#include #include struct rlp_testcase { const char *name; const char *encoded_hex; struct osmo_rlp_frame_decoded decoded; }; const struct rlp_testcase testcases[] = { { .name = "XID1", .encoded_hex = "f95f1100213d313d414e6108510600000000000000000000000000c13c6b", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_U, .u_ftype = OSMO_RLP_U_FT_XID, .s_ftype = 0, .c_r = 1, .p_f = 1, .s_bits = 0, .n_s = 0, .n_r = 0, .fcs = 0x6b3cc1, .info = { 0x11, 0x00, 0x21, 0x3d, 0x31, 0x3d, 0x41, 0x4e, 0x61, 0x08, 0x51, 0x06, }, .info_len = 25, }, }, { .name = "XID2", .encoded_hex = "f95f1101213d313d41305106610774000008060000000000000000ba14a0", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_U, .u_ftype = OSMO_RLP_U_FT_XID, .s_ftype = 0, .c_r = 1, .p_f = 1, .s_bits = 0, .n_s = 0, .n_r = 0, .fcs = 0xa014ba, .info = { 0x11, 0x01, 0x21, 0x3d, 0x31, 0x3d, 0x41, 0x30, 0x51, 0x06, 0x61, 0x07, 0x74, 0x00, 0x00, 0x08, 0x06, }, .info_len = 25, }, }, { .name = "SABM", .encoded_hex = "f91f0000000000000000000000000000000000000000000000000063b2f3", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_U, .u_ftype = OSMO_RLP_U_FT_SABM, .s_ftype = 0, .c_r = 1, .p_f = 1, .s_bits = 0, .n_s = 0, .n_r = 0, .fcs = 0xf3b263, .info = {}, .info_len = 0, }, }, { .name = "UA", .encoded_hex = "f8330000000000000000000000000000000000000000000000000029d801", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_U, .u_ftype = OSMO_RLP_U_FT_UA, .s_ftype = 0, .c_r = 0, .p_f = 1, .s_bits = 0, .n_s = 0, .n_r = 0, .fcs = 0x01d829, .info = {}, .info_len = 0, }, }, { .name = "IS1", .encoded_hex = "01001f000000000000000000000000000000000000000000000000f174ad", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_IS, .u_ftype = 0, .s_ftype = 0, .c_r = 1, .p_f = 0, .s_bits = 0, .n_s = 0, .n_r = 0, .fcs = 0xad74f1, .info = { 0x1f, }, .info_len = 25, }, }, { .name = "IS2", .encoded_hex = "010401661fffffffffffffffffffffffffffffffffffffffffffff388cd3", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_IS, .u_ftype = 0, .s_ftype = 0, .c_r = 1, .p_f = 0, .s_bits = 0, .n_s = 0, .n_r = 1, .fcs = 0xd38c38, .info = { 0x01, 0x66, 0x1f, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff }, .info_len = 25, }, }, { .name = "DISC", .encoded_hex = "f923000000000000000000000000000000000000000000000000007986f2", .decoded = { .version = 0, .ftype = OSMO_RLP_FT_U, .u_ftype = OSMO_RLP_U_FT_DISC, .s_ftype = 0, .c_r = 1, .p_f = 1, .s_bits = 0, .n_s = 0, .n_r = 0, .fcs = 0xf28679, .info = { }, .info_len = 0, }, } }; static void rlp_frame_print_u(const struct osmo_rlp_frame_decoded *rf) { OSMO_ASSERT(rf->ftype == OSMO_RLP_FT_U); printf("C/R=%u P/F=%u U %s (FCS=0x%06x) %s\n", rf->c_r, rf->p_f, get_value_string(osmo_rlp_ftype_u_vals, rf->u_ftype), rf->fcs, rf->u_ftype == OSMO_RLP_U_FT_XID ? osmo_hexdump_nospc(rf->info, rf->info_len) : ""); } static void rlp_frame_print_s(const struct osmo_rlp_frame_decoded *rf) { OSMO_ASSERT(rf->ftype == OSMO_RLP_FT_S); printf("C/R=%u P/F=%u S N(R)=%u %s (FCS=0x%06x)\n", rf->c_r, rf->p_f, rf->n_r, get_value_string(osmo_rlp_ftype_s_vals, rf->s_ftype), rf->fcs); } static void rlp_frame_print_is(const struct osmo_rlp_frame_decoded *rf) { OSMO_ASSERT(rf->ftype == OSMO_RLP_FT_IS); printf("C/R=%u P/F=%u IS N(R)=%u N(S)=%u %s (FCS=0x%06x) %s\n", rf->c_r, rf->p_f, rf->n_r, rf->n_s, get_value_string(osmo_rlp_ftype_s_vals, rf->s_ftype), rf->fcs, osmo_hexdump_nospc(rf->info, rf->info_len)); } static void rlp_frame_print(const struct osmo_rlp_frame_decoded *rf) { switch (rf->ftype) { case OSMO_RLP_FT_U: rlp_frame_print_u(rf); break; case OSMO_RLP_FT_S: rlp_frame_print_s(rf); break; case OSMO_RLP_FT_IS: rlp_frame_print_is(rf); break; default: OSMO_ASSERT(0); } } static void execute_rlp_test(const struct rlp_testcase *tc) { struct osmo_rlp_frame_decoded decoded; uint8_t inbuf[240/8]; int rc; printf("=== STARTING TESTCASE '%s'\n", tc->name); rc = osmo_hexparse(tc->encoded_hex, inbuf, sizeof(inbuf)); OSMO_ASSERT(rc == 240/8); printf("Decoding %s:\n", tc->encoded_hex); rc = osmo_rlp_decode(&decoded, 0, inbuf, rc); OSMO_ASSERT(rc == 0); printf("Comparing...\n"); rlp_frame_print(&decoded); if (memcmp(&decoded, &tc->decoded, sizeof(decoded))) { printf("DOESN'T MATCH EXPECTED DECODE:\n"); rlp_frame_print(&tc->decoded); } printf("Reencoding...\n"); uint8_t reencoded[240/8]; rc = osmo_rlp_encode(reencoded, sizeof(reencoded), &tc->decoded); OSMO_ASSERT(rc == 240/8); if (memcmp(inbuf, reencoded, sizeof(inbuf))) printf("DOESN'T MATCH EXPECTED ENCODE FROM ABOVE\n"); } int main(int argc, char **argv) { for (unsigned int i = 0; i < ARRAY_SIZE(testcases); i++) { const struct rlp_testcase *tc = &testcases[i]; execute_rlp_test(tc); } }