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/*
* (C) 2012 by Harald Welte <laforge@gnumonks.org>
* All Rights Reserved
*
* 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 <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <osmocom/gsm/protocol/gsm_04_08.h>
#include <osmocom/gsm/gsm48_ie.h>
#include <osmocom/gsm/gsm48.h>
#include <osmocom/gsm/gsm48_arfcn_range_encode.h>
#include <osmocom/gsm/mncc.h>
#include <osmocom/core/backtrace.h>
#include <osmocom/core/utils.h>
#include <osmocom/core/msgb.h>
static const uint8_t csd_9600_v110_lv[] = { 0x07, 0xa1, 0xb8, 0x89, 0x21, 0x15, 0x63, 0x80 };
static const struct gsm_mncc_bearer_cap bcap_csd_9600_v110 = {
.transfer = GSM48_BCAP_ITCAP_UNR_DIG_INF,
.mode = GSM48_BCAP_TMOD_CIRCUIT,
.coding = GSM48_BCAP_CODING_GSM_STD,
.radio = GSM48_BCAP_RRQ_FR_ONLY,
.speech_ver[0]= -1,
.data = {
.rate_adaption = GSM48_BCAP_RA_V110_X30,
.sig_access = GSM48_BCAP_SA_I440_I450,
.async = 1,
.nr_stop_bits = 1,
.nr_data_bits = 8,
.user_rate = GSM48_BCAP_UR_9600,
.parity = GSM48_BCAP_PAR_NONE,
.interm_rate = GSM48_BCAP_IR_16k,
.transp = GSM48_BCAP_TR_TRANSP,
.modem_type = GSM48_BCAP_MT_NONE,
},
};
static const uint8_t speech_all_lv[] = { 0x06, 0x60, 0x04, 0x02, 0x00, 0x05, 0x81 };
static const struct gsm_mncc_bearer_cap bcap_speech_all = {
.transfer = GSM48_BCAP_ITCAP_SPEECH,
.mode = GSM48_BCAP_TMOD_CIRCUIT,
.coding = GSM48_BCAP_CODING_GSM_STD,
.radio = GSM48_BCAP_RRQ_DUAL_FR,
.speech_ver = {
4, 2, 0, 5, 1, -1,
},
};
struct bcap_test {
const uint8_t *lv;
const struct gsm_mncc_bearer_cap *bc;
const char *name;
};
static const struct bcap_test bcap_tests[] = {
{ csd_9600_v110_lv, &bcap_csd_9600_v110, "CSD 9600/V.110/transparent" },
{ speech_all_lv, &bcap_speech_all, "Speech, all codecs" },
};
static int test_bearer_cap()
{
struct gsm_mncc_bearer_cap bc;
int i, rc;
for (i = 0; i < ARRAY_SIZE(bcap_tests); i++) {
struct msgb *msg = msgb_alloc(100, "test");
int lv_len;
memset(&bc, 0, sizeof(bc));
/* test decoding */
rc = gsm48_decode_bearer_cap(&bc, bcap_tests[i].lv);
if (rc < 0) {
fprintf(stderr, "Error decoding %s\n",
bcap_tests[i].name);
return rc;
}
if (memcmp(&bc, bcap_tests[i].bc, sizeof(bc))) {
fprintf(stderr, "Incorrect decoded result of %s:\n",
bcap_tests[i].name);
fprintf(stderr, " should: %s\n",
osmo_hexdump((uint8_t *) bcap_tests[i].bc, sizeof(bc)));
fprintf(stderr, " is: %s\n",
osmo_hexdump((uint8_t *) &bc, sizeof(bc)));
return -1;
}
/* also test re-encode? */
rc = gsm48_encode_bearer_cap(msg, 1, &bc);
if (rc < 0) {
fprintf(stderr, "Error encoding %s\n",
bcap_tests[i].name);
return rc;
}
lv_len = bcap_tests[i].lv[0]+1;
if (memcmp(msg->data, bcap_tests[i].lv, lv_len)) {
fprintf(stderr, "Incorrect encoded result of %s:\n",
bcap_tests[i].name);
fprintf(stderr, " should: %s\n",
osmo_hexdump(bcap_tests[i].lv, lv_len));
fprintf(stderr, " is: %s\n",
osmo_hexdump(msg->data, msg->len));
return -1;
}
printf("Test `%s' passed\n", bcap_tests[i].name);
msgb_free(msg);
}
return 0;
}
static inline void dump_ra(const struct gprs_ra_id *raid)
{
printf("%s%s\n", osmo_rai_name(raid), raid->mnc_3_digits ? " (3-digit MNC)" : "");
}
