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C++

/*
* Copyright 2013-2020 Software Radio Systems Limited
*
* This file is part of srsLTE.
*
* srsLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsLTE 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 Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#include "srslte/common/mac_pcap.h"
#include "srslte/common/pcap.h"
#include "srslte/srslte.h"
#include <stdint.h>
namespace srslte {
mac_pcap::mac_pcap() : enable_write(false), ue_id(0), pcap_file(nullptr) {}
mac_pcap::~mac_pcap()
{
close();
}
void mac_pcap::enable(bool en)
{
enable_write = true;
}
void mac_pcap::open(const char* filename, uint32_t ue_id)
{
pcap_file = LTE_PCAP_Open(MAC_LTE_DLT, filename);
this->ue_id = ue_id;
enable_write = true;
}
void mac_pcap::close()
{
enable_write = false;
if (pcap_file != nullptr) {
fprintf(stdout, "Saving MAC PCAP file\n");
LTE_PCAP_Close(pcap_file);
pcap_file = nullptr;
}
}
void mac_pcap::set_ue_id(uint16_t ue_id)
{
this->ue_id = ue_id;
}
void mac_pcap::pack_and_write(uint8_t* pdu,
uint32_t pdu_len_bytes,
uint32_t reTX,
bool crc_ok,
uint8_t cc_idx,
uint32_t tti,
uint16_t crnti,
uint8_t direction,
uint8_t rnti_type)
{
if (enable_write) {
MAC_Context_Info_t context = {};
context.radioType = FDD_RADIO;
context.direction = direction;
context.rntiType = rnti_type;
context.rnti = crnti;
context.ueid = (uint16_t)ue_id;
context.isRetx = (uint8_t)reTX;
context.crcStatusOK = crc_ok;
context.cc_idx = cc_idx;
context.sysFrameNumber = (uint16_t)(tti / 10);
context.subFrameNumber = (uint16_t)(tti % 10);
if (pdu) {
LTE_PCAP_MAC_WritePDU(pcap_file, &context, pdu, pdu_len_bytes);
}
}
}
void mac_pcap::write_dl_crnti(uint8_t* pdu,
uint32_t pdu_len_bytes,
uint16_t rnti,
bool crc_ok,
uint32_t tti,
uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, 0, crc_ok, cc_idx, tti, rnti, DIRECTION_DOWNLINK, C_RNTI);
}
void mac_pcap::write_dl_ranti(uint8_t* pdu,
uint32_t pdu_len_bytes,
uint16_t rnti,
bool crc_ok,
uint32_t tti,
uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, 0, crc_ok, cc_idx, tti, rnti, DIRECTION_DOWNLINK, RA_RNTI);
}
void mac_pcap::write_ul_crnti(uint8_t* pdu,
uint32_t pdu_len_bytes,
uint16_t rnti,
uint32_t reTX,
uint32_t tti,
uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, reTX, true, cc_idx, tti, rnti, DIRECTION_UPLINK, C_RNTI);
}
void mac_pcap::write_dl_bch(uint8_t* pdu, uint32_t pdu_len_bytes, bool crc_ok, uint32_t tti, uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, 0, crc_ok, cc_idx, tti, 0, DIRECTION_DOWNLINK, NO_RNTI);
}
void mac_pcap::write_dl_pch(uint8_t* pdu, uint32_t pdu_len_bytes, bool crc_ok, uint32_t tti, uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, 0, crc_ok, cc_idx, tti, SRSLTE_PRNTI, DIRECTION_DOWNLINK, P_RNTI);
}
void mac_pcap::write_dl_mch(uint8_t* pdu, uint32_t pdu_len_bytes, bool crc_ok, uint32_t tti, uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, 0, crc_ok, cc_idx, tti, SRSLTE_MRNTI, DIRECTION_DOWNLINK, M_RNTI);
}
void mac_pcap::write_dl_sirnti(uint8_t* pdu, uint32_t pdu_len_bytes, bool crc_ok, uint32_t tti, uint8_t cc_idx)
{
pack_and_write(pdu, pdu_len_bytes, 0, crc_ok, cc_idx, tti, SRSLTE_SIRNTI, DIRECTION_DOWNLINK, SI_RNTI);
}
void mac_pcap::write_ul_rrc_pdu(const uint8_t* input, const int32_t input_len)
{
uint8_t pdu[1024];
bzero(pdu, sizeof(pdu));
// Size is limited by PDU buffer and MAC subheader (format 1 < 128 B)
if (input_len > 128 - 7) {
printf("PDU too large.\n");
return;
}
// MAC PDU Header (Short BSR) (1:54) (Padding:remainder) [3 subheaders]
// Sub-header (lcid=Short BSR)
// 0... .... = SCH reserved bit: 0x0
// .0.. .... = Format2: Data length is < 32768 bytes
// ..1. .... = Extension: 0x1
// ...1 1101 = LCID: Short BSR (0x1d)
// Sub-header (lcid=1, length=54)
// 0... .... = SCH reserved bit: 0x0
// .0.. .... = Format2: Data length is < 32768 bytes
// ..1. .... = Extension: 0x1
// ...0 0001 = LCID: 1 (0x01)
// 0... .... = Format: Data length is < 128 bytes
// .011 0110 = Length: 54 (Will be dynamically updated)
// Sub-header (lcid=Padding, length is remainder)
// 0... .... = SCH reserved bit: 0x0
// .0.. .... = Format2: Data length is < 32768 bytes
// ..0. .... = Extension: 0x0
// ...1 1111 = LCID: Padding (0x1f)
uint8_t mac_hdr[] = {0x3D, 0x21, 0x36, 0x1F, 0x0C};
// Update MAC length
mac_hdr[2] = input_len + 7; // rlc_hdr (2) + pdcp_hdr (1) + MAC (4)
// AM Header (P) sn=4
// 1... .... = Frame type: Data PDU (0x1)
// .0.. .... = Re-segmentation Flag: AMD PDU (0x0)
// ..1. .... = Polling Bit: Status report is requested (0x1)
// ...0 0... = Framing Info: First byte begins a RLC SDU and last byte ends a RLC SDU (0x0)
// .... .0.. = Extension: Data field follows from the octet following the fixed part of the header (0x0)
// .... ..00 0000 0100 = Sequence Number: 4
uint8_t rlc_hdr[] = {0xA0, 0x04};
// PDCP-LTE sn=3
// 000. .... = Reserved: 0
// ...0 0011 = Seq Num: 3
uint8_t pdcp_hdr[] = {0x03};
uint8_t* pdu_ptr = pdu;
memcpy(pdu_ptr, mac_hdr, sizeof(mac_hdr));
pdu_ptr += sizeof(mac_hdr);
memcpy(pdu_ptr, rlc_hdr, sizeof(rlc_hdr));
pdu_ptr += sizeof(rlc_hdr);
memcpy(pdu_ptr, pdcp_hdr, sizeof(pdcp_hdr));
pdu_ptr += sizeof(pdcp_hdr);
memcpy(pdu_ptr, input, input_len);
pdu_ptr += input_len;
// MAC
uint8_t pad = 0x00;
for (uint32_t i = 0; i < 4; i++) {
memcpy(pdu_ptr, &pad, 1);
pdu_ptr += 1;
}
// Pad
memcpy(pdu_ptr, &pad, 1);
pdu_ptr += 1;
write_ul_crnti(pdu, pdu_ptr - pdu, 14931, true, 0, 0);
}
} // namespace srslte