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authorHarald Welte <laforge@gnumonks.org>2017-06-12 14:59:37 +0200
committerHarald Welte <laforge@gnumonks.org>2017-06-12 15:35:23 +0200
commitc663678b26aed636e13b56ab8a220791e268f244 (patch)
treedfadda0a6275a55672b16bde1e00fbce34c7f28e /src/coding
parentb9946d372cb17c95ef629449961004d6e6f12239 (diff)
Add doxygen documentation to libosmocoding
This adds the minimum amount of API documentation that we should have on all our code, particularly new code merged into a library. Change-Id: I526804f64313867913574e50e5b9e9205ad3aa74
Diffstat (limited to 'src/coding')
-rw-r--r--src/coding/gsm0503_coding.c260
-rw-r--r--src/coding/gsm0503_interleaving.c117
-rw-r--r--src/coding/gsm0503_mapping.c13
-rw-r--r--src/coding/gsm0503_parity.c40
-rw-r--r--src/coding/gsm0503_tables.c14
5 files changed, 414 insertions, 30 deletions
diff --git a/src/coding/gsm0503_coding.c b/src/coding/gsm0503_coding.c
index d7524542..bf4df1c3 100644
--- a/src/coding/gsm0503_coding.c
+++ b/src/coding/gsm0503_coding.c
@@ -2,6 +2,7 @@
* (C) 2013 by Andreas Eversberg <jolly@eversberg.eu>
* (C) 2015 by Alexander Chemeris <Alexander.Chemeris@fairwaves.co>
* (C) 2016 by Tom Tsou <tom.tsou@ettus.com>
+ * (C) 2017 by Harald Welte <laforge@gnumonks.org>
*
* All Rights Reserved
*
@@ -45,6 +46,64 @@
#include <osmocom/coding/gsm0503_coding.h>
#include <osmocom/coding/gsm0503_parity.h>
+/*! \mainpage libosmocoding Documentation
+ *
+ * \section sec_intro Introduction
+ * This library is a collection of definitions, tables and functions
+ * implementing the GSM/GPRS/EGPRS channel coding (and decoding) as
+ * specified in 3GPP TS 05.03 / 45.003.
+ *
+ * libosmocodec is developed as part of the Osmocom (Open Source Mobile
+ * Communications) project, a community-based, collaborative development
+ * project to create Free and Open Source implementations of mobile
+ * communications systems. For more information about Osmocom, please
+ * see https://osmocom.org/
+ *
+ * \section sec_copyright Copyright and License
+ * Copyright © 2013 by Andreas Eversberg\n
+ * Copyright © 2015 by Alexander Chemeris\n
+ * Copyright © 2016 by Tom Tsou\n
+ * Documentation Copyright © 2017 by Harald Welte\n
+ * All rights reserved. \n\n
+ * The source code of libosmocoding is licensed 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.\n
+ * See <http://www.gnu.org/licenses/> or COPYING included in the source
+ * code package istelf.\n
+ * The information detailed here is provided AS IS with NO WARRANTY OF
+ * ANY KIND, INCLUDING THE WARRANTY OF DESIGN, MERCHANTABILITY AND
+ * FITNESS FOR A PARTICULAR PURPOSE.
+ * \n\n
+ *
+ * \section sec_tracker Homepage + Issue Tracker
+ * libosmocoding is distributed as part of libosmocore and shares its
+ * project page at http://osmocom.org/projects/libosmocore
+ *
+ * An Issue Tracker can be found at
+ * https://osmocom.org/projects/libosmocore/issues
+ *
+ * \section sec_contact Contact and Support
+ * Community-based support is available at the OpenBSC mailing list
+ * <http://lists.osmocom.org/mailman/listinfo/openbsc>\n
+ * Commercial support options available upon request from
+ * <http://sysmocom.de/>
+ */
+
+
+/*! \addtogroup coding
+ * @{
+ *
+ * \brief GSM TS 05.03 coding
+ *
+ * This module is the "master module" of libosmocoding. It uses the
+ * various other modules (mapping, parity, interleaving) in order to
+ * implement the complete channel coding (and decoding) chain for the
+ * various channel types as defined in TS 05.03 / 45.003.