static inline void check_ra(const struct gprs_ra_id *raid)
{
struct gsm48_ra_id ra;
struct gprs_ra_id raid0 = {
.mnc = 0,
.mcc = 0,
.lac = 0,
.rac = 0,
};
gsm48_encode_ra(&ra, raid);
printf("Constructed RA:\n");
gsm48_parse_ra(&raid0, (const uint8_t *)&ra);
dump_ra(raid);
printf("MCC+MNC in BCD: %s\n", osmo_hexdump(ra.digits, sizeof(ra.digits)));
dump_ra(&raid0);
printf("RA test...");
if (raid->mnc != raid0.mnc || raid->mcc != raid0.mcc || raid->lac != raid0.lac || raid->rac != raid0.rac
|| (raid->mnc_3_digits || raid->mnc > 99) != raid0.mnc_3_digits)
printf("FAIL\n");
else
printf("passed\n");
}
static inline void check_lai(const struct gprs_ra_id *raid)
{
int rc;
struct gsm48_loc_area_id lai = {};
struct gprs_ra_id decoded = {};
struct gprs_ra_id _laid = *raid;
struct gprs_ra_id *laid = &_laid;
laid->rac = 0;
printf("- gsm48_generate_lai() from "); dump_ra(laid);
gsm48_generate_lai(&lai, laid->mcc, laid->mnc, laid->lac);
printf(" Encoded %s\n", osmo_hexdump((unsigned char*)&lai, sizeof(lai)));
rc = gsm48_decode_lai(&lai, &decoded.mcc, &decoded.mnc, &decoded.lac);
if (rc) {
printf(" gsm48_decode_lai() returned %d --> FAIL\n", rc);
return;
}
printf(" gsm48_decode_lai() gives "); dump_ra(&decoded);
if (decoded.mcc == laid->mcc
&& decoded.mnc == laid->mnc
&& decoded.lac == laid->lac)
printf(" passed\n");
else
printf(" FAIL\n");
}
static inline void dump_lai(const struct osmo_location_area_id *lai)
{
printf("%s%s\n", osmo_lai_name(lai), lai->plmn.mnc_3_digits ? " (3-digit MNC)" : "");
}
static inline void check_lai2(const struct gprs_ra_id *raid)
{
struct gsm48_loc_area_id lai = {};
struct osmo_location_area_id decoded = {};
struct osmo_location_area_id laid = {
.plmn = {
.mcc = raid->mcc,
.mnc = raid->mnc,
.mnc_3_digits = raid->mnc_3_digits,
},
.lac = raid->lac,
};
printf("- gsm48_generate_lai2() from "); dump_lai(&laid);
gsm48_generate_lai2(&lai, &laid);
printf(" Encoded %s\n", osmo_hexdump((unsigned char*)&lai, sizeof(lai)));
gsm48_decode_lai2(&lai, &decoded);
printf(" gsm48_decode_lai2() gives "); dump_lai(&decoded);
if (decoded.plmn.mcc == laid.plmn.mcc
&& decoded.plmn.mnc == laid.plmn.mnc
&& decoded.lac == laid.lac
&& decoded.plmn.mnc_3_digits == (laid.plmn.mnc_3_digits || laid.plmn.mnc > 99))
printf(" passed\n");
else
printf(" FAIL\n");
}
static struct gprs_ra_id test_ra_cap_items[] = {
{
.mcc = 77,
.mnc = 121,
.lac = 666,
.rac = 5,
},
{
.mcc = 84,
.mnc = 98,
.lac = 11,
.rac = 89,
},
{
.mcc = 0,
.mnc = 0,
.lac = 0,
.rac = 0,
.mnc_3_digits = false,
/* expecting 000-00, BCD = 00 f0 00 */
},
{
.mcc = 0,
.mnc = 0,
.lac = 0,
.rac = 0,
.mnc_3_digits = true,
/* expecting 000-000, BCD = 00 00 00 */
},
{
.mcc = 999,
.mnc = 999,
.lac = 65535,
.rac = 255,
},
{
.mcc = 1,
.mnc = 2,
.lac = 23,
.rac = 42,
.mnc_3_digits = false,
/* expecting 001-02, BCD = 00 f1 20 */
},
{
.mcc = 1,
.mnc = 2,
.lac = 23,
.rac = 42,
.mnc_3_digits = true,
/* expecting 001-002, BCD = 00 21 00 */
},
{
.mcc = 12,
.mnc = 34,
.lac = 56,
.rac = 78,
.mnc_3_digits = false,
/* expecting 012-34, BCD = 10 f2 43 */
},
{
.mcc = 12,
.mnc = 34,
.lac = 23,
.rac = 42,
.mnc_3_digits = true,
/* expecting 012-034, BCD = 10 42 30 */
},
{
