1e25b118aSDominic Spill /* -*- c -*- */ 2e25b118aSDominic Spill /* 3e25b118aSDominic Spill * Copyright 2007 - 2013 Dominic Spill, Michael Ossmann, Will Code 4e25b118aSDominic Spill * 5e25b118aSDominic Spill * This file is part of libbtbb 6e25b118aSDominic Spill * 7e25b118aSDominic Spill * This program is free software; you can redistribute it and/or modify 8e25b118aSDominic Spill * it under the terms of the GNU General Public License as published by 9e25b118aSDominic Spill * the Free Software Foundation; either version 2, or (at your option) 10e25b118aSDominic Spill * any later version. 11e25b118aSDominic Spill * 12e25b118aSDominic Spill * This program is distributed in the hope that it will be useful, 13e25b118aSDominic Spill * but WITHOUT ANY WARRANTY; without even the implied warranty of 14e25b118aSDominic Spill * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 15e25b118aSDominic Spill * GNU General Public License for more details. 16e25b118aSDominic Spill * 17e25b118aSDominic Spill * You should have received a copy of the GNU General Public License 18e25b118aSDominic Spill * along with libbtbb; see the file COPYING. If not, write to 19e25b118aSDominic Spill * the Free Software Foundation, Inc., 51 Franklin Street, 20e25b118aSDominic Spill * Boston, MA 02110-1301, USA. 21e25b118aSDominic Spill */ 22e25b118aSDominic Spill 23e25b118aSDominic Spill #include "bluetooth_packet.h" 24e25b118aSDominic Spill #include "bluetooth_piconet.h" 25e25b118aSDominic Spill #include "uthash.h" 26e25b118aSDominic Spill #include <stdlib.h> 27e25b118aSDominic Spill #include <stdio.h> 28e25b118aSDominic Spill 29e25b118aSDominic Spill int perm_table_initialized = 0; 30e25b118aSDominic Spill char perm_table[0x20][0x20][0x200]; 31e25b118aSDominic Spill 32e25b118aSDominic Spill btbb_piconet * 33e25b118aSDominic Spill btbb_piconet_new(void) 34e25b118aSDominic Spill { 35e25b118aSDominic Spill btbb_piconet *pn = (btbb_piconet *)calloc(1, sizeof(btbb_piconet)); 36e25b118aSDominic Spill pn->refcount = 1; 37e25b118aSDominic Spill return pn; 38e25b118aSDominic Spill } 39e25b118aSDominic Spill 40e25b118aSDominic Spill void 41e25b118aSDominic Spill btbb_piconet_ref(btbb_piconet *pn) 42e25b118aSDominic Spill { 43e25b118aSDominic Spill pn->refcount++; 44e25b118aSDominic Spill } 45e25b118aSDominic Spill 46e25b118aSDominic Spill void 47e25b118aSDominic Spill btbb_piconet_unref(btbb_piconet *pn) 48e25b118aSDominic Spill { 49e25b118aSDominic Spill pn->refcount--; 50e25b118aSDominic Spill if (pn->refcount == 0) 51e25b118aSDominic Spill free(pn); 52e25b118aSDominic Spill } 53e25b118aSDominic Spill 54e25b118aSDominic Spill void btbb_init_piconet(btbb_piconet *pn, uint32_t lap) 55e25b118aSDominic Spill { 56e25b118aSDominic Spill pn->LAP = lap; 57e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_LAP_VALID, 1); 58e25b118aSDominic Spill } 59e25b118aSDominic Spill 60e25b118aSDominic Spill void btbb_piconet_set_flag(btbb_piconet *pn, int flag, int val) 61e25b118aSDominic Spill { 62e25b118aSDominic Spill uint32_t mask = 1L << flag; 63e25b118aSDominic Spill pn->flags &= ~mask; 64e25b118aSDominic Spill if (val) 65e25b118aSDominic Spill pn->flags |= mask; 66e25b118aSDominic Spill } 67e25b118aSDominic Spill 68e25b118aSDominic Spill int btbb_piconet_get_flag(btbb_piconet *pn, int flag) 69e25b118aSDominic Spill { 70e25b118aSDominic Spill uint32_t mask = 1L << flag; 71e25b118aSDominic Spill return ((pn->flags & mask) != 0); 72e25b118aSDominic Spill } 73e25b118aSDominic Spill 74e25b118aSDominic Spill void btbb_piconet_set_uap(btbb_piconet *pn, uint8_t uap) 75e25b118aSDominic Spill { 76e25b118aSDominic Spill pn->UAP = uap; 77e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_UAP_VALID, 1); 78e25b118aSDominic Spill } 79e25b118aSDominic Spill 80e25b118aSDominic Spill uint8_t btbb_piconet_get_uap(btbb_piconet *pn) 81e25b118aSDominic Spill { 82e25b118aSDominic Spill return pn->UAP; 83e25b118aSDominic Spill } 84e25b118aSDominic Spill 85e25b118aSDominic Spill uint32_t btbb_piconet_get_lap(btbb_piconet *pn) 86e25b118aSDominic Spill { 87e25b118aSDominic Spill return pn->LAP; 88e25b118aSDominic Spill } 89e25b118aSDominic Spill 90e25b118aSDominic Spill uint16_t btbb_piconet_get_nap(btbb_piconet *pn) 91e25b118aSDominic Spill { 92e25b118aSDominic Spill return pn->NAP; 93e25b118aSDominic Spill } 94e25b118aSDominic Spill 95e25b118aSDominic Spill int btbb_piconet_get_clk_offset(btbb_piconet *pn) 96e25b118aSDominic Spill { 97e25b118aSDominic Spill return pn->clk_offset; 98e25b118aSDominic Spill } 99e25b118aSDominic Spill 100e25b118aSDominic Spill void btbb_piconet_set_clk_offset(btbb_piconet *pn, int clk_offset) 101e25b118aSDominic Spill { 102e25b118aSDominic Spill