/* (C) 2018-2019 by Harald Welte * * All Rights Reserved * * 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. * * 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 Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include #include #include #include #include "asn1c_helpers.h" #include #include #include "rspro_util.h" #define ASN_ALLOC_COPY(out, in) \ do { \ if (in) { \ out = CALLOC(1, sizeof(*in)); \ OSMO_ASSERT(out); \ memcpy(out, in, sizeof(*in)); \ } \ } while (0) const char *rspro_msgt_name(const RsproPDU_t *pdu) { return asn_choice_name(&asn_DEF_RsproPDUchoice, &pdu->msg); } struct msgb *rspro_msgb_alloc(void) { return msgb_alloc_headroom(1024, 8, "RSPRO"); } /*! BER-Encode an RSPRO message into msgb. * \param[in] pdu Structure describing RSPRO PDU. Is freed by this function on success * \returns callee-allocated message buffer containing encoded RSPRO PDU; NULL on error. */ struct msgb *rspro_enc_msg(RsproPDU_t *pdu) { struct msgb *msg = rspro_msgb_alloc(); asn_enc_rval_t rval; if (!msg) return NULL; msg->l2h = msg->data; rval = der_encode_to_buffer(&asn_DEF_RsproPDU, pdu, msgb_data(msg), msgb_tailroom(msg)); if (rval.encoded < 0) { fprintf(stderr, "Failed to encode %s\n", rval.failed_type->name); msgb_free(msg); return NULL; } msgb_put(msg, rval.encoded); ASN_STRUCT_FREE(asn_DEF_RsproPDU, pdu); return msg; } /* caller must make sure to free msg */ RsproPDU_t *rspro_dec_msg(struct msgb *msg) { RsproPDU_t *pdu = NULL; asn_dec_rval_t rval; //printf("decoding %s\n", msgb_hexdump(msg)); rval = ber_decode(NULL, &asn_DEF_RsproPDU, (void **) &pdu, msgb_l2(msg), msgb_l2len(msg)); if (rval.code != RC_OK) { fprintf(stderr, "Failed to decode: %d. Consumed %lu of %u bytes\n", rval.code, rval.consumed, msgb_length(msg)); return NULL; } return pdu; } static void fill_comp_id(ComponentIdentity_t *out, const struct app_comp_id *in) { out->type = in->type; OCTET_STRING_fromString(&out->name, in->name); OCTET_STRING_fromString(&out->software, in->software); OCTET_STRING_fromString(&out->swVersion, in->sw_version); if (strlen(in->hw_manufacturer)) out->hwManufacturer = OCTET_STRING_new_fromBuf(&asn_DEF_ComponentName, in->hw_manufacturer, -1); if (strlen(in->hw_model)) out->hwModel = OCTET_STRING_new_fromBuf(&asn_DEF_ComponentName, in->hw_model, -1); if (strlen(in->hw_serial_nr)) out->hwSerialNr = OCTET_STRING_new_fromBuf(&asn_DEF_ComponentName, in->hw_serial_nr, -1); if (strlen(in->hw_version)) out->hwVersion = OCTET_STRING_new_fromBuf(&asn_DEF_ComponentName, in->hw_version, -1); if (strlen(in->fw_version)) out->fwVersion = OCTET_STRING_new_fromBuf(&asn_DEF_ComponentName, in->fw_version, -1); } void string_fromOCTET_STRING(char *out, size_t out_size, const OCTET_STRING_t *in) { if (!in) { out[0] = '\0'; return; } memcpy(out, in->buf, out_size < in->size ? out_size : in->size); if (in->size < out_size) out[in->size] = '\0'; else out[out_size-1] = '\0'; } #define string_fromOCTET_STRING_ARRAY(out, in) string_fromOCTET_STRING(out, ARRAY_SIZE(out), in) void rspro_comp_id_retrieve(struct app_comp_id *out, const ComponentIdentity_t *in) { memset(out, 0, sizeof(*out)); out->type = in->type; string_fromOCTET_STRING_ARRAY(out->name, &in->name); string_fromOCTET_STRING_ARRAY(out->software, &in->software); string_fromOCTET_STRING_ARRAY(out->sw_version, &in->swVersion); string_fromOCTET_STRING_ARRAY(out->hw_manufacturer, in->hwManufacturer); string_fromOCTET_STRING_ARRAY(out->hw_serial_nr, in->hwSerialNr); string_fromOCTET_STRING_ARRAY(out->hw_version, in->hwVersion); string_fromOCTET_STRING_ARRAY(out->fw_version, in->fwVersion); } const