.mcc = 123,
.mnc = 456,
.lac = 23,
.rac = 42,
.mnc_3_digits = false,
/* expecting 123-456, BCD = 21 63 54 (false flag has no effect) */
},
{
.mcc = 123,
.mnc = 456,
.lac = 23,
.rac = 42,
.mnc_3_digits = true,
/* expecting 123-456, BCD = 21 63 54 (same) */
},
};
static void test_ra_cap(void)
{
int i;
for (i = 0; i < ARRAY_SIZE(test_ra_cap_items); i++)
check_ra(&test_ra_cap_items[i]);
}
static void test_lai_encode_decode(void)
{
int i;
for (i = 0; i < ARRAY_SIZE(test_ra_cap_items); i++) {
check_lai(&test_ra_cap_items[i]);
check_lai2(&test_ra_cap_items[i]);
}
}
static void test_mid_from_tmsi(void)
{
static const uint8_t res[] = { 0x17, 0x05, 0xf4, 0xaa, 0xbb, 0xcc, 0xdd };
uint32_t tmsi = 0xAABBCCDD;
uint8_t buf[3 + sizeof(uint32_t)];
printf("Simple TMSI encoding test....");
memset(&buf, 0xFE, sizeof(buf));
gsm48_generate_mid_from_tmsi(buf, tmsi);
OSMO_ASSERT(memcmp(buf, res, sizeof(res)) == 0);
printf("passed\n");
}
static void test_mid_from_imsi(void)
{
char *imsi = "901700000004620";
uint8_t buf[10], len;
printf("Simple IMSI encoding test....");
len = gsm48_generate_mid_from_imsi(buf, imsi);
printf("passed: [%u] %s\n", len, osmo_hexdump(buf, len));
}
struct test_mid_encode_decode_test {
uint8_t mi_type;
const char *mi_str;
const char *mi_name;
size_t str_size;
const char *expect_mi_tlv_hex;
const char *expect_str;
int expect_rc;
};
static const struct test_mid_encode_decode_test test_mid_encode_decode_tests[] = {
{
.mi_type = GSM_MI_TYPE_IMSI,
.mi_str = "123456789012345",
.mi_name = "IMSI-123456789012345",
.expect_mi_tlv_hex = "17081932547698103254",
},
{
.mi_type = GSM_MI_TYPE_IMSI,
.mi_str = "12345678901234",
.mi_name = "IMSI-12345678901234",
.expect_mi_tlv_hex = "170811325476981032f4",
},
{
.mi_type = GSM_MI_TYPE_IMSI,
.mi_str = "423423",
.mi_name = "IMSI-423423",
.expect_mi_tlv_hex = "1704413224f3",
},
{
.mi_type = GSM_MI_TYPE_IMSI | GSM_MI_ODD,
.mi_str = "423423",
.mi_name = "IMSI-423423",
.expect_mi_tlv_hex = "1704413224f3",
},
{
.mi_type = GSM_MI_TYPE_IMSI,
.mi_str = "4234235",
.mi_name = "IMSI-4234235",
.expect_mi_tlv_hex = "170449322453",
},
{
.mi_type = GSM_MI_TYPE_IMSI,
.mi_str = "4234235",
.mi_name = "IMSI-4234235",
.expect_mi_tlv_hex = "170449322453",
.str_size = 4,
.expect_str = "423",
},
{
.mi_type = GSM_MI_TYPE_IMEI,
.mi_str = "123456789012345",
.mi_name = "IMEI-123456789012345",
.expect_mi_tlv_hex = "17081a32547698103254",
},
{
.mi_type = GSM_MI_TYPE_IMEI,
.mi_str = "98765432109876",
.mi_name = "IMEI-98765432109876",
.expect_mi_tlv_hex = "170892785634129078f6",
},
{
.mi_type = GSM_MI_TYPE_IMEI,
.mi_str = "987654321098765",
.mi_name = "IMEI-987654321098765",
.expect_mi_tlv_hex = "17089a78563412907856",
},
{
.mi_type = GSM_MI_TYPE_IMEISV,
.mi_str = "987654321098765432",
.mi_name = "IMEI-SV-987654321098765432",
.expect_mi_tlv_hex = "170a937856341290785634f2",
},
{
.mi_type = GSM_MI_TYPE_IMEISV,
.mi_str = "987654321098765432",
.mi_name = "IMEI-SV-987654321098765432",
.expect_mi_tlv_hex = "170a937856341290785634f2",
.str_size = 16,
.expect_str = "987654321098765",
},
{
/* gsm48 treats TMSI as decimal string */
.mi_type = GSM_MI_TYPE_TMSI,
