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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/.
*
*/
#ifndef SRSLTE_PDU_H
#define SRSLTE_PDU_H
#include "srslte/common/interfaces_common.h"
#include "srslte/common/logmap.h"
#include <stdint.h>
#include <stdio.h>
#include <vector>
/* MAC PDU Packing/Unpacking functions. Section 6 of 36.321 */
class subh;
namespace srslte {
/* 3GPP 36.321 Table 6.2.1-1 */
enum class dl_sch_lcid {
CCCH = 0b00000,
RESERVED = 0b10001,
//...
SCELL_ACTIVATION_4_OCTET = 0b11000,
SCELL_ACTIVATION = 0b11011,
CON_RES_ID = 0b11100,
TA_CMD = 0b11101,
DRX_CMD = 0b11110,
PADDING = 0b11111
};
const char* to_string(dl_sch_lcid v);
uint32_t ce_size(dl_sch_lcid v);
uint32_t ce_subheader_size(dl_sch_lcid v);
uint32_t ce_total_size(dl_sch_lcid v);
constexpr bool is_mac_ce(dl_sch_lcid v)
{
return v > dl_sch_lcid::RESERVED;
}
constexpr bool is_sdu(dl_sch_lcid v)
{
return v <= dl_sch_lcid::RESERVED;
}
/* 3GPP 36.321 Table 6.2.1-2 */
enum class ul_sch_lcid {
CCCH = 0b00000,
RESERVED = 0b10001,
//...
PHR_REPORT_EXT = 0b11001,
PHR_REPORT = 0b11010,
CRNTI = 0b11011,
TRUNC_BSR = 0b11100,
SHORT_BSR = 0b11101,
LONG_BSR = 0b11110,
PADDING = 0b11111
};
const char* to_string(ul_sch_lcid v);
uint32_t ce_size(ul_sch_lcid v);
constexpr bool is_mac_ce(ul_sch_lcid v)
{
return v > ul_sch_lcid::RESERVED;
}
constexpr bool is_sdu(ul_sch_lcid v)
{
return v <= ul_sch_lcid::RESERVED;
}
/* 3GPP 36.321 Table 6.2.1-4 */
enum class mch_lcid {
MCCH = 0b00000,
//...
MTCH_MAX_LCID = 0b11100,
MCH_SCHED_INFO = 0b11110,
PADDING = 0b11111
};
const char* to_string(mch_lcid v);
constexpr bool is_mac_ce(mch_lcid v)
{
return v >= mch_lcid::MCH_SCHED_INFO;
}
constexpr bool is_sdu(mch_lcid v)
{
return v < mch_lcid::MCH_SCHED_INFO;
}
/* Common LCID type */
struct lcid_t {
enum class ch_type { dl_sch, ul_sch, mch } type;
union {
uint32_t lcid;
dl_sch_lcid dl_sch;
ul_sch_lcid ul_sch;
mch_lcid mch;
};
lcid_t(ch_type t, uint32_t lcid_) : type(t), lcid(lcid_) {}
lcid_t(dl_sch_lcid lcid_) : type(ch_type::dl_sch), dl_sch(lcid_) {}
lcid_t(ul_sch_lcid lcid_) : type(ch_type::ul_sch), ul_sch(lcid_) {}
lcid_t(mch_lcid lcid_) : type(ch_type::mch), mch(lcid_) {}
const char* to_string() const;
bool is_sch() const { return type == ch_type::dl_sch or type == ch_type::ul_sch; }
bool is_sdu() const;
bool operator==(lcid_t t) const { return type == t.type and lcid == t.lcid; }
};
template <class SubH>
class pdu
{
public:
pdu(uint32_t max_subheaders_, log_ref log_h_) :
max_subheaders(max_subheaders_),
subheaders(max_subheaders_),
log_h(log_h_),
nof_subheaders(0),
cur_idx(-1),
pdu_len(0),
rem_len(0),
last_sdu_idx(-1),
pdu_is_ul(false),
buffer_tx(nullptr)
{}
void fprint(FILE* stream)
{
fprintf(stream, "Number of Subheaders: %d\n", nof_subheaders);
for (int i = 0; i < nof_subheaders; i++) {
fprintf(stream, " -- Subheader %d: ", i);
subheaders[i].fprint(stream);
}
}
/* Resets the Read/Write position and remaining PDU length */
void reset()
{
cur_idx = -1;
last_sdu_idx = -1;
rem_len = pdu_len;
}
void init_rx(uint32_t pdu_len_bytes, bool is_ulsch = false) { init_(NULL, pdu_len_bytes, is_ulsch); }
void init_tx(byte_buffer_t* buffer, uint32_t pdu_len_bytes, bool is_ulsch = false)
{
init_(buffer, pdu_len_bytes, is_ulsch);
}
uint32_t nof_subh() { return nof_subheaders; }
bool new_subh()
{
if (nof_subheaders < (int)max_subheaders - 1 && rem_len > 0 && buffer_tx->get_headroom() > 1) {
nof_subheaders++;
return next();
} else {
return false;
}
}