pn->clk_offset = clk_offset; 103e25b118aSDominic Spill } 104e25b118aSDominic Spill 105e25b118aSDominic Spill void btbb_piconet_set_afh_map(btbb_piconet *pn, uint8_t *afh_map) { 106e25b118aSDominic Spill int i; 107e25b118aSDominic Spill // DGS: Unroll this? 108e25b118aSDominic Spill for(i=0; i<10; i++) 109e25b118aSDominic Spill pn->afh_map[i] = afh_map[i]; 110e25b118aSDominic Spill } 111e25b118aSDominic Spill 112e25b118aSDominic Spill uint8_t *btbb_piconet_get_afh_map(btbb_piconet *pn) { 113e25b118aSDominic Spill return pn->afh_map; 114e25b118aSDominic Spill } 115e25b118aSDominic Spill 116e25b118aSDominic Spill void btbb_piconet_set_channel_seen(btbb_piconet *pn, uint8_t channel) 117e25b118aSDominic Spill { 118e25b118aSDominic Spill pn->afh_map[channel/8] |= 0x1 << (channel % 8); 119e25b118aSDominic Spill } 120e25b118aSDominic Spill 121e25b118aSDominic Spill /* do all the precalculation that can be done before knowing the address */ 122e25b118aSDominic Spill void precalc(btbb_piconet *pn) 123e25b118aSDominic Spill { 124e25b118aSDominic Spill int i; 125e25b118aSDominic Spill 126e25b118aSDominic Spill /* populate frequency register bank*/ 127e25b118aSDominic Spill for (i = 0; i < BT_NUM_CHANNELS; i++) 128e25b118aSDominic Spill pn->bank[i] = ((i * 2) % BT_NUM_CHANNELS); 129e25b118aSDominic Spill /* actual frequency is 2402 + pn->bank[i] MHz */ 130e25b118aSDominic Spill 131e25b118aSDominic Spill } 132e25b118aSDominic Spill 133e25b118aSDominic Spill /* do precalculation that requires the address */ 134e25b118aSDominic Spill void address_precalc(int address, btbb_piconet *pn) 135e25b118aSDominic Spill { 136e25b118aSDominic Spill /* precalculate some of single_hop()/gen_hop()'s variables */ 137e25b118aSDominic Spill pn->a1 = (address >> 23) & 0x1f; 138e25b118aSDominic Spill pn->b = (address >> 19) & 0x0f; 139e25b118aSDominic Spill pn->c1 = ((address >> 4) & 0x10) + 140e25b118aSDominic Spill ((address >> 3) & 0x08) + 141e25b118aSDominic Spill ((address >> 2) & 0x04) + 142e25b118aSDominic Spill ((address >> 1) & 0x02) + 143e25b118aSDominic Spill (address & 0x01); 144e25b118aSDominic Spill pn->d1 = (address >> 10) & 0x1ff; 145e25b118aSDominic Spill pn->e = ((address >> 7) & 0x40) + 146e25b118aSDominic Spill ((address >> 6) & 0x20) + 147e25b118aSDominic Spill ((address >> 5) & 0x10) + 148e25b118aSDominic Spill ((address >> 4) & 0x08) + 149e25b118aSDominic Spill ((address >> 3) & 0x04) + 150e25b118aSDominic Spill ((address >> 2) & 0x02) + 151e25b118aSDominic Spill ((address >> 1) & 0x01); 152e25b118aSDominic Spill } 153e25b118aSDominic Spill 154e25b118aSDominic Spill #ifdef WC4 155e25b118aSDominic Spill /* These are optimization experiments, which don't help much for 156e25b118aSDominic Spill * x86. Hold on to them to see whether they're useful on ARM. */ 157e25b118aSDominic Spill 158e25b118aSDominic Spill #ifdef NEVER 159e25b118aSDominic Spill #define BUTTERFLY(z,p,c,a,b) \ 160e25b118aSDominic Spill if ( ((p&(1<<c))!=0) & (((z&(1<<a))!=0) ^ ((z&(1<<b))!=0)) ) \ 161e25b118aSDominic Spill z ^= ((1<<a)|(1<<b)) 162e25b118aSDominic Spill #endif 163e25b118aSDominic Spill 164e25b118aSDominic Spill #define BUTTERFLY(z,p,c,a,b) \ 165e25b118aSDominic Spill if ( (((z>>a)^(z>>b)) & (p>>c)) & 0x1 ) \ 166e25b118aSDominic Spill z ^= ((1<<a)|(1<<b)) 167e25b118aSDominic Spill 168e25b118aSDominic Spill int perm5(int z, int p_high, int p_low) 169e25b118aSDominic Spill { 170e25b118aSDominic Spill int p = (p_high << 5) | p_low; 171e25b118aSDominic Spill BUTTERFLY(z,p,13,1,2); 172e25b118aSDominic Spill BUTTERFLY(z,p,12,0,3); 173e25b118aSDominic Spill BUTTERFLY(z,p,11,1,3); 174e25b118aSDominic Spill BUTTERFLY(z,p,10,2,4); 175e25b118aSDominic Spill BUTTERFLY(z,p, 9,0,3); 176e25b118aSDominic Spill BUTTERFLY(z,p, 8,1,4); 177e25b118aSDominic Spill BUTTERFLY(z,p, 7,3,4); 178e25b118aSDominic Spill BUTTERFLY(z,p, 6,0,2); 179e25b118aSDominic Spill BUTTERFLY(z,p, 5,1,3); 180e25b118aSDominic Spill BUTTERFLY(z,p, 4,0,4); 181e25b118aSDominic Spill BUTTERFLY(z,p, 3,3,4); 182e25b118aSDominic Spill BUTTERFLY(z,p, 2,1,2); 183e25b118aSDominic Spill BUTTERFLY(z,p, 1,2,3); 184e25b118aSDominic Spill BUTTERFLY(z,p, 0,0,1); 185e25b118aSDominic Spill 186e25b118aSDominic Spill return z; 187e25b118aSDominic Spill } 188e25b118aSDominic Spill #endif // WC4 189e25b118aSDominic Spill 190e25b118aSDominic Spill /* 5 bit permutation */ 191e25b118aSDominic Spill /* assumes z is constrained to 5 bits, p_high to 5 bits, p_low to 9 bits */ 192e25b118aSDominic Spill int perm5(int z, int p_high, int p_low) 193e25b118aSDominic Spill { 194e25b118aSDominic Spill int i, tmp, output, z_bit[5], p[14]; 195e25b118aSDominic Spill int index1[] = {0, 2, 1, 3, 0, 1, 0, 3, 1, 0, 2, 1, 0, 