.mi_str = "305419896", /* 0x12345678 as decimal */
.mi_name = "TMSI-0x12345678",
.expect_mi_tlv_hex = "1705f412345678",
.expect_rc = 9, /* exception: gsm48_mi_to_string() for TMSI returns strlen(), not bytes! */
},
{
.mi_type = GSM_MI_TYPE_TMSI,
.mi_str = "12648430", /* 0xc0ffee as decimal */
.mi_name = "TMSI-0x00C0FFEE",
.expect_mi_tlv_hex = "1705f400c0ffee",
.expect_rc = 8, /* exception: gsm48_mi_to_string() for TMSI returns strlen(), not bytes! */
},
{
.mi_type = GSM_MI_TYPE_TMSI,
.mi_str = "0",
.mi_name = "TMSI-0x00000000",
.expect_mi_tlv_hex = "1705f400000000",
.expect_rc = 1, /* exception: gsm48_mi_to_string() for TMSI returns strlen(), not bytes! */
},
{
/* gsm48 treats TMSI as decimal string */
.mi_type = GSM_MI_TYPE_TMSI,
.mi_str = "305419896", /* 0x12345678 as decimal */
.mi_name = "TMSI-0x12345678",
.expect_mi_tlv_hex = "1705f412345678",
.str_size = 5,
.expect_str = "3054",
.expect_rc = 9, /* exception: gsm48_mi_to_string() for TMSI returns would-be strlen() like snprintf()! */
},
{
.mi_type = GSM_MI_TYPE_NONE,
.mi_str = "123",
.mi_name = "unknown",
.expect_mi_tlv_hex = "17021832", /* encoding invalid MI type */
.expect_str = "",
},
{
.mi_type = GSM_MI_TYPE_NONE,
.mi_str = "1234",
.mi_name = "unknown",
.expect_mi_tlv_hex = "17031032f4", /* encoding invalid MI type */
.expect_str = "",
},
{
.mi_type = GSM_MI_ODD,
.mi_str = "1234",
.mi_name = "unknown",
.expect_mi_tlv_hex = "17031032f4", /* encoding invalid MI type */
.expect_str = "",
},
};
static void test_mid_encode_decode(void)
{
int i;
printf("\nTesting Mobile Identity conversions\n");
for (i = 0; i < ARRAY_SIZE(test_mid_encode_decode_tests); i++) {
const struct test_mid_encode_decode_test *t = &test_mid_encode_decode_tests[i];
uint8_t tlv_buf[64];
uint8_t *mi_buf;
int tlv_len;
int mi_len;
const char *tlv_hex;
char str[64] = {};
size_t str_size = t->str_size ? : sizeof(str);
const char *expect_str = t->expect_str ? : t->mi_str;
int expect_rc = t->expect_rc ? : strlen(expect_str)+1;
int rc;
int str_len;
printf("- %s %s\n", gsm48_mi_type_name(t->mi_type), t->mi_str);
if (t->mi_type == GSM_MI_TYPE_TMSI)
tlv_len = gsm48_generate_mid_from_tmsi(tlv_buf, (uint32_t)atoll(t->mi_str));
else
tlv_len = gsm48_generate_mid(tlv_buf, t->mi_str, t->mi_type);
tlv_hex = osmo_hexdump_nospc(tlv_buf, tlv_len);
printf(" -> MI-TLV-hex='%s'\n", tlv_hex);
if (t->expect_mi_tlv_hex && strcmp(tlv_hex, t->expect_mi_tlv_hex)) {
printf(" ERROR: expected '%s'\n", t->expect_mi_tlv_hex);
}
/* skip the GSM48_IE_MOBILE_ID tag and length */
mi_buf = tlv_buf + 2;
mi_len = tlv_len - 2;
rc = gsm48_mi_to_string(str, str_size, mi_buf, mi_len);
printf(" -> MI-str=%s rc=%d\n", osmo_quote_str(str, -1), rc);
if (strcmp(str, expect_str))
printf(" ERROR: expected MI-str=%s\n", osmo_quote_str(expect_str, -1));
if (rc != expect_rc)
printf(" ERROR: expected rc=%d\n", expect_rc);
if (t->mi_name) {
const char *mi_name = osmo_mi_name(mi_buf, mi_len);
printf(" -> MI-name=%s\n", osmo_quote_str(mi_name, -1));
if (strcmp(mi_name, t->mi_name))
printf(" ERROR: expected MI-name=%s\n", osmo_quote_str(t->mi_name, -1));
}
/* Now make sure the resulting string is always '\0' terminated.