+ */
+
+/*! \file gsm0503_coding.c */
+
/*
* EGPRS coding limits
*/
@@ -78,34 +137,49 @@
/* TS 101318 Chapter 5.3: 244 bits + 4bit sig */
#define GSM_EFR_BYTES 31
+/*! \brief union across the three different EGPRS Uplink header types */
union gprs_rlc_ul_hdr_egprs {
struct gprs_rlc_ul_header_egprs_1 type1;
struct gprs_rlc_ul_header_egprs_2 type2;
struct gprs_rlc_ul_header_egprs_3 type3;
};
+/*! \brief union across the three different EGPRS Downlink header types */
union gprs_rlc_dl_hdr_egprs {
struct gprs_rlc_dl_header_egprs_1 type1;
struct gprs_rlc_dl_header_egprs_2 type2;
struct gprs_rlc_dl_header_egprs_3 type3;
};
+/*! \brief Structure describing a Modulation and Coding Scheme */
struct gsm0503_mcs_code {
+ /*! \brief Modulation and Coding Scheme (MSC) number */
uint8_t mcs;
+ /*! \brief Length of Uplink Stealing Flag (USF) in bits */
uint8_t usf_len;
/* Header coding */
+ /*! \brief Length of header (bits) */
uint8_t hdr_len;
+ /*! \brief Length of header convolutional code */
uint8_t hdr_code_len;
+ /*! \brief Length of header code puncturing sequence */
uint8_t hdr_punc_len;
+ /*! \brief header convolutional code */
const struct osmo_conv_code *hdr_conv;
+ /*! \brief header puncturing sequence */
const uint8_t *hdr_punc;
/* Data coding */
+ /*! \brief length of data (bits) */
uint16_t data_len;
+ /*! \brief length of data convolutional code */
uint16_t data_code_len;
+ /*! \brief length of data code puncturing sequence */
uint16_t data_punc_len;
+ /*! \brief data convolutional code */
const struct osmo_conv_code *data_conv;
+ /*! \brief data puncturing sequences */
const uint8_t *data_punc[3];
};
@@ -460,6 +534,13 @@ struct gsm0503_mcs_code gsm0503_mcs_dl_codes[EGPRS_NUM_MCS] = {
},
};
+/*! \brief Convolutional Decode + compute BER
+ * \param[in] code Description of Convolutional Code
+ * \param[in] input Input soft-bits (-127...127)
+ * \param[out] output bits
+ * \param[out] n_errors Number of bit-errors
+ * \param[out] n_bits_total Number of bits
+ */
static int osmo_conv_decode_ber(const struct osmo_conv_code *code,
const sbit_t *input, ubit_t *output,
int *n_errors, int *n_bits_total)
@@ -490,6 +571,12 @@ static int osmo_conv_decode_ber(const struct osmo_conv_code *code,
return res;
}
+/*! \brief convenience wrapper for decoding coded bits
+ * \param[out] l2_data caller-allocated buffer for L2 Frame
+ * \param[in] cB 456 coded (soft) bits as per TS 05.03 4.1.3
+ * \param[out] n_errors Number of detected errors
+ * \param[out] n_bits_total Number of total coded bits
+ * \returns 0 on success; -1 on CRC error */
static int _xcch_decode_cB(uint8_t *l2_data, const sbit_t *cB,
int *n_errors, int *n_bits_total)
{
@@ -509,6 +596,10 @@ static int _xcch_decode_cB(uint8_t *l2_data, const sbit_t *cB,
return 0;
}
+/*! \brief convenience wrapper for encoding to coded bits
+ * \param[out] cB caller-allocated buffer for 456 coded bits as per TS 05.03 4.1.3
+ * \param[out] l2_data to-be-encoded L2 Frame
+ * \returns 0 */
static int _xcch_encode_cB(ubit_t *cB, const uint8_t *l2_data)
{
ubit_t conv[224];
@@ -525,6 +616,13 @@ static int _xcch_encode_cB(ubit_t *cB, const uint8_t *l2_data)
/*
* GSM xCCH block transcoding
*/
+
+/*! \brief Decoding of xCCH data from bursts to L2 frame
+ * \param[out] l2_data caller-allocated output data buffer
+ * \param[in] bursts four GSM bursts in soft-bits
+ * \param[out] n_errors Number of detected errors
+ * \param[out] n_bits_total Number of total coded bits
+ */
int gsm0503_xcch_decode(uint8_t *l2_data, const sbit_t *bursts,
int *n_errors, int *n_bits_total)
{
@@ -539,6 +637,11 @@ int gsm0503_xcch_decode(uint8_t *l2_data, const sbit_t *bursts,
return _xcch_decode_cB(l2_data, cB, n_errors, n_bits_total);
}
+/*! \brief Encoding of xCCH data from L2 frame to bursts
+ * \param[out] bursts caller-allocated burst data (unpacked bits)
+ * \param[in] l2_data L2 input data (MAC block)
+ * \returns 0
+ */
int gsm0503_xcch_encode(ubit_t *bursts, const uint8_t *l2_data)
{
ubit_t iB[456], cB[456], hl = 1, hn = 1;
@@ -801,14 +904,18 @@ static int egprs_decode_data(uint8_t *l2_data, const sbit_t *c,
return NUM_BYTES(code->hdr_len + code->data_len);
}
-/*
- * Decode EGPRS UL message
- *
- * 1. Header section decoding
- * 2. Extract CPS settings
- * 3. Burst unmapping and deinterleaving
- * 4. Data section decoding
- */
+/*! \brief Decode EGPRS UL message
+ * 1. Header section decoding
+ * 2. Extract CPS settings
+ * 3. Burst unmapping and deinterleaving
+ * 4. Data section decoding
+ * \param[out] l2_data caller-allocated buffer for L2 Frame
+ * \param[in] bursts burst input data as soft unpacked bits
+ * \param[in] nbits number of bits in \a bursts
+ * \param usf_p unused argument ?!?
