/* Test SLHC/RFC1144 TCP/IP Header compression/decompression */ /* (C) 2016 by sysmocom s.f.m.c. GmbH * All Rights Reserved * * Author: Philipp Maier * * This program 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. * * 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 Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include #include #include #include #include #include #include #include /* Number of compression slots (S0-1) */ #define SLOTS 8 /* Maximum packet bytes to display */ #define DISP_MAX_BYTES 100 /* Sample packets to test with */ #define PACKETS_LEN 15 char *packets[] = { /* With TCP Option 10 (Timestamps) in place (forces UNCOMPRESSED_TCP) */ "4510004046dd40004006a9a7c0a8646ec0a864640017ad8b81980100f3ac984d801800e32a1600000101080a000647de06d1bf5efffd18fffd20fffd23fffd27", "4510005b46de40004006a98bc0a8646ec0a864640017ad8b8198010cf3ac984d801800e3867500000101080a000647df06d1bf61fffb03fffd1ffffd21fffe22fffb05fffa2001fff0fffa2301fff0fffa2701fff0fffa1801fff0", "4510003746df40004006a9aec0a8646ec0a864640017ad8b81980133f3ac989f801800e35fd700000101080a000647e106d1bf63fffd01", "4510003746e040004006a9adc0a8646ec0a864640017ad8b81980136f3ac98a2801800e35fd200000101080a000647e106d1bf64fffb01", "4510007446e140004006a96fc0a8646ec0a864640017ad8b81980139f3ac98a5801800e37b9b00000101080a000647e206d1bf640d0a2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d0d0a57656c6c636f6d6520746f20706f6c6c75780d0a2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d0d0a0d0a", "4510004246e240004006a9a0c0a8646ec0a864640017ad8b81980179f3ac98a5801800e3dab000000101080a000647ec06d1bf6f706f6c6c7578206c6f67696e3a20", /* Regular TCP packets (COMPRESSED_TCP) */ "4510003446dd40004006a9b3c0a8646ec0a864640017ad8b81980100f3ac984d501800e371410000fffd18fffd20fffd23fffd27", "4510004f46de40004006a997c0a8646ec0a864640017ad8b8198010cf3ac984d501800e3cda40000fffb03fffd1ffffd21fffe22fffb05fffa2001fff0fffa2301fff0fffa2701fff0fffa1801fff0", "4510002b46df40004006a9bac0a8646ec0a864640017ad8b81980133f3ac989f501800e3a70a0000fffd01", "4510002b46e040004006a9b9c0a8646ec0a864640017ad8b81980136f3ac98a2501800e3a7060000fffb01", "4510006846e140004006a97bc0a8646ec0a864640017ad8b81980139f3ac98a5501800e3c2d000000d0a2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d0d0a57656c6c636f6d6520746f20706f6c6c75780d0a2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d2d0d0a0d0a", "4510003646e240004006a9acc0a8646ec0a864640017ad8b81980179f3ac98a5501800e321fb0000706f6c6c7578206c6f67696e3a20", /* UDP packets (TYPE_IP */ "450000396e0b40004011a0310a0901650a09170105da003500255489a60f01000001000000000000076f736d6f636f6d036f72670000010001", "450000dc9eeb00004011aeae0a0917010a090165003505da00c83fbaa60f81800001000100030004076f736d6f636f6d036f72670000010001c00c00010001000079be0004904c2b4cc00c000200010000173d00130773756e6265616d08676e756d6f6e6b73c014c00c000200010000173d000603646e73c041c00c000200010000173d000a0767616e65736861c041c058000100010000173d0004d55f2e45c058001c00010000173d0010200107800045f0460000000000690001c06a0001000100006a710004d55f1b78c039000100010000173d000453ecb2cb", "45000037652340004011a91b0a0901650a091701ef1b0035002376a2c3910100000100000000000006676f6f676c650264650000010001", "0050b6162c10000db93a3ff908004500004726a6000038114083080808080a0901650035ef1b00338a8cc3918180000100010000000006676f6f676c650264650000010001c00c000100010000012b0004d83ad503", }; /* Compress a packet using Van Jacobson RFC1144 header compression */ static int compress(uint8_t *data_o, uint8_t *data_i, int len, struct slcompress *comp) { uint8_t *comp_ptr; /* Not used */ int compr_len; /* Create a working copy of the incoming data */ memcpy(data_o, data_i, len); /* Run compressor */ compr_len = slhc_compress(comp, data_i, len, data_o, &comp_ptr, 0); return compr_len; } /* Expand a packet using Van Jacobson RFC1144 header compression */ static int expand(uint8_t *data_o, uint8_t *data_i, int len, struct slcompress *comp) { int data_decompressed_len; /* Create a working copy of the incoming data */ memcpy(data_o, data_i, len); /* Handle an uncompressed packet (learn header information */ if ((data_i[0] & SL_TYPE_UNCOMPRESSED_TCP) == SL_TYPE_UNCOMPRESSED_TCP) { data_o[0] &= 0x4F; data_decompressed_len = slhc_remember(comp, data_o, len); return