1}; 196e25b118aSDominic Spill int index2[] = {1, 3, 2, 4, 4, 3, 2, 4, 4, 3, 4, 3, 3, 2}; 197e25b118aSDominic Spill 198e25b118aSDominic Spill /* bits of p_low and p_high are control signals */ 199e25b118aSDominic Spill for (i = 0; i < 9; i++) 200e25b118aSDominic Spill p[i] = (p_low >> i) & 0x01; 201e25b118aSDominic Spill for (i = 0; i < 5; i++) 202e25b118aSDominic Spill p[i+9] = (p_high >> i) & 0x01; 203e25b118aSDominic Spill 204e25b118aSDominic Spill /* bit swapping will be easier with an array of bits */ 205e25b118aSDominic Spill for (i = 0; i < 5; i++) 206e25b118aSDominic Spill z_bit[i] = (z >> i) & 0x01; 207e25b118aSDominic Spill 208e25b118aSDominic Spill /* butterfly operations */ 209e25b118aSDominic Spill for (i = 13; i >= 0; i--) { 210e25b118aSDominic Spill /* swap bits according to index arrays if control signal tells us to */ 211e25b118aSDominic Spill if (p[i]) { 212e25b118aSDominic Spill tmp = z_bit[index1[i]]; 213e25b118aSDominic Spill z_bit[index1[i]] = z_bit[index2[i]]; 214e25b118aSDominic Spill z_bit[index2[i]] = tmp; 215e25b118aSDominic Spill } 216e25b118aSDominic Spill } 217e25b118aSDominic Spill 218e25b118aSDominic Spill /* reconstruct output from rearranged bits */ 219e25b118aSDominic Spill output = 0; 220e25b118aSDominic Spill for (i = 0; i < 5; i++) 221e25b118aSDominic Spill output += z_bit[i] << i; 222e25b118aSDominic Spill 223e25b118aSDominic Spill return(output); 224e25b118aSDominic Spill } 225e25b118aSDominic Spill 226e25b118aSDominic Spill void perm_table_init(void) 227e25b118aSDominic Spill { 228e25b118aSDominic Spill /* populate perm_table for all possible inputs */ 229e25b118aSDominic Spill int z, p_high, p_low; 230e25b118aSDominic Spill for (z = 0; z < 0x20; z++) 231e25b118aSDominic Spill for (p_high = 0; p_high < 0x20; p_high++) 232e25b118aSDominic Spill for (p_low = 0; p_low < 0x200; p_low++) 233e25b118aSDominic Spill perm_table[z][p_high][p_low] = perm5(z, p_high, p_low); 234e25b118aSDominic Spill } 235e25b118aSDominic Spill 236e25b118aSDominic Spill /* drop-in replacement for perm5() using lookup table */ 237*1e7f449bSDominic Spill int fast_perm(int z, int p_high, int p_low) 238e25b118aSDominic Spill { 239e25b118aSDominic Spill if (!perm_table_initialized) { 240e25b118aSDominic Spill perm_table_init(); 241e25b118aSDominic Spill perm_table_initialized = 1; 242e25b118aSDominic Spill } 243e25b118aSDominic Spill 244e25b118aSDominic Spill return(perm_table[z][p_high][p_low]); 245e25b118aSDominic Spill } 246e25b118aSDominic Spill 247e25b118aSDominic Spill /* generate the complete hopping sequence */ 248e25b118aSDominic Spill static void gen_hops(btbb_piconet *pn) 249e25b118aSDominic Spill { 250e25b118aSDominic Spill /* a, b, c, d, e, f, x, y1, y2 are variable names used in section 2.6 of the spec */ 251e25b118aSDominic Spill /* b is already defined */ 252e25b118aSDominic Spill /* e is already defined */ 253e25b118aSDominic Spill int a, c, d, f, x; 254e25b118aSDominic Spill int h, i, j, k, c_flipped, perm_in, perm_out; 255e25b118aSDominic Spill 256e25b118aSDominic Spill /* sequence index = clock >> 1 */ 257e25b118aSDominic Spill /* (hops only happen at every other clock value) */ 258e25b118aSDominic Spill int index = 0; 259e25b118aSDominic Spill f = 0; 260e25b118aSDominic Spill 261e25b118aSDominic Spill /* nested loops for optimization (not recalculating every variable with every clock tick) */ 262e25b118aSDominic Spill for (h = 0; h < 0x04; h++) { /* clock bits 26-27 */ 263e25b118aSDominic Spill for (i = 0; i < 0x20; i++) { /* clock bits 21-25 */ 264e25b118aSDominic Spill a = pn->a1 ^ i; 265e25b118aSDominic Spill for (j = 0; j < 0x20; j++) { /* clock bits 16-20 */ 266e25b118aSDominic Spill c = pn->c1 ^ j; 267e25b118aSDominic Spill c_flipped = c ^ 0x1f; 268e25b118aSDominic Spill for (k = 0; k < 0x200; k++) { /* clock bits 7-15 */ 269e25b118aSDominic Spill d = pn->d1 ^ k; 270e25b118aSDominic Spill for (x = 0; x < 0x20; x++) { /* clock bits 2-6 */ 271e25b118aSDominic Spill perm_in = ((x + a) % 32) ^ pn->b; 272e25b118aSDominic Spill /* y1 (clock bit 1) = 0, y2 = 0 */ 273*1e7f449bSDominic Spill perm_out = fast_perm(perm_in, c, d); 274e25b118aSDominic Spill pn->sequence[index] = pn->bank[(perm_out + pn->e + f) % BT_NUM_CHANNELS]; 275e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_IS_AFH)) { 276e25b118aSDominic Spill pn->sequence[index + 1] = pn->sequence[index]; 277e25b118aSDominic Spill } else { 278e25b118aSDominic Spill /* y1 (clock bit 1) = 1, y2 = 32 */ 279*1e7f449bSDominic Spill perm_out = fast_perm(perm_in, c_flipped, d); 280e25b118aSDominic Spill pn->sequence[index + 1] = pn->bank[(perm_out + pn->e + f + 32) % BT_NUM_CHANNELS]; 281e25b118aSDominic Spill } 282e25b118aSDominic Spill index += 2; 283e25b118aSDominic Spill } 284e25b118aSDominic Spill f += 16; 285e25b118aSDominic Spill } 286e25b118aSDominic Spill } 287e25b118aSDominic Spill } 288e25b118aSDominic Spill } 289e25b118aSDominic Spill } 290e25b118aSDominic Spill 291e25b118aSDominic Spill /* Function to calculate piconet hopping patterns and add to hash map */ 292e25b118aSDominic Spill void gen_hop_pattern(btbb_piconet *pn) 293e25b118aSDominic Spill { 294e25b118aSDominic Spill printf("\nCalculating complete hopping sequence.