+ * \param[out] n_errors number of detected bit-errors
+ * \param[out] n_bits_total total number of dcoded bits
+ * \returns 0 on success; negative on error */
int gsm0503_pdtch_egprs_decode(uint8_t *l2_data, const sbit_t *bursts, uint16_t nbits,
uint8_t *usf_p, int *n_errors, int *n_bits_total)
{
@@ -879,6 +986,13 @@ int gsm0503_pdtch_egprs_decode(uint8_t *l2_data, const sbit_t *bursts, uint16_t
* GSM PDTCH block transcoding
*/
+/*! \brief Decode GPRS PDTCH
+ * \param[out] l2_data caller-allocated buffer for L2 Frame
+ * \param[in] bursts burst input data as soft unpacked bits
+ * \param[out] usf_p uplink stealing flag
+ * \param[out] n_errors number of detected bit-errors
+ * \param[out] n_bits_total total number of dcoded bits
+ * \returns 0 on success; negative on error */
int gsm0503_pdtch_decode(uint8_t *l2_data, const sbit_t *bursts, uint8_t *usf_p,
int *n_errors, int *n_bits_total)
{
@@ -1189,9 +1303,11 @@ static int egprs_parse_dl_cps(struct egprs_cps *cps,
return egprs_get_cps(cps, type, bits);
}
-/*
- * EGPRS DL message encoding
- */
+/*! \brief EGPRS DL message encoding
+ * \param[out] bursts caller-allocated buffer for unpacked burst bits
+ * \param[in] l2_data L2 (MAC) block to be encoded
+ * \param[in] l2_len length of l2_data in bytes, used to determine MCS
+ * \returns 0 on success; negative on error */
int gsm0503_pdtch_egprs_encode(ubit_t *bursts,
const uint8_t *l2_data, uint8_t l2_len)
{
@@ -1282,6 +1398,11 @@ bad_header:
return -1;
}
+/*! \brief GPRS DL message encoding
+ * \param[out] bursts caller-allocated buffer for unpacked burst bits
+ * \param[in] l2_data L2 (MAC) block to be encoded
+ * \param[in] l2_len length of l2_data in bytes, used to determine CS
+ * \returns 0 on success; negative on error */
int gsm0503_pdtch_encode(ubit_t *bursts, const uint8_t *l2_data, uint8_t l2_len)
{
ubit_t iB[456], cB[676];
@@ -1366,6 +1487,10 @@ int gsm0503_pdtch_encode(ubit_t *bursts, const uint8_t *l2_data, uint8_t l2_len)
* GSM TCH/F FR/EFR transcoding
*/
+/*! \brief assemble a FR codec frame in format as used inside RTP
+ * \param[out] tch_data Codec frame in RTP format
+ * \param[in] b_bits Codec frame in 'native' format
+ * \param[in] net_order FIXME */
static void tch_fr_reassemble(uint8_t *tch_data,
const ubit_t *b_bits, int net_order)
{
@@ -1426,6 +1551,7 @@ static void tch_fr_disassemble(ubit_t *b_bits,
}
}
+/* assemble a HR codec frame in format as used inside RTP */
static void tch_hr_reassemble(uint8_t *tch_data, const ubit_t *b_bits)
{
int i, j;
@@ -1445,6 +1571,7 @@ static void tch_hr_disassemble(ubit_t *b_bits, const uint8_t *tch_data)
b_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1;
}
+/* assemble a EFR codec frame in format as used inside RTP */
static void tch_efr_reassemble(uint8_t *tch_data, const ubit_t *b_bits)
{
int i, j;
@@ -1464,6 +1591,7 @@ static void tch_efr_disassemble(ubit_t *b_bits, const uint8_t *tch_data)
b_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1;
}
+/* assemble a AMR codec frame in format as used inside RTP */
static void tch_amr_reassemble(uint8_t *tch_data, const ubit_t *d_bits, int len)
{
int i, j;
@@ -1482,6 +1610,7 @@ static void tch_amr_disassemble(ubit_t *d_bits, const uint8_t *tch_data, int len
d_bits[i] = (tch_data[j >> 3] >> (7 - (j & 7))) & 1;
}
+/* re-arrange according to TS 05.03 Table 2 (receiver) */
static void tch_fr_d_to_b(ubit_t *b_bits, const ubit_t *d_bits)
{
int i;
@@ -1490,6 +1619,7 @@ static void tch_fr_d_to_b(ubit_t *b_bits, const ubit_t *d_bits)
b_bits[gsm610_bitorder[i]] = d_bits[i];
}
+/* re-arrange according to TS 05.03 Table 2 (transmitter) */
static void tch_fr_b_to_d(ubit_t *d_bits, const ubit_t *b_bits)
{
int i;
@@ -1498,6 +1628,7 @@ static void tch_fr_b_to_d(ubit_t *d_bits, const ubit_t *b_bits)
d_bits[i] = b_bits[gsm610_bitorder[i]];
}
+/* re-arrange according to TS 05.03 Table 3a (receiver) */
static void tch_hr_d_to_b(ubit_t *b_bits, const ubit_t *d_bits)
{
int i;
@@ -1513,6 +1644,7 @@ static void tch_hr_d_to_b(ubit_t *b_bits, const ubit_t *d_bits)
b_bits[map[i]] = d_bits[i];
}
+/* re-arrange according to TS 05.03 Table 3a (transmitter) */
static void tch_hr_b_to_d(ubit_t *d_bits, const ubit_t *b_bits)
{
int i;
@@ -1527,6 +1659,7 @@ static void tch_hr_b_to_d(ubit_t *d_bits, const ubit_t *b_bits)
d_bits[i] = b_bits[map[i]];
}
+/* re-arrange according to TS 05.03 Table 6 (receiver) */
static void tch_efr_d_to_w(ubit_t *b_bits, const ubit_t *d_bits)
{
int i;
@@ -1535,6 +1668,7 @@ static void tch_efr_d_to_w(ubit_t *b_bits, const ubit_t *d_bits)
b_bits[gsm660_bitorder[i]] = d_bits[i];
}
+/* re-arrange according to TS 05.03 Table 6 (transmitter) */
static void tch_efr_w_to_d(ubit_t *d_bits, const ubit_t *b_bits)
{
int i;
@@ -1543,6 +1677,7 @@ static void tch_efr_w_to_d(ubit_t *d_bits, const ubit_t *b_bits)
d_bits[i] = b_bits[gsm660_bitorder[i]];
}
+/* extract the 65 protected class1a+1b bits */
static void tch_efr_protected(const ubit_t *s_bits, ubit_t *b_bits)
{
int i;
@@ -1637,6 +1772,14 @@ static void tch_amr_unmerge(ubit_t *d, ubit_t *p, const ubit_t *u, int len, int
memcpy(d + prot, u + prot + 6, len - prot);
}
+/*! \brief Perform channel decoding of a FR/EFR channel according TS 05.03