bool next()
{
if (cur_idx < nof_subheaders - 1) {
cur_idx++;
return true;
} else {
return false;
}
}
void del_subh()
{
if (nof_subheaders > 0) {
nof_subheaders--;
}
if (cur_idx >= 0) {
cur_idx--;
}
}
SubH* get()
{
if (cur_idx >= 0) {
return &subheaders[cur_idx];
} else {
return nullptr;
}
}
bool is_ul() { return pdu_is_ul; }
uint8_t* get_current_sdu_ptr() { return &buffer_tx->msg[buffer_tx->N_bytes]; }
void add_sdu(uint32_t sdu_sz) { buffer_tx->N_bytes += sdu_sz; }
// Section 6.1.2
void parse_packet(uint8_t* ptr)
{
uint8_t* init_ptr = ptr;
nof_subheaders = 0;
bool ret = false;
do {
if (nof_subheaders < (int)max_subheaders) {
ret = subheaders[nof_subheaders].read_subheader(&ptr);
nof_subheaders++;
}
if (ret && ((ptr - init_ptr) >= (int32_t)pdu_len)) {
// stop processing last subheader indicates another one but all bytes are consume
nof_subheaders = 0;
INFO("Corrupted MAC PDU - all bytes have been consumed (pdu_len=%d)\n", pdu_len);
if (log_h) {
log_h->info_hex(
init_ptr, pdu_len, "Corrupted MAC PDU - all bytes have been consumed (pdu_len=%d)\n", pdu_len);
}
}
} while (ret && (nof_subheaders + 1) < (int)max_subheaders && ((int32_t)pdu_len > (ptr - init_ptr)));
for (int i = 0; i < nof_subheaders; i++) {
subheaders[i].read_payload(&ptr);
}
}
protected:
std::vector<SubH> subheaders;
uint32_t pdu_len;
uint32_t rem_len;
int cur_idx;
int nof_subheaders;
uint32_t max_subheaders;
bool pdu_is_ul;
byte_buffer_t* buffer_tx = nullptr;
int last_sdu_idx;
srslte::log_ref log_h;
/* Prepares the PDU for parsing or writing by setting the number of subheaders to 0 and the pdu length */
virtual void init_(byte_buffer_t* buffer_tx_, uint32_t pdu_len_bytes, bool is_ulsch)
{
nof_subheaders = 0;
pdu_len = pdu_len_bytes;
rem_len = pdu_len;
pdu_is_ul = is_ulsch;
buffer_tx = buffer_tx_;
last_sdu_idx = -1;
reset();
for (uint32_t i = 0; i < max_subheaders; i++) {
subheaders[i].parent = this;
subheaders[i].init();
}
}
};
typedef enum { SCH_SUBH_TYPE = 0, MCH_SUBH_TYPE = 1 } subh_type;
template <class SubH>
class subh
{
public:
subh() {}
virtual ~subh() {}
virtual bool read_subheader(uint8_t** ptr) = 0;
virtual void read_payload(uint8_t** ptr) = 0;
virtual void write_subheader(uint8_t** ptr, bool is_last) = 0;
virtual void write_payload(uint8_t** ptr) = 0;
virtual void fprint(FILE* stream) = 0;
pdu<SubH>* parent;
private:
virtual void init() = 0;
};
class sch_subh : public subh<sch_subh>
{
public:
sch_subh(subh_type type_ = SCH_SUBH_TYPE) : type(type_) {}
virtual ~sch_subh() {}
// Size of MAC CEs
const static int MAC_CE_CONTRES_LEN = 6;
const static uint32_t MTCH_STOP_EMPTY = 0b11111111111;
const static uint32_t SDU = 0b00000;
// Reading functions
bool is_sdu();
bool is_var_len_ce();
uint32_t lcid_value() { return lcid; }
ul_sch_lcid ul_sch_ce_type();
dl_sch_lcid dl_sch_ce_type();
mch_lcid mch_ce_type();
uint32_t size_plus_header();
void set_payload_size(uint32_t size);
bool read_subheader(uint8_t** ptr);
void read_payload(uint8_t** ptr);
uint32_t get_sdu_lcid();
uint32_t get_payload_size();
uint32_t get_header_size(bool is_last);
uint8_t* get_sdu_ptr();
uint16_t get_c_rnti();
uint64_t get_con_res_id();
uint8_t get_ta_cmd();
uint8_t get_activation_deactivation_cmd();
float get_phr();
int get_bsr(uint32_t buff_size[4]);
bool get_next_mch_sched_info(uint8_t* lcid, uint16_t* mtch_stop);
// Writing functions
void write_subheader(uint8_t** ptr, bool is_last);
void write_payload(uint8_t** ptr);
int set_sdu(uint32_t lcid, uint32_t nof_bytes, uint8_t* payload);