\n"); 295e25b118aSDominic Spill /* this holds the entire hopping sequence */ 296e25b118aSDominic Spill pn->sequence = (char*) malloc(SEQUENCE_LENGTH); 297e25b118aSDominic Spill 298e25b118aSDominic Spill precalc(pn); 299e25b118aSDominic Spill address_precalc(((pn->UAP<<24) | pn->LAP) & 0xfffffff, pn); 300e25b118aSDominic Spill gen_hops(pn); 301e25b118aSDominic Spill 302e25b118aSDominic Spill printf("Hopping sequence calculated.\n"); 303e25b118aSDominic Spill } 304e25b118aSDominic Spill 305e25b118aSDominic Spill /* Container for hopping pattern */ 306e25b118aSDominic Spill typedef struct { 307e25b118aSDominic Spill uint64_t key; /* afh flag + address */ 308e25b118aSDominic Spill char *sequence; 309e25b118aSDominic Spill UT_hash_handle hh; 310e25b118aSDominic Spill } hopping_struct; 311e25b118aSDominic Spill 312e25b118aSDominic Spill static hopping_struct *hopping_map = NULL; 313e25b118aSDominic Spill 314e25b118aSDominic Spill /* Function to fetch piconet hopping patterns */ 315e25b118aSDominic Spill void get_hop_pattern(btbb_piconet *pn) 316e25b118aSDominic Spill { 317e25b118aSDominic Spill hopping_struct *s; 318e25b118aSDominic Spill uint64_t key; 319e25b118aSDominic Spill 320e25b118aSDominic Spill /* Two stages to avoid "left shift count >= width of type" warning */ 321e25b118aSDominic Spill key = btbb_piconet_get_flag(pn, BTBB_IS_AFH); 322e25b118aSDominic Spill key = (key<<32) | (pn->UAP<<24) | pn->LAP; 323e25b118aSDominic Spill HASH_FIND(hh, hopping_map, &key, 4, s); 324e25b118aSDominic Spill 325e25b118aSDominic Spill if (s == NULL) { 326e25b118aSDominic Spill gen_hop_pattern(pn); 327e25b118aSDominic Spill s = malloc(sizeof(hopping_struct)); 328e25b118aSDominic Spill s->key = key; 329e25b118aSDominic Spill s->sequence = pn->sequence; 330e25b118aSDominic Spill HASH_ADD(hh, hopping_map, key, 4, s); 331e25b118aSDominic Spill } else { 332e25b118aSDominic Spill printf("\nFound hopping sequence in cache.\n"); 333e25b118aSDominic Spill pn->sequence = s->sequence; 334e25b118aSDominic Spill } 335e25b118aSDominic Spill } 336e25b118aSDominic Spill 337e25b118aSDominic Spill /* determine channel for a particular hop */ 338e25b118aSDominic Spill /* replaced with gen_hops() for a complete sequence but could still come in handy */ 339e25b118aSDominic Spill char single_hop(int clock, btbb_piconet *pn) 340e25b118aSDominic Spill { 341e25b118aSDominic Spill int a, c, d, f, x, y1, y2; 342e25b118aSDominic Spill 343e25b118aSDominic Spill /* following variable names used in section 2.6 of the spec */ 344e25b118aSDominic Spill x = (clock >> 2) & 0x1f; 345e25b118aSDominic Spill y1 = (clock >> 1) & 0x01; 346e25b118aSDominic Spill y2 = y1 << 5; 347e25b118aSDominic Spill a = (pn->a1 ^ (clock >> 21)) & 0x1f; 348e25b118aSDominic Spill /* b is already defined */ 349e25b118aSDominic Spill c = (pn->c1 ^ (clock >> 16)) & 0x1f; 350e25b118aSDominic Spill d = (pn->d1 ^ (clock >> 7)) & 0x1ff; 351e25b118aSDominic Spill /* e is already defined */ 352e25b118aSDominic Spill f = (clock >> 3) & 0x1fffff0; 353e25b118aSDominic Spill 354e25b118aSDominic Spill /* hop selection */ 355*1e7f449bSDominic Spill return(pn->bank[(fast_perm(((x + a) % 32) ^ pn->b, (y1 * 0x1f) ^ c, d) + pn->e + f + y2) % BT_NUM_CHANNELS]); 356e25b118aSDominic Spill } 357e25b118aSDominic Spill 358e25b118aSDominic Spill /* look up channel for a particular hop */ 359e25b118aSDominic Spill char hop(int clock, btbb_piconet *pn) 360e25b118aSDominic Spill { 361e25b118aSDominic Spill return pn->sequence[clock]; 362e25b118aSDominic Spill } 363e25b118aSDominic Spill 364e25b118aSDominic Spill static char aliased_channel(char channel) 365e25b118aSDominic Spill { 366e25b118aSDominic Spill return ((channel + 24) % ALIASED_CHANNELS) + 26; 367e25b118aSDominic Spill } 368e25b118aSDominic Spill 369e25b118aSDominic Spill /* create list of initial candidate clock values (hops with same channel as first observed hop) */ 370e25b118aSDominic Spill static int init_candidates(char channel, int known_clock_bits, btbb_piconet *pn) 371e25b118aSDominic Spill { 372e25b118aSDominic Spill int i; 373e25b118aSDominic Spill int count = 0; /* total number of candidates */ 374e25b118aSDominic Spill char