+ * \param[out] tch_data Codec frame in RTP payload format
+ * \param[in] bursts buffer containing the symbols of 8 bursts
+ * \param[in] net_order FIXME
+ * \param[in] efr Is this channel using EFR (1) or FR (0)
+ * \param[out] n_errors Number of detected bit errors
+ * \param[out] n_bits_total Total number of bits
+ * \returns length of bytes used in \a tch_data output buffer */
int gsm0503_tch_fr_decode(uint8_t *tch_data, const sbit_t *bursts,
int net_order, int efr, int *n_errors, int *n_bits_total)
{
@@ -1644,13 +1787,17 @@ int gsm0503_tch_fr_decode(uint8_t *tch_data, const sbit_t *bursts,
ubit_t conv[185], s[244], w[260], b[65], d[260], p[8];
int i, rv, len, steal = 0;
+ /* map from 8 bursts to interleaved data bits (iB) */
for (i = 0; i < 8; i++) {
gsm0503_tch_burst_unmap(&iB[i * 114],
&bursts[i * 116], &h, i >> 2);
steal -= h;
}
+ /* we now have the bits of the four bursts (interface 4 in
+ * Figure 1a of TS 05.03 */
gsm0503_tch_fr_deinterleave(cB, iB);
+ /* we now have the coded bits c(B): interface 3 in Fig. 1a */
if (steal > 0) {
rv = _xcch_decode_cB(tch_data, cB, n_errors, n_bits_total);
@@ -1663,12 +1810,15 @@ int gsm0503_tch_fr_decode(uint8_t *tch_data, const sbit_t *bursts,
}
osmo_conv_decode_ber(&gsm0503_tch_fr, cB, conv, n_errors, n_bits_total);
+ /* we now have the data bits 'u': interface 2 in Fig. 1a */
+ /* input: 'conv', output: d[ata] + p[arity] */
tch_fr_unreorder(d, p, conv);
for (i = 0; i < 78; i++)
d[i + 182] = (cB[i + 378] < 0) ? 1 : 0;
+ /* check if parity of first 50 (class 1) 'd'-bits match 'p' */
rv = osmo_crc8gen_check_bits(&gsm0503_tch_fr_crc3, d, 50, p);
if (rv) {
/* Error checking CRC8 for the FR part of an EFR/FR frame */
@@ -1677,11 +1827,17 @@ int gsm0503_tch_fr_decode(uint8_t *tch_data, const sbit_t *bursts,
if (efr) {
tch_efr_d_to_w(w, d);
+ /* we now have the preliminary-coded bits w(k) */
tch_efr_unreorder(s, p, w);
+ /* we now have the data delivered to the preliminary
+ * channel encoding unit s(k) */
+ /* extract the 65 most important bits according TS 05.03 3.1.1.1 */
tch_efr_protected(s, b);
+ /* perform CRC-8 on 65 most important bits (50 bits of
+ * class 1a + 15 bits of class 1b) */
rv = osmo_crc8gen_check_bits(&gsm0503_tch_efr_crc8, b, 65, p);
if (rv) {
/* Error checking CRC8 for the EFR part of an EFR frame */
@@ -1702,6 +1858,12 @@ int gsm0503_tch_fr_decode(uint8_t *tch_data, const sbit_t *bursts,
return len;
}
+/*! \brief Perform channel encoding on a TCH/FS channel according to TS 05.03
+ * \param[out] bursts caller-allocated output buffer for bursts bits
+ * \param[in] tch_data Codec input data in RTP payload format
+ * \param[in] len Length of \a tch_data in bytes
+ * \param[in] net_order FIXME
+ * \returns 0 in case of success; negative on error */
int gsm0503_tch_fr_encode(ubit_t *bursts, const uint8_t *tch_data,
int len, int net_order)
{
@@ -1760,6 +1922,13 @@ coding_efr_fr:
return 0;
}
+/*! \brief Perform channel decoding of a HR(v1) channel according TS 05.03
+ * \param[out] tch_data Codec frame in RTP payload format
+ * \param[in] bursts buffer containing the symbols of 8 bursts
+ * \param[in] odd Odd (1) or even (0) frame number
+ * \param[out] n_errors Number of detected bit errors
+ * \param[out] n_bits_total Total number of bits
+ * \returns length of bytes used in \a tch_data output buffer */
int gsm0503_tch_hr_decode(uint8_t *tch_data, const sbit_t *bursts, int odd,
int *n_errors, int *n_bits_total)
{
@@ -1830,6 +1999,11 @@ int gsm0503_tch_hr_decode(uint8_t *tch_data, const sbit_t *bursts, int odd,
return 15;
}
+/*! \brief Perform channel encoding on a TCH/HS channel according to TS 05.03
+ * \param[out] bursts caller-allocated output buffer for bursts bits
+ * \param[in] tch_data Codec input data in RTP payload format
+ * \param[in] len Length of \a tch_data in bytes
+ * \returns 0 in case of success; negative on error */
int gsm0503_tch_hr_encode(ubit_t *bursts, const uint8_t *tch_data, int len)
{
ubit_t iB[912], cB[456], h;
@@ -1885,6 +2059,17 @@ int gsm0503_tch_hr_encode(ubit_t *bursts, const uint8_t *tch_data, int len)
return 0;
}
+/*! \brief Perform channel decoding of a TCH/AFS channel according TS 05.03
+ * \param[out] tch_data Codec frame in RTP payload format
+ * \param[in] bursts buffer containing the symbols of 8 bursts
+ * \param[in] codec_mode_req is this CMR (1) or CMC (0)
+ * \param[in] codec array of active codecs (active codec set)
+ * \param[in] codecs number of codecs in \a codec
+ * \param ft Frame Type; Input if \a codec_mode_req = 1, Output * otherwise
+ * \param[out] cmr Output in \a codec_mode_req = 1
+ * \param[out] n_errors Number of detected bit errors
+ * \param[out] n_bits_total Total number of bits
+ * \returns length of bytes used in \a tch_data output buffer */
int gsm0503_tch_afs_decode(uint8_t *tch_data, const sbit_t *bursts,
int codec_mode_req, uint8_t *codec, int codecs, uint8_t *ft,
uint8_t *cmr, int *n_errors, int *n_bits_total)
@@ -2080,6 +2265,16 @@ int gsm0503_tch_afs_decode(uint8_t *tch_data, const sbit_t *bursts,
return len;
}
+/*! \brief Perform channel encoding on a TCH/AFS channel according to TS 05.03