* The above started out with a zeroed buffer, now repeat with a tainted one. */
str_len = strlen(str);
str[str_len] = '!';
gsm48_mi_to_string(str, str_size, mi_buf, mi_len);
if (strlen(str) != str_len)
printf(" ERROR: resulting string is not explicitly nul terminated\n");
}
}
static const uint8_t test_mid_decode_zero_length_types[] = { GSM_MI_TYPE_IMSI, GSM_MI_TYPE_TMSI, GSM_MI_TYPE_NONE };
static void test_mid_decode_zero_length(void)
{
int odd;
uint8_t valid_mi[64];
int valid_mi_len;
printf("\nDecoding zero length Mobile Identities\n");
/* IMSI = 123456789012345 */
valid_mi_len = osmo_hexparse("1932547698103254", valid_mi, sizeof(valid_mi));
for (odd = 0; odd <= 1; odd++) {
int i;
for (i = 0; i < ARRAY_SIZE(test_mid_decode_zero_length_types); i++) {
uint8_t mi_type = test_mid_decode_zero_length_types[i] | (odd ? GSM_MI_ODD : 0);
char str[8] = {};
int rc;
printf("- MI type: %s%s\n", gsm48_mi_type_name(mi_type & GSM_MI_TYPE_MASK),
odd ? " | GSM_MI_ODD":"");
valid_mi[0] = (valid_mi[0] & 0xf0) | mi_type;
printf(" - writing to zero-length string:\n");
memset(str, '!', sizeof(str) - 1);
rc = gsm48_mi_to_string(str, 0, valid_mi, valid_mi_len);
printf(" rc=%d\n", rc);
if (str[0] == '!')
printf(" nothing written\n");
else
printf(" ERROR: Wrote to invalid memory!\n");
printf(" - writing to 1-byte-length string:\n");
memset(str, '!', sizeof(str) - 1);
rc = gsm48_mi_to_string(str, 1, valid_mi, valid_mi_len);
printf(" rc=%d\n", rc);
if (str[0] == '\0')
printf(" returned empty string\n");
else if (str[0] == '!')
printf(" ERROR: nothing written, expected nul-terminated empty string\n");
else
printf(" ERROR: Wrote unexpected string %s\n", osmo_quote_str(str, 5));
if (str[1] != '!')
printf(" ERROR: Wrote to invalid memory!\n");
printf(" - decode zero-length mi:\n");
memset(str, '!', sizeof(str) - 1);
rc = gsm48_mi_to_string(str, sizeof(str), valid_mi, 0);
printf(" rc=%d\n", rc);
if (str[0] == '\0')
printf(" returned empty string\n");
else if (str[0] == '!')