observable_channel; /* accounts for aliasing if necessary */ 375e25b118aSDominic Spill 376e25b118aSDominic Spill /* only try clock values that match our known bits */ 377e25b118aSDominic Spill for (i = known_clock_bits; i < SEQUENCE_LENGTH; i += 0x40) { 378e25b118aSDominic Spill if (pn->aliased) 379e25b118aSDominic Spill observable_channel = aliased_channel(pn->sequence[i]); 380e25b118aSDominic Spill else 381e25b118aSDominic Spill observable_channel = pn->sequence[i]; 382e25b118aSDominic Spill if (observable_channel == channel) 383e25b118aSDominic Spill pn->clock_candidates[count++] = i; 384e25b118aSDominic Spill //FIXME ought to throw exception if count gets too big 385e25b118aSDominic Spill } 386e25b118aSDominic Spill return count; 387e25b118aSDominic Spill } 388e25b118aSDominic Spill 389e25b118aSDominic Spill /* initialize the hop reversal process */ 390e25b118aSDominic Spill int btbb_init_hop_reversal(int aliased, btbb_piconet *pn) 391e25b118aSDominic Spill { 392e25b118aSDominic Spill int max_candidates; 393e25b118aSDominic Spill uint32_t clock; 394e25b118aSDominic Spill 395e25b118aSDominic Spill get_hop_pattern(pn); 396e25b118aSDominic Spill 397e25b118aSDominic Spill if(aliased) 398e25b118aSDominic Spill max_candidates = (SEQUENCE_LENGTH / ALIASED_CHANNELS) / 32; 399e25b118aSDominic Spill else 400e25b118aSDominic Spill max_candidates = (SEQUENCE_LENGTH / BT_NUM_CHANNELS) / 32; 401e25b118aSDominic Spill /* this can hold twice the approximate number of initial candidates */ 402e25b118aSDominic Spill pn->clock_candidates = (uint32_t*) malloc(sizeof(uint32_t) * max_candidates); 403e25b118aSDominic Spill 404e25b118aSDominic Spill clock = (pn->clk_offset + pn->first_pkt_time) & 0x3f; 405e25b118aSDominic Spill pn->num_candidates = init_candidates(pn->pattern_channels[0], clock, pn); 406e25b118aSDominic Spill pn->winnowed = 0; 407e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_HOP_REVERSAL_INIT, 1); 408e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_CLK27_VALID, 0); 409e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_IS_ALIASED, aliased); 410e25b118aSDominic Spill 411e25b118aSDominic Spill printf("%d initial CLK1-27 candidates\n", pn->num_candidates); 412e25b118aSDominic Spill 413e25b118aSDominic Spill return pn->num_candidates; 414e25b118aSDominic Spill } 415e25b118aSDominic Spill 416e25b118aSDominic Spill void try_hop(btbb_packet *pkt, btbb_piconet *pn) 417e25b118aSDominic Spill { 418e25b118aSDominic Spill uint8_t filter_uap = pn->UAP; 419e25b118aSDominic Spill 420e25b118aSDominic Spill /* Decode packet - fixing clock drift in the process */ 421e25b118aSDominic Spill btbb_decode(pkt, pn); 422e25b118aSDominic Spill 423e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_HOP_REVERSAL_INIT)) { 424e25b118aSDominic Spill //pn->winnowed = 0; 425e25b118aSDominic Spill pn->pattern_indices[pn->packets_observed] = 426e25b118aSDominic Spill pkt->clkn - pn->first_pkt_time; 427e25b118aSDominic Spill pn->pattern_channels[pn->packets_observed] = pkt->channel; 428e25b118aSDominic Spill pn->packets_observed++; 429e25b118aSDominic Spill pn->total_packets_observed++; 430e25b118aSDominic Spill btbb_winnow(pn); 431e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_CLK27_VALID)) { 432e25b118aSDominic Spill printf("got CLK1-27\n"); 433e25b118aSDominic Spill printf("clock offset = %d.\n", pn->clk_offset); 434e25b118aSDominic Spill } 435e25b118aSDominic Spill } else { 436e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_CLK6_VALID)) { 437e25b118aSDominic Spill btbb_uap_from_header(pkt, pn); 438e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_CLK27_VALID)) { 439e25b118aSDominic Spill printf("got CLK1-27\n"); 440e25b118aSDominic Spill printf("clock offset = %d.\n", pn->clk_offset); 441e25b118aSDominic Spill } 442e25b118aSDominic Spill } else { 443e25b118aSDominic Spill if (btbb_uap_from_header(pkt, pn)) { 444e25b118aSDominic Spill if (filter_uap == pn->UAP) { 445e25b118aSDominic Spill printf("got CLK1-6\n"); 446e25b118aSDominic Spill btbb_init_hop_reversal(0, pn); 447e25b118aSDominic Spill btbb_winnow(pn); 448e25b118aSDominic Spill } else { 449e25b118aSDominic Spill printf("failed to confirm UAP\n"); 450e25b118aSDominic Spill } 451e25b118aSDominic Spill } 452e25b118aSDominic Spill } 453e25b118aSDominic Spill } 454e25b118aSDominic Spill 455e25b118aSDominic Spill if(!btbb_piconet_get_flag(pn, BTBB_UAP_VALID)) { 456e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_UAP_VALID, 1); 457e25b118aSDominic Spill pn->UAP = filter_uap; 458e25b118aSDominic Spill } 459e25b118aSDominic Spill } 460e25b118aSDominic Spill 461e25b118aSDominic Spill /* return the observable channel (26-50) for a given channel (0-78) */ 462e25b118aSDominic Spill /* reset UAP/clock discovery */ 463e25b118aSDominic Spill static void reset(btbb_piconet *pn) 464e25b118aSDominic Spill { 465e25b118aSDominic Spill //printf("no candidates remaining! starting over . . .