+ * \param[out] bursts caller-allocated output buffer for bursts bits
+ * \param[in] tch_data Codec input data in RTP payload format
+ * \param[in] len Length of \a tch_data in bytes
+ * \param[in] codec_mode_req Use CMR (1) or FT (0)
+ * \param[in] codec Array of codecs (active codec set)
+ * \param[in] codecs Number of entries in \a codec
+ * \param[in] ft Frame Type to be used for encoding (index to \a codec)
+ * \param[in] cmr Codec Mode Request (used in codec_mode_req = 1 only)
+ * \returns 0 in case of success; negative on error */
int gsm0503_tch_afs_encode(ubit_t *bursts, const uint8_t *tch_data, int len,
int codec_mode_req, uint8_t *codec, int codecs, uint8_t ft,
uint8_t cmr)
@@ -2240,6 +2435,18 @@ invalid_length:
return -1;
}
+/*! \brief Perform channel decoding of a TCH/AFS channel according TS 05.03
+ * \param[out] tch_data Codec frame in RTP payload format
+ * \param[in] bursts buffer containing the symbols of 8 bursts
+ * \param[in] odd Is this an odd (1) or even (0) frame number?
+ * \param[in] codec_mode_req is this CMR (1) or CMC (0)
+ * \param[in] codec array of active codecs (active codec set)
+ * \param[in] codecs number of codecs in \a codec
+ * \param ft Frame Type; Input if \a codec_mode_req = 1, Output * otherwise
+ * \param[out] cmr Output in \a codec_mode_req = 1
+ * \param[out] n_errors Number of detected bit errors
+ * \param[out] n_bits_total Total number of bits
+ * \returns length of bytes used in \a tch_data output buffer */
int gsm0503_tch_ahs_decode(uint8_t *tch_data, const sbit_t *bursts, int odd,
int codec_mode_req, uint8_t *codec, int codecs, uint8_t *ft,
uint8_t *cmr, int *n_errors, int *n_bits_total)
@@ -2443,6 +2650,16 @@ int gsm0503_tch_ahs_decode(uint8_t *tch_data, const sbit_t *bursts, int odd,
return len;
}
+/*! \brief Perform channel encoding on a TCH/AHS channel according to TS 05.03
+ * \param[out] bursts caller-allocated output buffer for bursts bits
+ * \param[in] tch_data Codec input data in RTP payload format
+ * \param[in] len Length of \a tch_data in bytes
+ * \param[in] codec_mode_req Use CMR (1) or FT (0)
+ * \param[in] codec Array of codecs (active codec set)
+ * \param[in] codecs Number of entries in \a codec
+ * \param[in] ft Frame Type to be used for encoding (index to \a codec)
+ * \param[in] cmr Codec Mode Request (used in codec_mode_req = 1 only)
+ * \returns 0 in case of success; negative on error */
int gsm0503_tch_ahs_encode(ubit_t *bursts, const uint8_t *tch_data, int len,
int codec_mode_req, uint8_t *codec, int codecs, uint8_t ft,
uint8_t cmr)
@@ -2617,6 +2834,11 @@ static int rach_apply_bsic(ubit_t *d, uint8_t bsic)
return 0;
}
+/*! \brief Decode the (8-bit) RACH according to TS 05.03
+ * \param[out] ra output buffer for RACH data
+ * \param[in] burst Input burst data
+ * \param[in] bsic BSIC used in this cell
+ * \returns 0 on success; negative on error (e.g. CRC error) */
int gsm0503_rach_decode(uint8_t *ra, const sbit_t *burst, uint8_t bsic)
{
ubit_t conv[14];
@@ -2635,6 +2857,11 @@ int gsm0503_rach_decode(uint8_t *ra, const sbit_t *burst, uint8_t bsic)
return 0;
}
+/*! \brief Encode the (8-bit) RACH according to TS 05.03
+ * \param[out] burst Caller-allocated output burst buffer
+ * \param[in] ra Input RACH data
+ * \param[in] bsic BSIC used in this cell
+ * \returns 0 on success; negative on error */
int gsm0503_rach_encode(ubit_t *burst, const uint8_t *ra, uint8_t bsic)
{
ubit_t conv[14];
@@ -2653,6 +2880,11 @@ int gsm0503_rach_encode(ubit_t *burst, const uint8_t *ra, uint8_t bsic)
/*
* GSM SCH transcoding
*/
+
+/*! \brief Decode the SCH according to TS 05.03
+ * \param[out] sb_info output buffer for SCH data
+ * \param[in] burst Input burst data
+ * \returns 0 on success; negative on error (e.g. CRC error) */
int gsm0503_sch_decode(uint8_t *sb_info, const sbit_t *burst)
{
ubit_t conv[35];
@@ -2669,6 +2901,10 @@ int gsm0503_sch_decode(uint8_t *sb_info, const sbit_t *burst)
return 0;
}
+/*! \brief Encode the SCH according to TS 05.03
+ * \param[out] burst Caller-allocated output burst buffer
+ * \param[in] sb_info Input SCH data
+ * \returns 0 on success; negative on error */
int gsm0503_sch_encode(ubit_t *burst, const uint8_t *sb_info)
{
ubit_t conv[35];
@@ -2681,3 +2917,5 @@ int gsm0503_sch_encode(ubit_t *burst, const uint8_t *sb_info)
return 0;
}
+
+/*! @} */
diff --git a/src/coding/gsm0503_interleaving.c b/src/coding/gsm0503_interleaving.c
index 22ad6f69..61d4fdc6 100644
--- a/src/coding/gsm0503_interleaving.c
+++ b/src/coding/gsm0503_interleaving.c
@@ -1,6 +1,7 @@
/*
* (C) 2013 by Andreas Eversberg <jolly@eversberg.eu>
* (C) 2016 by Tom Tsou <tom.tsou@ettus.com>
+ * (C) 2017 by Hrald Welte <laforge@gnumonks.org>
*
* All Rights Reserved
*
@@ -26,6 +27,16 @@
#include <osmocom/coding/gsm0503_tables.h>
#include <osmocom/coding/gsm0503_interleaving.h>
+/*! \addtogroup interleaving
+ * @{
+ * \brief GSM TS 05.03 interleaving
+ *
+ * This module contains interleaving / de-interleaving routines for
+ * various channel types, as defined in 3GPP TS 05.03 / 45.003
+ */
+
+/*! \file gsm0503_interleaving.c */
+
/*
* GSM xCCH interleaving and burst mapping
*
@@ -48,6 +59,9 @@
* Where hl(B) and hn(B) are bits in burst B indicating flags.