data_decompressed_len; } /* Uncompress compressed packets */ else if (data_o[0] & SL_TYPE_COMPRESSED_TCP) { data_decompressed_len = slhc_uncompress(comp, data_o, len); return data_decompressed_len; } /* Regular or unknown packets will not be touched */ return len; } /* Calculate IP Header checksum */ static uint16_t calc_ip_csum(uint8_t *data, int len) { int i; uint32_t accumulator = 0; uint16_t *pointer = (uint16_t *) data; for (i = len; i > 1; i -= 2) { accumulator += *pointer; pointer++; } if (len % 2) accumulator += *pointer; accumulator = (accumulator & 0xffff) + ((accumulator >> 16) & 0xffff); accumulator += (accumulator >> 16) & 0xffff; return (~accumulator); } /* Calculate TCP/IP checksum */ static uint16_t calc_tcpip_csum(const void *ctx, uint8_t *packet, int len) { uint8_t *buf; uint16_t csum; buf = talloc_zero_size(ctx, len); memset(buf, 0, len); memcpy(buf, packet + 12, 8); buf[9] = packet[9]; buf[11] = (len - 20) & 0xFF; buf[10] = (len - 20) >> 8 & 0xFF; memcpy(buf + 12, packet + 20, len - 20); csum = calc_ip_csum(buf, len - 20 + 12); talloc_free(buf); return csum; } /* Check TCP/IP packet */ static void check_packet(const void *ctx, uint8_t *packet, int len) { /* Check IP header */ OSMO_ASSERT(len > 20); OSMO_ASSERT(calc_ip_csum(packet, 20) == 0); printf("packet[9]=%02x\n", packet[9]); /* Check TCP packet */ if (packet[9] != 0x06) return; OSMO_ASSERT(len > 40); OSMO_ASSERT(calc_tcpip_csum(ctx, packet, len) == 0); } /* Compress / Decompress packets */ static void test_slhc(const void *ctx) { char packet_ascii[2048]; int i; struct slcompress *comp; uint8_t packet[1024]; int packet_len; uint8_t packet_compr[1024]; int packet_compr_len; uint8_t packet_decompr[1024]; int packet_decompr_len; printf("Allocating compression state...\n"); comp = slhc_init(ctx, SLOTS, SLOTS); OSMO_ASSERT(comp); for (i = 0; i < PACKETS_LEN; i++) { printf("Testing with packet No. %d\n", i); /* Read input file */ memset(packet_ascii, 0, sizeof(packet_ascii)); memset(packet, 0, sizeof(packet)); memset(packet_compr, 0, sizeof(packet_compr)); memset(packet_decompr, 0, sizeof(packet_decompr)); OSMO_ASSERT(strlen(packets[i]) < sizeof(packet_ascii)); strcpy(packet_ascii, packets[i]); packet_len = osmo_hexparse(packet_ascii, packet, sizeof(packet)); check_packet(ctx, packet, packet_len); /* Run compression/decompression algorithm */ printf("Compressing...\n"); packet_compr_len = compress(packet_compr, packet, packet_len, comp); printf("Decompressing...\n"); packet_decompr_len = expand(packet_decompr, packet_compr, packet_compr_len, comp); OSMO_ASSERT(packet_decompr_len == packet_len); check_packet(ctx, packet_decompr, packet_decompr_len); /* Display results */ printf("Results:\n"); if (packet_compr_len > DISP_MAX_BYTES) packet_compr_len = DISP_MAX_BYTES; if (packet_len > DISP_MAX_BYTES) packet_len = DISP_MAX_BYTES; if (packet_decompr_len > DISP_MAX_BYTES) packet_decompr_len = DISP_MAX_BYTES; printf("Original Packet: (%d bytes) %s\n", packet_len, osmo_hexdump_nospc(packet, packet_len)); printf("DecompressedPacket: (%d bytes) %s\n", packet_decompr_len, osmo_hexdump_nospc(packet_decompr, packet_decompr_len)); printf("CompressedPacket: (%d bytes) %s\n", packet_compr_len, osmo_hexdump_nospc(packet_compr, packet_compr_len)); slhc_o_status(comp); slhc_o_status(comp); printf("\n"); } printf("Freeing compression state...\n"); slhc_free(comp); printf("\n"); } static struct log_info_cat gprs_categories[] = { [DSNDCP] = { .name = "DSNDCP", .description = "GPRS Sub-Network Dependent Control Protocol (SNDCP)", .enabled = 1,.loglevel = LOGL_DEBUG, }, [DSLHC] = { .name = "DSLHC", .description = "Van Jacobson RFC1144 TCP/IP header compression (SLHC)", .enabled = 1,.loglevel = LOGL_DEBUG, } }; static struct log_info info = { .cat = gprs_categories, .num_cat = ARRAY_SIZE(gprs_categories), }; int main(int argc, char **argv) { void *ctx; void *log_ctx; ctx = talloc_named_const(NULL, 0, "slhc_ctx"); log_ctx = talloc_named_const(ctx, 0, "log"); osmo_init_logging2(log_ctx, &info); test_slhc(ctx); printf("Done\n"); talloc_report_full(ctx, stderr); talloc_free(log_ctx); OSMO_ASSERT(talloc_total_blocks(ctx) == 1); talloc_free(ctx); return 0; } /* stubs */ struct osmo_prim_hdr; int bssgp_prim_cb(struct osmo_prim_hdr *oph, void *ctx) { abort(); }