\n"); 466e25b118aSDominic Spill 467e25b118aSDominic Spill if(btbb_piconet_get_flag(pn, BTBB_HOP_REVERSAL_INIT)) { 468e25b118aSDominic Spill free(pn->clock_candidates); 469e25b118aSDominic Spill pn->sequence = NULL; 470e25b118aSDominic Spill } 471e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_GOT_FIRST_PACKET, 0); 472e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_HOP_REVERSAL_INIT, 0); 473e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_UAP_VALID, 0); 474e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_CLK6_VALID, 0); 475e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_CLK27_VALID, 0); 476e25b118aSDominic Spill pn->packets_observed = 0; 477e25b118aSDominic Spill 478e25b118aSDominic Spill /* 479e25b118aSDominic Spill * If we have recently observed two packets in a row on the same 480e25b118aSDominic Spill * channel, try AFH next time. If not, don't. 481e25b118aSDominic Spill */ 482e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_IS_AFH, 483e25b118aSDominic Spill btbb_piconet_get_flag(pn, BTBB_LOOKS_LIKE_AFH)); 484e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_LOOKS_LIKE_AFH, 0); 485e25b118aSDominic Spill //int i; 486e25b118aSDominic Spill //for(i=0; i<10; i++) 487e25b118aSDominic Spill // pn->afh_map[i] = 0; 488e25b118aSDominic Spill } 489e25b118aSDominic Spill 490e25b118aSDominic Spill /* narrow a list of candidate clock values based on a single observed hop */ 491e25b118aSDominic Spill static int channel_winnow(int offset, char channel, btbb_piconet *pn) 492e25b118aSDominic Spill { 493e25b118aSDominic Spill int i; 494e25b118aSDominic Spill int new_count = 0; /* number of candidates after winnowing */ 495e25b118aSDominic Spill char observable_channel; /* accounts for aliasing if necessary */ 496e25b118aSDominic Spill 497e25b118aSDominic Spill /* check every candidate */ 498e25b118aSDominic Spill for (i = 0; i < pn->num_candidates; i++) { 499e25b118aSDominic Spill if (pn->aliased) 500e25b118aSDominic Spill observable_channel = aliased_channel(pn->sequence[(pn->clock_candidates[i] + offset) % SEQUENCE_LENGTH]); 501e25b118aSDominic Spill else 502e25b118aSDominic Spill observable_channel = pn->sequence[(pn->clock_candidates[i] + offset) % SEQUENCE_LENGTH]; 503e25b118aSDominic Spill if (observable_channel == channel) { 504e25b118aSDominic Spill /* this candidate matches the latest hop */ 505e25b118aSDominic Spill /* blow away old list of candidates with new one */ 506e25b118aSDominic Spill /* safe because new_count can never be greater than i */ 507e25b118aSDominic Spill pn->clock_candidates[new_count++] = pn->clock_candidates[i]; 508e25b118aSDominic Spill } 509e25b118aSDominic Spill } 510e25b118aSDominic Spill pn->num_candidates = new_count; 511e25b118aSDominic Spill 512e25b118aSDominic Spill if (new_count == 1) { 513e25b118aSDominic Spill // Calculate clock offset for CLKN, not CLK1-27 514e25b118aSDominic Spill pn->clk_offset = ((pn->clock_candidates[0]<<1) - (pn->first_pkt_time<<1)); 515e25b118aSDominic Spill printf("\nAcquired CLK1-27 = 0x%07x\n", pn->clock_candidates[0]); 516e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_CLK27_VALID, 1); 517e25b118aSDominic Spill } 518e25b118aSDominic Spill else if (new_count == 0) { 519e25b118aSDominic Spill reset(pn); 520e25b118aSDominic Spill } 521e25b118aSDominic Spill //else { 522e25b118aSDominic Spill //printf("%d CLK1-27 candidates remaining (channel=%d)\n", new_count, channel); 523e25b118aSDominic Spill //} 524e25b118aSDominic Spill 525e25b118aSDominic Spill return new_count; 526e25b118aSDominic Spill } 527e25b118aSDominic Spill 528e25b118aSDominic Spill /* narrow a list of candidate clock values based on all observed hops */ 529e25b118aSDominic Spill int btbb_winnow(btbb_piconet *pn) 530e25b118aSDominic Spill { 531e25b118aSDominic Spill int new_count = pn->num_candidates; 532e25b118aSDominic Spill int index, last_index; 533e25b118aSDominic Spill uint8_t channel, last_channel; 534e25b118aSDominic Spill 535e25b118aSDominic Spill for (; pn->winnowed < pn->packets_observed; pn->winnowed++) { 536e25b118aSDominic Spill index = pn->pattern_indices[pn->winnowed]; 537e25b118aSDominic Spill channel = pn->pattern_channels[pn->winnowed]; 538e25b118aSDominic Spill new_count = channel_winnow(index, channel, pn); 539e25b118aSDominic Spill if (new_count <= 1) 540e25b118aSDominic Spill break; 541e25b118aSDominic Spill 542e25b118aSDominic Spill if (pn->packets_observed > 0) { 543e25b118aSDominic Spill last_index = pn->pattern_indices[pn->winnowed - 1]; 544e25b118aSDominic Spill last_channel = pn->pattern_channels[pn->winnowed - 1]; 545e25b118aSDominic Spill /* 546e25b118aSDominic Spill * Two packets in a row on the same channel should only 547e25b118aSDominic Spill * happen if adaptive frequency hopping is in use. 548e25b118aSDominic Spill * There can be false positives, though, especially if 549e25b118aSDominic Spill * there is aliasing. 