*/
+/*! \brief De-Interleave burst bits according to TS 05.03 4.1.4
+ * \param[out] cB caller-allocated output buffer for 456 soft coded bits
+ * \param[in] iB 456 soft input bits */
void gsm0503_xcch_deinterleave(sbit_t *cB, const sbit_t *iB)
{
int j, k, B;
@@ -59,6 +73,9 @@ void gsm0503_xcch_deinterleave(sbit_t *cB, const sbit_t *iB)
}
}
+/*! \brief Interleave burst bits according to TS 05.03 4.1.4
+ * \param[out] iB caller-allocated output buffer for 456 soft interleaved bits
+ * \param[in] cB 456 soft input coded bits */
void gsm0503_xcch_interleave(ubit_t *cB, ubit_t *iB)
{
int j, k, B;
@@ -70,6 +87,11 @@ void gsm0503_xcch_interleave(ubit_t *cB, ubit_t *iB)
}
}
+/*! \brief De-Interleave MCS1 DL burst bits according to TS 05.03 5.1.5.1.5
+ * \param[out] u caller-allocated output buffer for 12 soft coded bits
+ * \param[out] hc caller-allocated output buffer for 68 soft coded bits
+ * \param[out] dc caller-allocated output buffer for 372 soft coded bits
+ * \param[in] iB 452 interleaved soft input bits */
void gsm0503_mcs1_dl_deinterleave(sbit_t *u, sbit_t *hc,
sbit_t *dc, const sbit_t *iB)
{
@@ -106,6 +128,11 @@ void gsm0503_mcs1_dl_deinterleave(sbit_t *u, sbit_t *hc,
}
}
+/*! \brief Interleave MCS1 DL burst bits according to TS 05.03 5.1.5.1.5
+ * \param[in] up 12 input soft coded bits (usf)
+ * \param[in] hc 68 input soft coded bits (header)
+ * \param[in] dc 372 input soft bits (data)
+ * \param[out] iB 456 interleaved soft output bits */
void gsm0503_mcs1_dl_interleave(const ubit_t *up, const ubit_t *hc,
const ubit_t *dc, ubit_t *iB)
{
@@ -139,6 +166,10 @@ void gsm0503_mcs1_dl_interleave(const ubit_t *up, const ubit_t *hc,
gsm0503_xcch_interleave(cp, iB);
}
+/*! \brief Interleave MCS1 UL burst bits according to TS 05.03 5.1.5.2.4
+ * \param[out] hc caller-allocated output buffer for 80 soft coded header bits
+ * \param[out] dc caller-allocated output buffer for 372 soft coded data bits
+ * \param[in] iB 456 interleaved soft input bits */
void gsm0503_mcs1_ul_deinterleave(sbit_t *hc, sbit_t *dc, const sbit_t *iB)
{
int k;
@@ -169,6 +200,10 @@ void gsm0503_mcs1_ul_deinterleave(sbit_t *hc, sbit_t *dc, const sbit_t *iB)
}
}
+/*! \brief Interleave MCS1 DL burst bits according to TS 05.03 5.1.5.2.4
+ * \param[in] hc 80 input coded bits (header)
+ * \param[in] dc 372 input bits (data)
+ * \param[out] iB 456 interleaved output bits */
void gsm0503_mcs1_ul_interleave(const ubit_t *hc, const ubit_t *dc, ubit_t *iB)
{
int k;
@@ -199,6 +234,11 @@ void gsm0503_mcs1_ul_interleave(const ubit_t *hc, const ubit_t *dc, ubit_t *iB)
gsm0503_xcch_interleave(cp, iB);
}
+/*! \brief Interleave MCS5 UL burst bits according to TS 05.03 5.1.9.2.4
+ * \param[in] hc 136 soft coded header input bits
+ * \param[in] dc 1248 soft coded data input bits
+ * \param[out] hi 136 interleaved header output bits
+ * \param[out] di 1248 interleaved data output bits */
void gsm0503_mcs5_ul_interleave(const ubit_t *hc, const ubit_t *dc,
ubit_t *hi, ubit_t *di)
{
@@ -217,6 +257,10 @@ void gsm0503_mcs5_ul_interleave(const ubit_t *hc, const ubit_t *dc,
}
}
+/*! \brief De-Interleave MCS5 UL burst bits according to TS 05.03 5.1.9.2.4
+ * \param[out] hc caller-allocated output buffer for 136 soft coded header bits
+ * \param[out] dc caller-allocated output buffer for 1248 soft coded data bits
+ * \param[in] iB interleaved soft input bits */
void gsm0503_mcs5_ul_deinterleave(sbit_t *hc, sbit_t *dc,
const sbit_t *hi, const sbit_t *di)
{
@@ -239,6 +283,11 @@ void gsm0503_mcs5_ul_deinterleave(sbit_t *hc, sbit_t *dc,
}
}
+/*! \brief Interleave MCS5 DL burst bits according to TS 05.03 5.1.9.1.5
+ * \param[in] hc 100 soft coded header input bits
+ * \param[in] dc 1248 soft coded data input bits
+ * \param[out] hi 100 interleaved header output bits
+ * \param[out] di 1248 interleaved data output bits */
void gsm0503_mcs5_dl_interleave(const ubit_t *hc, const ubit_t *dc,
ubit_t *hi, ubit_t *di)
{
@@ -257,6 +306,10 @@ void gsm0503_mcs5_dl_interleave(const ubit_t *hc, const ubit_t *dc,
