/* rlc header descriptions * * Copyright (C) 2012 Ivan Klyuchnikov * Copyright (C) 2012 Andreas Eversberg * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #pragma once #include "gprs_coding_scheme.h" #include #include #define RLC_GPRS_SNS 128 /* GPRS, must be power of 2 */ #define RLC_GPRS_WS 64 /* max window size */ #define RLC_EGPRS_SNS 2048 /* EGPRS, must be power of 2 */ #define RLC_EGPRS_MIN_WS 64 /* min window size */ #define RLC_EGPRS_MAX_WS 1024 /* min window size */ #define RLC_EGPRS_SNS 2048 /* EGPRS, must be power of 2 */ #define RLC_EGPRS_MAX_BSN_DELTA 512 #define RLC_MAX_SNS RLC_EGPRS_SNS #define RLC_MAX_WS RLC_EGPRS_MAX_WS #define RLC_MAX_LEN 74 /* MCS-9 data unit */ struct BTS; struct gprs_rlc_v_n; /* The state of a BSN in the send/receive window */ enum gprs_rlc_ul_bsn_state { GPRS_RLC_UL_BSN_INVALID, GPRS_RLC_UL_BSN_RECEIVED, GPRS_RLC_UL_BSN_MISSING, GPRS_RLC_UL_BSN_MAX, }; enum gprs_rlc_dl_bsn_state { GPRS_RLC_DL_BSN_INVALID, GPRS_RLC_DL_BSN_NACKED, GPRS_RLC_DL_BSN_ACKED, GPRS_RLC_DL_BSN_UNACKED, GPRS_RLC_DL_BSN_RESEND, GPRS_RLC_DL_BSN_MAX, }; static inline uint16_t mod_sns_half() { return (RLC_MAX_SNS / 2) - 1; } struct gprs_rlc_data_block_info { unsigned int data_len; /* EGPRS: N2, GPRS: N2-2, N-2 */ unsigned int bsn; unsigned int ti; unsigned int e; unsigned int cv; /* FBI == 1 <=> CV == 0 */ unsigned int pi; unsigned int spb; }; struct gprs_rlc_data_info { GprsCodingScheme cs; unsigned int r; unsigned int si; unsigned int tfi; unsigned int cps; unsigned int rsb; unsigned int usf; unsigned int es_p; unsigned int rrbp; unsigned int pr; unsigned int num_data_blocks; unsigned int with_padding; unsigned int data_offs_bits[2]; struct gprs_rlc_data_block_info block_info[2]; }; struct gprs_rlc_data { uint8_t *prepare(size_t block_data_length); void put_data(const uint8_t *data, size_t len); /* block history */ uint8_t block[RLC_MAX_LEN]; /* block len of history */ uint8_t len; struct gprs_rlc_data_block_info block_info; GprsCodingScheme cs; }; void gprs_rlc_data_info_init_dl(struct gprs_rlc_data_info *rlc, GprsCodingScheme cs, bool with_padding); void gprs_rlc_data_info_init_ul(struct gprs_rlc_data_info *rlc, GprsCodingScheme cs, bool with_padding); void gprs_rlc_data_block_info_init(struct gprs_rlc_data_block_info *rdbi, GprsCodingScheme cs, bool with_padding); unsigned int gprs_rlc_mcs_cps(GprsCodingScheme cs, int punct, int punct2, int with_padding); void gprs_rlc_mcs_cps_decode(unsigned int cps, GprsCodingScheme cs, int *punct, int *punct2, int *with_padding); /* * I hold the currently transferred blocks and will provide * the routines to manipulate these arrays. */ struct gprs_rlc { gprs_rlc_data *block(int bsn); gprs_rlc_data m_blocks[RLC_MAX_SNS/2]; }; /** * TODO: for GPRS/EDGE maybe make sns a template parameter * so we create specialized versions... */ struct gprs_rlc_v_b { /* Check for an individual frame */ bool is_unacked(int bsn) const; bool is_nacked(int bsn) const; bool is_acked(int bsn) const; bool is_resend(int bsn) const; bool is_invalid(int bsn) const; gprs_rlc_dl_bsn_state get_state(int bsn) const; /* Mark a RLC frame for something */ void mark_unacked(int bsn); void mark_nacked(int bsn); void mark_acked(int bsn); void mark_resend(int bsn); void mark_invalid(int bsn); void reset(); private: bool is_state(int bsn, const gprs_rlc_dl_bsn_state state) const; void mark(int bsn, const gprs_rlc_dl_bsn_state state); gprs_rlc_dl_bsn_state m_v_b[RLC_MAX_SNS/2]; /* acknowledge state array */ }; /** * TODO: The UL/DL code could/should share a base class. */ class gprs_rlc_window { public: gprs_rlc_window(); const uint16_t mod_sns() const; const uint16_t mod_sns(uint16_t bsn) const; const uint16_t sns() const; const