int set_sdu(uint32_t lcid, uint32_t requested_bytes, read_pdu_interface* sdu_itf);
bool set_c_rnti(uint16_t crnti);
bool set_bsr(uint32_t buff_size[4], ul_sch_lcid format);
bool set_con_res_id(uint64_t con_res_id);
bool set_ta_cmd(uint8_t ta_cmd);
bool set_scell_activation_cmd(const std::array<bool, SRSLTE_MAX_CARRIERS>& active_scell_idxs);
bool set_phr(float phr);
void set_padding();
void set_padding(uint32_t padding_len);
void set_type(subh_type type_);
void init();
void fprint(FILE* stream);
bool set_next_mch_sched_info(uint8_t lcid, uint16_t mtch_stop);
protected:
static const int MAX_CE_PAYLOAD_LEN = 8;
uint32_t lcid = 0;
int nof_bytes = 0;
uint8_t* payload = nullptr;
uint8_t w_payload_ce[64] = {};
uint8_t nof_mch_sched_ce = 0;
uint8_t cur_mch_sched_ce = 0;
bool F_bit = false;
subh_type type = SCH_SUBH_TYPE;
private:
uint32_t sizeof_ce(uint32_t lcid, bool is_ul);
static uint8_t buff_size_table(uint32_t buffer_size);
static uint8_t phr_report_table(float phr_value);
};
class sch_pdu : public pdu<sch_subh>
{
public:
sch_pdu(uint32_t max_subh, const log_ref& log_h_) : pdu(max_subh, log_h_) {}
void parse_packet(uint8_t* ptr);
uint8_t* write_packet();
uint8_t* write_packet(srslte::log_ref log);
bool has_space_ce(uint32_t nbytes, bool var_len = false);
bool has_space_sdu(uint32_t nbytes);
int get_pdu_len();
int rem_size();
int get_sdu_space();
static uint32_t size_header_sdu(uint32_t nbytes);
bool update_space_ce(uint32_t nbytes, bool var_len = false);
bool update_space_sdu(uint32_t nbytes);
void fprint(FILE* stream);
};
class rar_subh : public subh<rar_subh>
{
public:
typedef enum { BACKOFF = 0, RAPID } rar_subh_type_t;
rar_subh()
{
bzero(&grant, sizeof(grant));
ta = 0;
temp_rnti = 0;
preamble = 0;
parent = NULL;
type = BACKOFF;
}
static const uint32_t RAR_GRANT_LEN = 20;
// Reading functions
bool read_subheader(uint8_t** ptr);
void read_payload(uint8_t** ptr);
bool has_rapid();
uint32_t get_rapid();
uint32_t get_ta_cmd();
uint16_t get_temp_crnti();
void get_sched_grant(uint8_t grant[RAR_GRANT_LEN]);
// Writing functoins
void write_subheader(uint8_t** ptr, bool is_last);
void write_payload(uint8_t** ptr);
void set_rapid(uint32_t rapid);
void set_ta_cmd(uint32_t ta);
void set_temp_crnti(uint16_t temp_rnti);
void set_sched_grant(uint8_t grant[RAR_GRANT_LEN]);
void init();
void fprint(FILE* stream);
private:
uint8_t grant[RAR_GRANT_LEN];
uint32_t ta;
uint16_t temp_rnti;
uint32_t preamble;
rar_subh_type_t type;
};
class rar_pdu : public pdu<rar_subh>
{
public:
rar_pdu(uint32_t max_rars = 16, srslte::log_ref log_ = {});
void set_backoff(uint8_t bi);
bool has_backoff();
uint8_t get_backoff();
bool write_packet(uint8_t* ptr);
void fprint(FILE* stream);
private:
bool has_backoff_indicator;
uint8_t backoff_indicator;
};
class mch_pdu : public sch_pdu
{
public:
mch_pdu(uint32_t max_subh, const log_ref& log_h_) : sch_pdu(max_subh, log_h_) {}
7 years ago
private:
/* Prepares the PDU for parsing or writing by setting the number of subheaders to 0 and the pdu length */
virtual void init_(byte_buffer_t* buffer_tx_, uint32_t pdu_len_bytes, bool is_ulsch)
{
nof_subheaders = 0;
pdu_len = pdu_len_bytes;
rem_len = pdu_len;
pdu_is_ul = is_ulsch;
buffer_tx = buffer_tx_;
last_sdu_idx = -1;
reset();
for (uint32_t i = 0; i < max_subheaders; i++) {
subheaders[i].set_type(MCH_SUBH_TYPE);
subheaders[i].parent = this;
subheaders[i].init();
}
}
7 years ago
};
} // namespace srslte
#endif // MACPDU_H