}
}
+/*! \brief De-Interleave MCS5 UL burst bits according to TS 05.03 5.1.9.1.5
+ * \param[out] hc caller-allocated output buffer for 100 soft coded header bits
+ * \param[out] dc caller-allocated output buffer for 1248 soft coded data bits
+ * \param[in] iB interleaved soft input bits */
void gsm0503_mcs5_dl_deinterleave(sbit_t *hc, sbit_t *dc,
const sbit_t *hi, const sbit_t *di)
{
@@ -279,6 +332,12 @@ void gsm0503_mcs5_dl_deinterleave(sbit_t *hc, sbit_t *dc,
}
}
+/*! \brief Interleave MCS7 DL burst bits according to TS 05.03 5.1.11.1.5
+ * \param[in] hc 124 soft coded header input bits
+ * \param[in] c1 612 soft coded data input bits
+ * \param[in] c2 612 soft coded data input bits
+ * \param[out] hi 124 interleaved header output bits
+ * \param[out] di 1224 interleaved data output bits */
void gsm0503_mcs7_dl_interleave(const ubit_t *hc, const ubit_t *c1,
const ubit_t *c2, ubit_t *hi, ubit_t *di)
{
@@ -302,7 +361,12 @@ void gsm0503_mcs7_dl_interleave(const ubit_t *hc, const ubit_t *c1,
}
}
-
+/*! \brief De-Interleave MCS7 DL burst bits according to TS 05.03 5.1.11.1.5
+ * \param[out] hc caller-allocated output buffer for 124 soft coded header bits
+ * \param[out] c1 caller-allocated output buffer for 612 soft coded data bits
+ * \param[out] c2 caller-allocated output buffer for 612 soft coded data bits
+ * \param[in] hi interleaved soft input header bits
+ * \param[in] di interleaved soft input data bits */
void gsm0503_mcs7_dl_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
const sbit_t *hi, const sbit_t *di)
{
@@ -330,6 +394,12 @@ void gsm0503_mcs7_dl_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
}
}
+/*! \brief Interleave MCS7 UL burst bits according to TS 05.03 5.1.11.2.4
+ * \param[in] hc 124 soft coded header input bits
+ * \param[in] c1 612 soft coded data input bits
+ * \param[in] c2 612 soft coded data input bits
+ * \param[out] hi 124 interleaved header output bits
+ * \param[out] di 1224 interleaved data output bits */
void gsm0503_mcs7_ul_interleave(const ubit_t *hc, const ubit_t *c1,
const ubit_t *c2, ubit_t *hi, ubit_t *di)
{
@@ -353,6 +423,12 @@ void gsm0503_mcs7_ul_interleave(const ubit_t *hc, const ubit_t *c1,
}
}
+/*! \brief De-Interleave MCS7 UL burst bits according to TS 05.03 5.1.11.2.4
+ * \param[out] hc caller-allocated output buffer for 160 soft coded header bits
+ * \param[out] c1 caller-allocated output buffer for 612 soft coded data bits
+ * \param[out] c2 caller-allocated output buffer for 612 soft coded data bits
+ * \param[in] hi interleaved soft input header bits
+ * \param[in] di interleaved soft input data bits */
void gsm0503_mcs7_ul_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
const sbit_t *hi, const sbit_t *di)
{
@@ -380,6 +456,12 @@ void gsm0503_mcs7_ul_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
}
}
+/*! \brief Interleave MCS8 UL burst bits according to TS 05.03 5.1.12.2.4
+ * \param[in] hc 160 soft coded header input bits
+ * \param[in] c1 612 soft coded data input bits
+ * \param[in] c2 612 soft coded data input bits
+ * \param[out] hi 160 interleaved header output bits
+ * \param[out] di 1224 interleaved data output bits */
void gsm0503_mcs8_ul_interleave(const ubit_t *hc, const ubit_t *c1,
const ubit_t *c2, ubit_t *hi, ubit_t *di)
{
@@ -403,6 +485,13 @@ void gsm0503_mcs8_ul_interleave(const ubit_t *hc, const ubit_t *c1,
}
}
+
+/*! \brief De-Interleave MCS8 UL burst bits according to TS 05.03 5.1.12.2.4
+ * \param[out] hc caller-allocated output buffer for 160 soft coded header bits
+ * \param[out] c1 caller-allocated output buffer for 612 soft coded data bits
+ * \param[out] c2 caller-allocated output buffer for 612 soft coded data bits
+ * \param[in] hi interleaved soft input header bits
+ * \param[in] di interleaved soft input data bits */
void gsm0503_mcs8_ul_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
const sbit_t *hi, const sbit_t *di)
{
@@ -430,6 +519,12 @@ void gsm0503_mcs8_ul_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