550e25b118aSDominic Spill */ 551e25b118aSDominic Spill if (!btbb_piconet_get_flag(pn, BTBB_LOOKS_LIKE_AFH) 552e25b118aSDominic Spill && (index == last_index + 1) 553e25b118aSDominic Spill && (channel == last_channel)) { 554e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_LOOKS_LIKE_AFH, 1); 555e25b118aSDominic Spill printf("Hopping pattern appears to be AFH\n"); 556e25b118aSDominic Spill } 557e25b118aSDominic Spill } 558e25b118aSDominic Spill } 559e25b118aSDominic Spill 560e25b118aSDominic Spill return new_count; 561e25b118aSDominic Spill } 562e25b118aSDominic Spill 563e25b118aSDominic Spill /* use packet headers to determine UAP */ 564e25b118aSDominic Spill int btbb_uap_from_header(btbb_packet *pkt, btbb_piconet *pn) 565e25b118aSDominic Spill { 566e25b118aSDominic Spill uint8_t UAP; 567e25b118aSDominic Spill int count, crc_chk, first_clock = 0; 568e25b118aSDominic Spill 569e25b118aSDominic Spill int starting = 0; 570e25b118aSDominic Spill int remaining = 0; 571e25b118aSDominic Spill uint32_t clkn = pkt->clkn; 572e25b118aSDominic Spill 573e25b118aSDominic Spill if (!pn->got_first_packet) 574e25b118aSDominic Spill pn->first_pkt_time = clkn; 575e25b118aSDominic Spill 576e25b118aSDominic Spill // Set afh channel map 577e25b118aSDominic Spill pn->afh_map[pkt->channel/8] |= 0x1 << (pkt->channel % 8); 578e25b118aSDominic Spill 579e25b118aSDominic Spill if (pn->packets_observed < MAX_PATTERN_LENGTH) { 580e25b118aSDominic Spill pn->pattern_indices[pn->packets_observed] = clkn - pn->first_pkt_time; 581e25b118aSDominic Spill pn->pattern_channels[pn->packets_observed] = pkt->channel; 582e25b118aSDominic Spill } else { 583e25b118aSDominic Spill printf("Oops. More hops than we can remember.\n"); 584e25b118aSDominic Spill reset(pn); 585e25b118aSDominic Spill return 0; //FIXME ought to throw exception 586e25b118aSDominic Spill } 587e25b118aSDominic Spill pn->packets_observed++; 588e25b118aSDominic Spill pn->total_packets_observed++; 589e25b118aSDominic Spill 590e25b118aSDominic Spill /* try every possible first packet clock value */ 591e25b118aSDominic Spill for (count = 0; count < 64; count++) { 592e25b118aSDominic Spill /* skip eliminated candidates unless this is our first time through */ 593e25b118aSDominic Spill if (pn->clock6_candidates[count] > -1 || !pn->got_first_packet) { 594e25b118aSDominic Spill /* clock value for the current packet assuming count was the clock of the first packet */ 595e25b118aSDominic Spill int clock = (count + clkn - pn->first_pkt_time) % 64; 596e25b118aSDominic Spill starting++; 597e25b118aSDominic Spill UAP = try_clock(clock, pkt); 598e25b118aSDominic Spill crc_chk = -1; 599e25b118aSDominic Spill 600e25b118aSDominic Spill /* if this is the first packet: populate the candidate list */ 601e25b118aSDominic Spill /* if not: check CRCs if UAPs match */ 602e25b118aSDominic Spill if (!pn->got_first_packet || UAP == pn->clock6_candidates[count]) 603e25b118aSDominic Spill crc_chk = crc_check(clock, pkt); 604e25b118aSDominic Spill 605e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_UAP_VALID) && 606e25b118aSDominic Spill (UAP != pn->UAP)) 607e25b118aSDominic Spill crc_chk = -1; 608e25b118aSDominic Spill 609e25b118aSDominic Spill switch(crc_chk) { 610e25b118aSDominic Spill case -1: /* UAP mismatch */ 611e25b118aSDominic Spill case 0: /* CRC failure */ 612e25b118aSDominic Spill pn->clock6_candidates[count] = -1; 613e25b118aSDominic Spill break; 614e25b118aSDominic Spill 615e25b118aSDominic Spill case 1: /* inconclusive result */ 616e25b118aSDominic Spill pn->clock6_candidates[count] = UAP; 617e25b118aSDominic Spill /* remember this count because it may be the correct clock of the first packet */ 618e25b118aSDominic Spill first_clock = count; 619e25b118aSDominic Spill remaining++; 620e25b118aSDominic Spill break; 621e25b118aSDominic Spill 622e25b118aSDominic Spill default: /* CRC success */ 623e25b118aSDominic Spill pn->clk_offset = (count - (pn->first_pkt_time & 0x3f)) & 0x3f; 624e25b118aSDominic Spill if (!btbb_piconet_get_flag(pn, BTBB_UAP_VALID)) 625e25b118aSDominic Spill printf("Correct CRC! UAP = 0x%x found after %d total packets.\n", 626e25b118aSDominic Spill UAP, pn->total_packets_observed); 627e25b118aSDominic Spill else 628e25b118aSDominic Spill printf("Correct CRC! CLK6 = 0x%x found after %d total packets.