TA, osmo_bsslap_ie_dec_ta, &pdu->ta_layer3.ta); return 0; default: DEC_ERR(-EINVAL, pdu->msg_type, -1, LCS_CAUSE_UNSPECIFIED, "Unsupported message type"); } } const struct value_string osmo_bsslap_msgt_names[] = { { BSSLAP_MSGT_TA_REQUEST, "TA Request" }, { BSSLAP_MSGT_TA_RESPONSE, "TA Response" }, { BSSLAP_MSGT_REJECT, "Reject" }, { BSSLAP_MSGT_RESET, "Reset" }, { BSSLAP_MSGT_ABORT, "Abort" }, { BSSLAP_MSGT_TA_LAYER3, "TA Layer3" }, { BSSLAP_MSGT_MS_POS_CMD, "MS Position Command" }, { BSSLAP_MSGT_MS_POS_RESP, "MS Position Response" }, { BSSLAP_MSGT_UTDOA_REQ, "U-TDOA Request" }, { BSSLAP_MSGT_UTDOA_RESP, "U-TDOA Response" }, {} }; const struct value_string osmo_bsslap_iei_names[] = { { BSSLAP_IEI_TA, "Timing Advance" }, { BSSLAP_IEI_CELL_ID, "Cell Identity" }, { BSSLAP_IEI_CHAN_DESC, "Channel Description" }, { BSSLAP_IEI_MEAS_REP, "Measurement Report" }, { BSSLAP_IEI_CAUSE, "Cause" }, { BSSLAP_IEI_RRLP_FLAG, "RRLP Flag" }, { BSSLAP_IEI_RRLP, "RRLP" }, { BSSLAP_IEI_CELL_ID_LIST, "Cell Identity List" }, { BSSLAP_IEI_ENH_MEAS_REP, "Enhanced Measurement Report" }, { BSSLAP_IEI_LAC, "Location Area Code" }, { BSSLAP_IEI_FREQ_LIST, "Frequency List" }, { BSSLAP_IEI_MS_POWER, "MS Power" }, { BSSLAP_IEI_DELTA_TIMER, "Delta Timer" }, { BSSLAP_IEI_SERVING_CELL_ID, "Serving Cell Identifier" }, { BSSLAP_IEI_ENCR_KEY, "Encryption Key" }, { BSSLAP_IEI_CIPH_MODE_SET, "Cipher Mode Setting" }, { BSSLAP_IEI_CHAN_MODE, "Channel Mode" }, { BSSLAP_IEI_MR_CONFIG, "MultiRate Configuration" }, { BSSLAP_IEI_POLLING_REPETITION, "Polling Repetition" }, { BSSLAP_IEI_PACKET_CHAN_DESC, "Packet Channel Description" }, { BSSLAP_IEI_TLLI, "TLLI" }, { BSSLAP_IEI_TFI, "TFI" }, { BSSLAP_IEI_TBF_START_TIME, "TBF Starting Time" }, { BSSLAP_IEI_PWRUP_START_TIME, "Powerup Starting Time" }, { BSSLAP_IEI_LONG_ENCR_KEY, "Long Encryption Key" }, { BSSLAP_IEI_CONCUR_POS_PROC_F, "Concurrent Positioning Flag" }, {} }; /*! @} */