uint16_t ws() const; void set_sns(uint16_t sns); void set_ws(uint16_t ws); protected: uint16_t m_sns; uint16_t m_ws; }; struct gprs_rlc_dl_window: public gprs_rlc_window { void reset(); bool window_stalled() const; bool window_empty() const; void increment_send(); void raise(int moves); const uint16_t v_s() const; const uint16_t v_s_mod(int offset) const; const uint16_t v_a() const; const int16_t distance() const; /* Methods to manage reception */ int resend_needed(); int mark_for_resend(); void update(BTS *bts, char *show_rbb, uint16_t ssn, uint16_t *lost, uint16_t *received); void update(BTS *bts, const struct bitvec *rbb, uint16_t first_bsn, uint16_t *lost, uint16_t *received); int move_window(); void show_state(char *show_rbb); int count_unacked(); uint16_t m_v_s; /* send state */ uint16_t m_v_a; /* ack state */ gprs_rlc_v_b m_v_b; gprs_rlc_dl_window(); }; struct gprs_rlc_v_n { void reset(); void mark_received(int bsn); void mark_missing(int bsn); bool is_received(int bsn) const; gprs_rlc_ul_bsn_state state(int bsn) const; private: bool is_state(int bsn, const gprs_rlc_ul_bsn_state state) const; void mark(int bsn, const gprs_rlc_ul_bsn_state state); gprs_rlc_ul_bsn_state m_v_n[RLC_MAX_SNS/2]; /* receive state array */ }; struct gprs_rlc_ul_window: public gprs_rlc_window { const uint16_t v_r() const; const uint16_t v_q() const; const uint16_t ssn() const; bool is_in_window(uint16_t bsn) const; bool is_received(uint16_t bsn) const; void update_rbb(char *rbb); void raise_v_r_to(int moves); void raise_v_r(const uint16_t bsn); uint16_t raise_v_q(); void raise_v_q(int); void receive_bsn(const uint16_t bsn); bool invalidate_bsn(const uint16_t bsn); uint16_t m_v_r; /* receive state */ uint16_t m_v_q; /* receive window state */ gprs_rlc_v_n m_v_n; gprs_rlc_ul_window(); }; extern "C" { /* TS 04.60 10.2.2 */ #if OSMO_IS_LITTLE_ENDIAN struct rlc_ul_header { uint8_t r:1, si:1, cv:4, pt:2; uint8_t ti:1, tfi:5, pi:1, spare:1; uint8_t e:1, bsn:7; } __attribute__ ((packed)); struct rlc_dl_header { uint8_t usf:3, s_p:1, rrbp:2, pt:2; uint8_t fbi:1, tfi:5, pr:2; uint8_t e:1, bsn:7; } __attribute__ ((packed)); struct rlc_li_field { uint8_t e:1, m:1, li:6; } __attribute__ ((packed)); struct rlc_li_field_egprs { uint8_t e:1, li:7; } __attribute__ ((packed)); struct gprs_rlc_ul_header_egprs_3 { uint8_t r:1, si:1, cv:4, tfi_a:2; uint8_t tfi_b:3, bsn1_a:5; uint8_t bsn1_b:6, cps_a:2; uint8_t cps_b:2, spb:2, rsb:1, pi:1, spare:1, dummy:1; } __attribute__ ((packed)); struct gprs_rlc_dl_header_egprs_1 { uint8_t usf:3, es_p:2, rrbp:2, tfi_a:1; uint8_t tfi_b:4, pr:2, bsn1_a:2; uint8_t bsn1_b:8; uint8_t bsn1_c:1, bsn2_a:7; uint8_t bsn2_b:3, cps:5; } __attribute__ ((packed)); struct gprs_rlc_dl_header_egprs_2 { uint8_t usf:3, es_p:2, rrbp:2, tfi_a:1; uint8_t tfi_b:4, pr:2, bsn1_a:2; uint8_t bsn1_b:8; uint8_t bsn1_c:1, cps:3, dummy:4; } __attribute__ ((packed)); struct gprs_rlc_dl_header_egprs_3 { uint8_t usf:3, es_p:2, rrbp:2, tfi_a:1; uint8_t tfi_b:4, pr:2, bsn1_a:2; uint8_t bsn1_b:8; uint8_t bsn1_c:1, cps:4, spb:2, dummy:1; } __attribute__ ((packed)); #else # error "Only little endian headers are supported yet. TODO: add missing structs" #endif } inline bool gprs_rlc_v_b::is_state(int bsn, const gprs_rlc_dl_bsn_state type) const { return m_v_b[bsn & mod_sns_half()] == type; } inline void gprs_rlc_v_b::mark(int bsn, const gprs_rlc_dl_bsn_state type) { m_v_b[bsn & mod_sns_half()] = type; } inline bool gprs_rlc_v_b::is_nacked(int bsn) const { return is_state(bsn, GPRS_RLC_DL_BSN_NACKED); } inline bool gprs_rlc_v_b::is_acked(int bsn) const { return is_state(bsn, GPRS_RLC_DL_BSN_ACKED); } inline bool gprs_rlc_v_b::is_unacked(int bsn) const { return