printf(" ERROR: nothing written, expected nul-terminated empty string\n");
else
printf(" ERROR: expected empty string, got output string: %s\n", osmo_quote_str(str, -1));
}
}
printf("\n");
}
struct {
int range;
int arfcns_num;
int arfcns[OSMO_GSM48_RANGE_ENC_MAX_ARFCNS];
} arfcn_test_ranges[] = {
{OSMO_GSM48_ARFCN_RANGE_512, 12,
{ 1, 12, 31, 51, 57, 91, 97, 98, 113, 117, 120, 125 }},
{OSMO_GSM48_ARFCN_RANGE_512, 17,
{ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17 }},
{OSMO_GSM48_ARFCN_RANGE_512, 18,
{ 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18 }},
{OSMO_GSM48_ARFCN_RANGE_512, 18,
{ 1, 17, 31, 45, 58, 79, 81, 97,
113, 127, 213, 277, 287, 311, 331, 391,
417, 511 }},
{OSMO_GSM48_ARFCN_RANGE_512, 6,
{ 1, 17, 31, 45, 58, 79 }},
{OSMO_GSM48_ARFCN_RANGE_512, 6,
{ 10, 17, 31, 45, 58, 79 }},
{OSMO_GSM48_ARFCN_RANGE_1024, 17,
{ 0, 17, 31, 45, 58, 79, 81, 97,
113, 127, 213, 277, 287, 311, 331, 391,
1023 }},
{OSMO_GSM48_ARFCN_RANGE_1024, 16,
{ 17, 31, 45, 58, 79, 81, 97, 113,
127, 213, 277, 287, 311, 331, 391, 1023 }},
{-1}
};
static int test_single_range_encoding(int range, const int *orig_arfcns, int arfcns_num, int silent)
{
int arfcns[OSMO_GSM48_RANGE_ENC_MAX_ARFCNS];
int w[OSMO_GSM48_RANGE_ENC_MAX_ARFCNS];
int f0_included = 0;
int rc, f0;
uint8_t chan_list[16] = {0};
struct gsm_sysinfo_freq dec_freq[1024] = {{0}};
int dec_arfcns[OSMO_GSM48_RANGE_ENC_MAX_ARFCNS] = {0};
int dec_arfcns_count = 0;
int arfcns_used = 0;
int i;
arfcns_used = arfcns_num;
memmove(arfcns, orig_arfcns, sizeof(arfcns));
f0 = range == OSMO_GSM48_ARFCN_RANGE_1024 ? 0 : arfcns[0];
/*
* Manipulate the ARFCN list according to the rules in J4 depending
* on the selected range.
*/
arfcns_used = osmo_gsm48_range_enc_filter_arfcns(arfcns, arfcns_used, f0, &f0_included);
memset(w, 0, sizeof(w));
osmo_gsm48_range_enc_arfcns(range, arfcns, arfcns_used, w, 0);
if (!silent)
printf("range=%d, arfcns_used=%d, f0=%d, f0_included=%d\n", range, arfcns_used, f0, f0_included);
/* Select the range and the amount of bits needed */
switch (range) {
case OSMO_GSM48_ARFCN_RANGE_128:
osmo_gsm48_range_enc_128(chan_list, f0, w);
break;
case OSMO_GSM48_ARFCN_RANGE_256:
osmo_gsm48_range_enc_256(chan_list, f0, w);
break;
case OSMO_GSM48_ARFCN_RANGE_512:
osmo_gsm48_range_enc_512(chan_list, f0, w);
break;
case OSMO_GSM48_ARFCN_RANGE_1024:
osmo_gsm48_range_enc_1024(chan_list, f0, f0_included, w);
break;
default:
return 1;
};
if (!silent)
printf("chan_list = %s\n",
osmo_hexdump(chan_list, sizeof(chan_list)));
rc = gsm48_decode_freq_list(dec_freq, chan_list, sizeof(chan_list),
0xfe, 1);
if (rc != 0) {
printf("Cannot decode freq list, rc = %d\n", rc);
return 1;
}
for (i = 0; i < ARRAY_SIZE(dec_freq); i++) {
if (dec_freq[i].mask &&
dec_arfcns_count < ARRAY_SIZE(dec_arfcns))
dec_arfcns[dec_arfcns_count++] = i;
}
if (!silent) {
printf("Decoded freqs %d (expected %d)\n",
dec_arfcns_count, arfcns_num);
printf("Decoded: ");
for (i = 0; i < dec_arfcns_count; i++) {
printf("%d ", dec_arfcns[i]);