char *rspro_IpAddr2str(const IpAddress_t *in) { static char buf[128]; switch (in->present) { case IpAddress_PR_ipv4: return inet_ntop(AF_INET, in->choice.ipv4.buf, buf, sizeof(buf)); case IpAddress_PR_ipv6: return inet_ntop(AF_INET6, in->choice.ipv6.buf, buf, sizeof(buf)); default: return NULL; } } static void fill_ip4_port(IpPort_t *out, uint32_t ip, uint16_t port) { uint32_t ip_n = htonl(ip); out->ip.present = IpAddress_PR_ipv4; OCTET_STRING_fromBuf(&out->ip.choice.ipv4, (const char *) &ip_n, 4); out->port = port; } RsproPDU_t *rspro_gen_ConnectBankReq(const struct app_comp_id *a_cid, uint16_t bank_id, uint16_t num_slots) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_connectBankReq; fill_comp_id(&pdu->msg.choice.connectBankReq.identity, a_cid); pdu->msg.choice.connectBankReq.bankId = bank_id; pdu->msg.choice.connectBankReq.numberOfSlots = num_slots; return pdu; } RsproPDU_t *rspro_gen_ConnectBankRes(const struct app_comp_id *a_cid, e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_connectBankRes; fill_comp_id(&pdu->msg.choice.connectBankRes.identity, a_cid); pdu->msg.choice.connectBankRes.result = res; return pdu; } RsproPDU_t *rspro_gen_ConnectClientReq(const struct app_comp_id *a_cid, const ClientSlot_t *client) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_connectClientReq; fill_comp_id(&pdu->msg.choice.connectClientReq.identity, a_cid); if (client) ASN_ALLOC_COPY(pdu->msg.choice.connectClientReq.clientSlot, client); return pdu; } RsproPDU_t *rspro_gen_ConnectClientRes(const struct app_comp_id *a_cid, e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->tag = 2342; pdu->msg.present = RsproPDUchoice_PR_connectClientRes; fill_comp_id(&pdu->msg.choice.connectClientRes.identity, a_cid); pdu->msg.choice.connectClientRes.result = res; return pdu; } RsproPDU_t *rspro_gen_CreateMappingReq(const ClientSlot_t *client, const BankSlot_t *bank) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_createMappingReq; pdu->msg.choice.createMappingReq.client = *client; pdu->msg.choice.createMappingReq.bank = *bank; return pdu; } RsproPDU_t *rspro_gen_CreateMappingRes(e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_createMappingRes; pdu->msg.choice.createMappingRes.result = res; return pdu; } RsproPDU_t *rspro_gen_RemoveMappingReq(const ClientSlot_t *client, const BankSlot_t *bank) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_removeMappingReq; pdu->msg.choice.removeMappingReq.client = *client; pdu->msg.choice.removeMappingReq.bank = *bank; return pdu; } RsproPDU_t *rspro_gen_RemoveMappingRes(e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_removeMappingRes; pdu->msg.choice.removeMappingRes.result = res; return pdu; } RsproPDU_t *rspro_gen_ConfigClientIdReq(const ClientSlot_t *client) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_configClientIdReq; pdu->msg.choice.configClientIdReq.clientSlot = *client; return pdu; } RsproPDU_t *rspro_gen_ConfigClientIdRes(e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_configClientIdRes; pdu->msg.choice.configClientIdRes.result = res; return pdu; } RsproPDU_t *rspro_gen_ConfigClientBankReq(const BankSlot_t *bank, uint32_t ip, uint16_t port) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_configClientBankReq; pdu->msg.choice.configClientBankReq.bankSlot = *bank; fill_ip4_port(&pdu->msg.choice.configClientBankReq.bankd, ip, port); return pdu; } RsproPDU_t *rspro_gen_ConfigClientBankRes(e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_configClientBankRes; pdu->msg.choice.configClientBankRes.result = res; return pdu; } RsproPDU_t *rspro_gen_SetAtrReq(uint16_t client_id, uint16_t slot_nr, const uint8_t *atr, unsigned int atr_len) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_setAtrReq; pdu->msg.choice.setAtrReq.slot.clientId = client_id; pdu->msg.choice.setAtrReq.slot.slotNr = slot_nr; OCTET_STRING_fromBuf(&pdu->msg.choice.setAtrReq.atr, (const char *)atr, atr_len); return pdu; } RsproPDU_t *rspro_gen_SetAtrRes(e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_setAtrRes; pdu->msg.choice.setAtrRes.result = res; return pdu; } RsproPDU_t *rspro_gen_TpduModem2Card(const ClientSlot_t *client, const BankSlot_t *bank, const uint8_t *tpdu, unsigned int tpdu_len) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_tpduModemToCard; OSMO_ASSERT(client); pdu->msg.choice.tpduModemToCard.fromClientSlot = *client; OSMO_ASSERT(bank); pdu->msg.choice.tpduModemToCard.toBankSlot = *bank; /* TODO: flags? */ OCTET_STRING_fromBuf(&pdu->msg.choice.tpduModemToCard.data, (const char *)tpdu, tpdu_len); return pdu; } RsproPDU_t *rspro_gen_TpduCard2Modem(const BankSlot_t *bank, const ClientSlot_t *client, const uint8_t *tpdu, unsigned int tpdu_len) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_tpduCardToModem; OSMO_ASSERT(bank); pdu->msg.choice.tpduCardToModem.fromBankSlot = *bank; OSMO_ASSERT(client) pdu->msg.choice.tpduCardToModem.toClientSlot = *client; /* TODO: flags? */ OCTET_STRING_fromBuf(&pdu->msg.choice.tpduCardToModem.data, (const char *)tpdu, tpdu_len); return pdu; } RsproPDU_t *rspro_gen_ResetStateReq(void) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_resetStateReq; return pdu; } RsproPDU_t *rspro_gen_ResetStateRes(e_ResultCode res) { RsproPDU_t *pdu = CALLOC(1, sizeof(*pdu)); if (!pdu) return NULL; pdu->version = 2; pdu->msg.present = RsproPDUchoice_PR_resetStateRes; pdu->msg.choice.resetStateRes.result = res; return pdu; } e_ResultCode rspro_get_result(const RsproPDU_t *pdu) { switch (pdu->msg.present) { case RsproPDUchoice_PR_connectBankRes: return pdu->msg.choice.connectBankRes.result; case RsproPDUchoice_PR_connectClientRes: return pdu->msg.choice.connectClientRes.result; case RsproPDUchoice_PR_createMappingRes: return pdu->msg.choice.createMappingRes.result; case RsproPDUchoice_PR_removeMappingRes: return pdu->msg.choice.removeMappingRes.result; case RsproPDUchoice_PR_configClientIdRes: return pdu->msg.choice.configClientIdRes.result; case RsproPDUchoice_PR_configClientBankRes: return pdu->msg.choice.configClientBankRes.result; case RsproPDUchoice_PR_setAtrRes: return pdu->msg.choice.setAtrRes.result; case RsproPDUchoice_PR_resetStateRes: return pdu->msg.choice.resetStateRes.result; default: OSMO_ASSERT(0); } } void rspro2bank_slot(struct bank_slot *out, const BankSlot_t *in) { out->bank_id = in->bankId; out->slot_nr = in->slotNr; } void bank_slot2rspro(BankSlot_t *out, const struct bank_slot *in) { out->bankId = in->bank_id; out->slotNr = in->slot_nr; } void rspro2client_slot(struct client_slot *out, const ClientSlot_t *in) { out->client_id = in->clientId; out->slot_nr = in->slotNr; } void client_slot2rspro(ClientSlot_t *out, const struct client_slot *in) { out->clientId = in->client_id; out->slotNr = in->slot_nr; }