is_state(bsn, GPRS_RLC_DL_BSN_UNACKED); } inline bool gprs_rlc_v_b::is_resend(int bsn) const { return is_state(bsn, GPRS_RLC_DL_BSN_RESEND); } inline bool gprs_rlc_v_b::is_invalid(int bsn) const { return is_state(bsn, GPRS_RLC_DL_BSN_INVALID); } inline gprs_rlc_dl_bsn_state gprs_rlc_v_b::get_state(int bsn) const { return m_v_b[bsn & mod_sns_half()]; } inline void gprs_rlc_v_b::mark_resend(int bsn) { return mark(bsn, GPRS_RLC_DL_BSN_RESEND); } inline void gprs_rlc_v_b::mark_unacked(int bsn) { return mark(bsn, GPRS_RLC_DL_BSN_UNACKED); } inline void gprs_rlc_v_b::mark_acked(int bsn) { return mark(bsn, GPRS_RLC_DL_BSN_ACKED); } inline void gprs_rlc_v_b::mark_nacked(int bsn) { return mark(bsn, GPRS_RLC_DL_BSN_NACKED); } inline void gprs_rlc_v_b::mark_invalid(int bsn) { return mark(bsn, GPRS_RLC_DL_BSN_INVALID); } inline gprs_rlc_window::gprs_rlc_window() : m_sns(RLC_GPRS_SNS) , m_ws(RLC_GPRS_WS) { } inline const uint16_t gprs_rlc_window::sns() const { return m_sns; } inline const uint16_t gprs_rlc_window::ws() const { return m_ws; } inline const uint16_t gprs_rlc_window::mod_sns() const { return sns() - 1; } inline const uint16_t gprs_rlc_window::mod_sns(uint16_t bsn) const { return bsn & mod_sns(); } inline gprs_rlc_dl_window::gprs_rlc_dl_window() : m_v_s(0) , m_v_a(0) { } inline const uint16_t gprs_rlc_dl_window::v_s() const { return m_v_s; } inline const uint16_t gprs_rlc_dl_window::v_s_mod(int offset) const { return mod_sns(m_v_s + offset); } inline const uint16_t gprs_rlc_dl_window::v_a() const { return m_v_a; } inline bool gprs_rlc_dl_window::window_stalled() const { return (mod_sns(m_v_s - m_v_a)) == ws(); } inline bool gprs_rlc_dl_window::window_empty() const { return m_v_s == m_v_a; } inline void gprs_rlc_dl_window::increment_send() { m_v_s = (m_v_s + 1) & mod_sns(); } inline void gprs_rlc_dl_window::raise(int moves) { m_v_a = (m_v_a + moves) & mod_sns(); } inline const int16_t gprs_rlc_dl_window::distance() const { return (m_v_s - m_v_a) & mod_sns(); } inline gprs_rlc_ul_window::gprs_rlc_ul_window() : m_v_r(0) , m_v_q(0) { } inline bool gprs_rlc_ul_window::is_in_window(uint16_t bsn) const { uint16_t offset_v_q; /* current block relative to lowest unreceived block */ offset_v_q = (bsn - m_v_q) & mod_sns(); /* If out of window (may happen if blocks below V(Q) are received * again. */ return offset_v_q < ws(); } inline bool gprs_rlc_ul_window::is_received(uint16_t bsn) const { uint16_t offset_v_r; /* Offset to the end of the received window */ offset_v_r = (m_v_r - 1 - bsn) & mod_sns(); return is_in_window(bsn) && m_v_n.is_received(bsn) && offset_v_r < ws(); } inline const uint16_t gprs_rlc_ul_window::v_r() const { return m_v_r; } inline const uint16_t gprs_rlc_ul_window::v_q() const { return m_v_q; } inline const uint16_t gprs_rlc_ul_window::ssn() const { return m_v_r; } inline void gprs_rlc_ul_window::raise_v_r_to(int moves) { m_v_r = mod_sns(m_v_r + moves); } inline void gprs_rlc_ul_window::raise_v_q(int incr) { m_v_q = mod_sns(m_v_q + incr); } inline void gprs_rlc_v_n::mark_received(int bsn) { return mark(bsn, GPRS_RLC_UL_BSN_RECEIVED); } inline void gprs_rlc_v_n::mark_missing(int bsn) { return mark(bsn, GPRS_RLC_UL_BSN_MISSING); } inline bool gprs_rlc_v_n::is_received(int bsn) const { return is_state(bsn, GPRS_RLC_UL_BSN_RECEIVED); } inline bool gprs_rlc_v_n::is_state(int bsn, gprs_rlc_ul_bsn_state type) const { return m_v_n[bsn & mod_sns_half()] == type; } inline void gprs_rlc_v_n::mark(int bsn, gprs_rlc_ul_bsn_state type) { m_v_n[bsn & mod_sns_half()] = type; } inline gprs_rlc_ul_bsn_state gprs_rlc_v_n::state(int bsn) const { return m_v_n[bsn & mod_sns_half()]; } inline gprs_rlc_data *gprs_rlc::block(int bsn) { return &m_blocks[bsn & mod_sns_half()]; }