if (dec_arfcns[i] != orig_arfcns[i])
printf("(!= %d) ", orig_arfcns[i]);
}
printf("\n");
}
if (dec_arfcns_count != arfcns_num) {
printf("Wrong number of arfcns\n");
return 1;
}
if (memcmp(dec_arfcns, orig_arfcns, sizeof(dec_arfcns)) != 0) {
printf("Decoding error, got wrong freqs\n");
printf(" w = ");
for (i = 0; i < ARRAY_SIZE(w); i++)
printf("%d ", w[i]);
printf("\n");
return 1;
}
return 0;
}
static void test_random_range_encoding(int range, int max_arfcn_num)
{
int arfcns_num = 0;
int test_idx;
int rc, max_count;
int num_tests = 1024;
printf("Random range test: range %d, max num ARFCNs %d\n",
range, max_arfcn_num);
srandom(1);
for (max_count = 1; max_count < max_arfcn_num; max_count++) {
for (test_idx = 0; test_idx < num_tests; test_idx++) {
int count;
int i;
int min_freq = 0;
int rnd_arfcns[OSMO_GSM48_RANGE_ENC_MAX_ARFCNS] = {0};
char rnd_arfcns_set[1024] = {0};
if (range < OSMO_GSM48_ARFCN_RANGE_1024)
min_freq = random() % (1023 - range);
for (count = max_count; count; ) {
int arfcn = min_freq + random() % (range + 1);
OSMO_ASSERT(arfcn < ARRAY_SIZE(rnd_arfcns_set));
if (!rnd_arfcns_set[arfcn]) {
rnd_arfcns_set[arfcn] = 1;
count -= 1;
}
}
arfcns_num = 0;
for (i = 0; i < ARRAY_SIZE(rnd_arfcns_set); i++)
if (rnd_arfcns_set[i])
rnd_arfcns[arfcns_num++] = i;
rc = test_single_range_encoding(range, rnd_arfcns,
arfcns_num, 1);
if (rc != 0) {
printf("Failed on test %d, range %d, num ARFCNs %d\n",
test_idx, range, max_count);
test_single_range_encoding(range, rnd_arfcns,
arfcns_num, 0);
return;
}
}
}
}
static void test_range_encoding()
{
int *arfcns;
int arfcns_num = 0;
int test_idx;
int range;
for (test_idx = 0; arfcn_test_ranges[test_idx].arfcns_num > 0; test_idx++)
{
arfcns_num = arfcn_test_ranges[test_idx].arfcns_num;
arfcns = &arfcn_test_ranges[test_idx].arfcns[0];
range = arfcn_test_ranges[test_idx].range;
printf("Range test %d: range %d, num ARFCNs %d\n",
test_idx, range, arfcns_num);
test_single_range_encoding(range, arfcns, arfcns_num, 0);
}
test_random_range_encoding(OSMO_GSM48_ARFCN_RANGE_128, 29);
test_random_range_encoding(OSMO_GSM48_ARFCN_RANGE_256, 22);
test_random_range_encoding(OSMO_GSM48_ARFCN_RANGE_512, 18);
test_random_range_encoding(OSMO_GSM48_ARFCN_RANGE_1024, 16);
}
static int freqs1[] = {
12, 70, 121, 190, 250, 320, 401, 475, 520, 574, 634, 700, 764, 830, 905, 980
};
static int freqs2[] = {
402, 460, 1, 67, 131, 197, 272, 347,
};
static int freqs3[] = {
68, 128, 198, 279, 353, 398, 452,
};
static int w_out[] = {
122, 2, 69, 204, 75, 66, 60, 70, 83, 3, 24, 67, 54, 64, 70, 9,
};
static int range128[] = {
1, 1 + 127,
};
static int range256[] = {
1, 1 + 128,
};
static int range512[] = {
1, 1+ 511,
};
#define VERIFY(res, cmp, wanted) \
if (!(res cmp wanted)) { \
printf("ASSERT failed: %s:%d Wanted: %d %s %d\n", \
__FILE__, __LINE__, (int) res, # cmp, (int) wanted); \
}
static void test_arfcn_filter()
{
int arfcns[50], i, res, f0_included;
for (i = 0; i < ARRAY_SIZE(arfcns); ++i)
arfcns[i] = (i + 1) * 2;