}
}
+/*! \brief Interleave MCS8 DL burst bits according to TS 05.03 5.1.12.1.5
+ * \param[in] hc 124 soft coded header input bits
+ * \param[in] c1 612 soft coded data input bits
+ * \param[in] c2 612 soft coded data input bits
+ * \param[out] hi 124 interleaved header output bits
+ * \param[out] di 1224 interleaved data output bits */
void gsm0503_mcs8_dl_interleave(const ubit_t *hc, const ubit_t *c1,
const ubit_t *c2, ubit_t *hi, ubit_t *di)
{
@@ -453,6 +548,12 @@ void gsm0503_mcs8_dl_interleave(const ubit_t *hc, const ubit_t *c1,
}
}
+/*! \brief De-Interleave MCS8 DL burst bits according to TS 05.03 5.1.12.1.5
+ * \param[out] hc caller-allocated output buffer for 124 soft coded header bits
+ * \param[out] c1 caller-allocated output buffer for 612 soft coded data bits
+ * \param[out] c2 caller-allocated output buffer for 612 soft coded data bits
+ * \param[in] hi interleaved soft input header bits
+ * \param[in] di interleaved soft input data bits */
void gsm0503_mcs8_dl_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
const sbit_t *hi, const sbit_t *di)
{
@@ -504,6 +605,9 @@ void gsm0503_mcs8_dl_deinterleave(sbit_t *hc, sbit_t *c1, sbit_t *c2,
* Where hl(B) and hn(B) are bits in burst B indicating flags.
*/
+/*! \brief GSM TCH FR/EFR/AFS De-Interleaving and burst mapping
+ * \param[out] cB caller-allocated buffer for 456 unpacked output bits
+ * \param[in] iB 456 unpacked interleaved input bits */
void gsm0503_tch_fr_deinterleave(sbit_t *cB, sbit_t *iB)
{
int j, k, B;
@@ -515,6 +619,9 @@ void gsm0503_tch_fr_deinterleave(sbit_t *cB, sbit_t *iB)
}
}
+/*! \brief GSM TCH FR/EFR/AFS Interleaving and burst mapping
+ * \param[in] cB caller-allocated buffer for 456 unpacked input bits
+ * \param[out] iB 456 unpacked interleaved output bits */
void gsm0503_tch_fr_interleave(ubit_t *cB, ubit_t *iB)
{
int j, k, B;
@@ -550,6 +657,9 @@ void gsm0503_tch_fr_interleave(ubit_t *cB, ubit_t *iB)
* Where hl(B) and hn(B) are bits in burst B indicating flags.
*/
+/*! \brief GSM TCH HR/AHS De-Interleaving and burst mapping
+ * \param[out] cB caller-allocated buffer for 228 unpacked output bits
+ * \param[in] iB 228 unpacked interleaved input bits */
void gsm0503_tch_hr_deinterleave(sbit_t *cB, sbit_t *iB)
{
int j, k, B;
@@ -561,6 +671,9 @@ void gsm0503_tch_hr_deinterleave(sbit_t *cB, sbit_t *iB)
}
}
+/*! \brief GSM TCH HR/AHS Interleaving and burst mapping
+ * \param[in] cB caller-allocated buffer for 228 unpacked input bits
+ * \param[out] iB 228 unpacked interleaved output bits */
void gsm0503_tch_hr_interleave(ubit_t *cB, ubit_t *iB)
{
int j, k, B;
@@ -571,3 +684,5 @@ void gsm0503_tch_hr_interleave(ubit_t *cB, ubit_t *iB)
iB[B * 114 + j] = cB[k];
}
}
+
+/*! @} */
diff --git a/src/coding/gsm0503_mapping.c b/src/coding/gsm0503_mapping.c
index 4dd3076b..82c049ce 100644
--- a/src/coding/gsm0503_mapping.c
+++ b/src/coding/gsm0503_mapping.c
@@ -25,6 +25,17 @@
#include <osmocom/core/bits.h>
#include <osmocom/coding/gsm0503_mapping.h>
+/*! \addtogroup mapping
+ * @{
+ *
+ * \brief GSM TS 05.03 burst mapping
+ *
+ * This module contains burst mapping routines as specified in 3GPP TS
+ * 05.03 / 45.003.
+ */
+
+/*! \file gsm0503_mapping.c */
+
void gsm0503_xcch_burst_unmap(sbit_t *iB, const sbit_t *eB,
sbit_t *hl, sbit_t *hn)
{
@@ -289,3 +300,5 @@ void gsm0503_mcs5_burst_swap(sbit_t *eB)
eB[191] = t[12];
eB[194] = t[13];
}
+
+/*! @} */
diff --git a/src/coding/gsm0503_parity.c b/src/coding/gsm0503_parity.c
index 99198ba8..171feb46 100644
--- a/src/coding/gsm0503_parity.c
+++ b/src/coding/gsm0503_parity.c
@@ -24,8 +24,18 @@
#include <osmocom/core/crcgen.h>
#include <osmocom/coding/gsm0503_parity.h>
-/*
- * GSM (SACCH) parity (FIRE code)
+/*! \addtogroup parity
+ * @{
+ *
+ * \brief GSM TS 05.03 parity
+ *
+ * This module contains parity/crc code definitions for the various
+ * parity/crc schemes as defined in 3GPP TS 05.03 / 45.003
+ */
+
+/*! \file gsm0503_parity.c */
+
+/*! \brief GSM (SACCH) parity (FIRE code)