/* check that the arfcn is taken out. f0_included is only set for Range1024 */
f0_included = 24;
res = osmo_gsm48_range_enc_filter_arfcns(arfcns, ARRAY_SIZE(arfcns), arfcns[0], &f0_included);
VERIFY(res, ==, ARRAY_SIZE(arfcns) - 1);
VERIFY(f0_included, ==, 1);
for (i = 0; i < res; ++i)
VERIFY(arfcns[i], ==, ((i+2) * 2) - (2+1));
/* check with range1024, ARFCN 0 is included */
for (i = 0; i < ARRAY_SIZE(arfcns); ++i)
arfcns[i] = i * 2;
res = osmo_gsm48_range_enc_filter_arfcns(arfcns, ARRAY_SIZE(arfcns), 0, &f0_included);
VERIFY(res, ==, ARRAY_SIZE(arfcns) - 1);
VERIFY(f0_included, ==, 1);
for (i = 0; i < res; ++i)
VERIFY(arfcns[i], ==, (i + 1) * 2 - 1);
/* check with range1024, ARFCN 0 not included */
for (i = 0; i < ARRAY_SIZE(arfcns); ++i)
arfcns[i] = (i + 1) * 2;
res = osmo_gsm48_range_enc_filter_arfcns(arfcns, ARRAY_SIZE(arfcns), 0, &f0_included);
VERIFY(res, ==, ARRAY_SIZE(arfcns));
VERIFY(f0_included, ==, 0);
for (i = 0; i < res; ++i)
VERIFY(arfcns[i], ==, ((i + 1) * 2) - 1);
}
static void test_print_encoding()
{
int rc;
int w[17];
uint8_t chan_list[16];
memset(chan_list, 0x23, sizeof(chan_list));
for (rc = 0; rc < ARRAY_SIZE(w); ++rc)
switch (rc % 3) {
case 0:
w[rc] = 0xAAAA;
break;
case 1:
w[rc] = 0x5555;
break;
case 2:
w[rc] = 0x9696;
break;
}
osmo_gsm48_range_enc_512(chan_list, (1 << 9) | 0x96, w);
printf("Range512: %s\n", osmo_hexdump(chan_list, ARRAY_SIZE(chan_list)));
}
static void test_si_range_helpers()
{
int ws[(sizeof(freqs1)/sizeof(freqs1[0]))];
int i, f0 = 0xFFFFFF;
memset(&ws[0], 0x23, sizeof(ws));
i = osmo_gsm48_range_enc_find_index(1023, freqs1, ARRAY_SIZE(freqs1));
printf("Element is: %d => freqs[i] = %d\n", i, i >= 0 ? freqs1[i] : -1);
VERIFY(i, ==, 2);
i = osmo_gsm48_range_enc_find_index(511, freqs2, ARRAY_SIZE(freqs2));
printf("Element is: %d => freqs[i] = %d\n", i, i >= 0 ? freqs2[i] : -1);
VERIFY(i, ==, 2);
i = osmo_gsm48_range_enc_find_index(511, freqs3, ARRAY_SIZE(freqs3));
printf("Element is: %d => freqs[i] = %d\n", i, i >= 0 ? freqs3[i] : -1);
VERIFY(i, ==, 0);
osmo_gsm48_range_enc_arfcns(1023, freqs1, ARRAY_SIZE(freqs1), ws, 0);
for (i = 0; i < sizeof(freqs1)/sizeof(freqs1[0]); ++i) {
printf("w[%d]=%d\n", i, ws[i]);
VERIFY(ws[i], ==, w_out[i]);
}
i = osmo_gsm48_range_enc_determine_range(range128, ARRAY_SIZE(range128), &f0);
VERIFY(i, ==, OSMO_GSM48_ARFCN_RANGE_128);
VERIFY(f0, ==, 1);
i = osmo_gsm48_range_enc_determine_range(range256, ARRAY_SIZE(range256), &f0);
VERIFY(i, ==, OSMO_GSM48_ARFCN_RANGE_256);
VERIFY(f0, ==, 1);
i = osmo_gsm48_range_enc_determine_range(range512, ARRAY_SIZE(range512), &f0);
VERIFY(i, ==, OSMO_GSM48_ARFCN_RANGE_512);
VERIFY(f0, ==, 1);
}
int main(int argc, char **argv)
{
test_bearer_cap();
test_mid_from_tmsi();
test_mid_from_imsi();
test_mid_encode_decode();
test_mid_decode_zero_length();
test_ra_cap();
test_lai_encode_decode();
test_si_range_helpers();
test_arfcn_filter();
test_print_encoding();
test_range_encoding();
return EXIT_SUCCESS;
}
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