\n", 629e25b118aSDominic Spill pn->clk_offset, pn->total_packets_observed); 630e25b118aSDominic Spill pn->UAP = UAP; 631e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_CLK6_VALID, 1); 632e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_UAP_VALID, 1); 633e25b118aSDominic Spill pn->total_packets_observed = 0; 634e25b118aSDominic Spill return 1; 635e25b118aSDominic Spill } 636e25b118aSDominic Spill } 637e25b118aSDominic Spill } 638e25b118aSDominic Spill 639e25b118aSDominic Spill pn->got_first_packet = 1; 640e25b118aSDominic Spill 641e25b118aSDominic Spill //printf("reduced from %d to %d CLK1-6 candidates\n", starting, remaining); 642e25b118aSDominic Spill 643e25b118aSDominic Spill if (remaining == 1) { 644e25b118aSDominic Spill pn->clk_offset = (first_clock - (pn->first_pkt_time & 0x3f)) & 0x3f; 645e25b118aSDominic Spill if (!btbb_piconet_get_flag(pn, BTBB_UAP_VALID)) 646e25b118aSDominic Spill printf("We have a winner! UAP = 0x%x found after %d total packets.\n", 647e25b118aSDominic Spill pn->clock6_candidates[first_clock], pn->total_packets_observed); 648e25b118aSDominic Spill else 649e25b118aSDominic Spill printf("We have a winner! CLK6 = 0x%x found after %d total packets.\n", 650e25b118aSDominic Spill pn->clk_offset, pn->total_packets_observed); 651e25b118aSDominic Spill pn->UAP = pn->clock6_candidates[first_clock]; 652e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_CLK6_VALID, 1); 653e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_UAP_VALID, 1); 654e25b118aSDominic Spill pn->total_packets_observed = 0; 655e25b118aSDominic Spill return 1; 656e25b118aSDominic Spill } 657e25b118aSDominic Spill 658e25b118aSDominic Spill if (remaining == 0) { 659e25b118aSDominic Spill reset(pn); 660e25b118aSDominic Spill } 661e25b118aSDominic Spill 662e25b118aSDominic Spill return 0; 663e25b118aSDominic Spill } 664e25b118aSDominic Spill 665e25b118aSDominic Spill /* add a packet to the queue */ 666e25b118aSDominic Spill static void enqueue(btbb_packet *pkt, btbb_piconet *pn) 667e25b118aSDominic Spill { 668e25b118aSDominic Spill pkt_queue *head; 669e25b118aSDominic Spill //pkt_queue item; 670e25b118aSDominic Spill 671e25b118aSDominic Spill btbb_packet_ref(pkt); 672e25b118aSDominic Spill pkt_queue item = {pkt, NULL}; 673e25b118aSDominic Spill head = pn->queue; 674e25b118aSDominic Spill 675e25b118aSDominic Spill if (head == NULL) { 676e25b118aSDominic Spill pn->queue = &item; 677e25b118aSDominic Spill } else { 678e25b118aSDominic Spill for(; head->next != NULL; head = head->next) 679e25b118aSDominic Spill ; 680e25b118aSDominic Spill head->next = &item; 681e25b118aSDominic Spill } 682e25b118aSDominic Spill } 683e25b118aSDominic Spill 684e25b118aSDominic Spill /* pull the first packet from the queue (FIFO) */ 685e25b118aSDominic Spill static btbb_packet *dequeue(btbb_piconet *pn) 686e25b118aSDominic Spill { 687e25b118aSDominic Spill btbb_packet *pkt; 688e25b118aSDominic Spill 689e25b118aSDominic Spill if (pn->queue == NULL) { 690e25b118aSDominic Spill pkt = NULL; 691e25b118aSDominic Spill } else { 692e25b118aSDominic Spill pkt = pn->queue->pkt; 693e25b118aSDominic Spill pn->queue = pn->queue->next; 694e25b118aSDominic Spill btbb_packet_unref(pkt); 695e25b118aSDominic Spill } 696e25b118aSDominic Spill 697e25b118aSDominic Spill return pkt; 698e25b118aSDominic Spill } 699e25b118aSDominic Spill 700e25b118aSDominic Spill /* decode the whole packet */ 701e25b118aSDominic Spill int btbb_decode(btbb_packet* pkt, btbb_piconet *pn) 702e25b118aSDominic Spill { 703e25b118aSDominic Spill btbb_packet_set_flag(pkt, BTBB_HAS_PAYLOAD, 0); 704e25b118aSDominic Spill uint8_t clk6, i; 705e25b118aSDominic Spill int rv = 0; 706e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_CLK27_VALID)) { 707e25b118aSDominic Spill if(pn->sequence == NULL) 708e25b118aSDominic Spill get_hop_pattern(pn); 709e25b118aSDominic Spill clk6 = pkt->clock & 0x3f; 710e25b118aSDominic Spill for(i=0; i<64; i++) { 711e25b118aSDominic Spill pkt->clock = (pkt->clock & 0xffffffc0) | ((clk6 + i) & 0x3f); 712e25b118aSDominic Spill if ((pn->sequence[pkt->clock] == pkt->channel) && (btbb_decode_header(pkt))) { 713e25b118aSDominic Spill rv = btbb_decode_payload(pkt); 714e25b118aSDominic Spill if(rv > 0) { 715e25b118aSDominic Spill printf("Packet decoded with clock 0x%07x (rv=%d)\n", pkt->clock, rv); 716e25b118aSDominic Spill btbb_print_packet(pkt); 717e25b118aSDominic Spill } 718e25b118aSDominic Spill // TODO: make sure we use best result 719e25b118aSDominic Spill } 720e25b118aSDominic Spill } 721e25b118aSDominic Spill if(rv == 0) { 722e25b118aSDominic Spill clk6 = pkt->clock & 0x3f; 723e25b118aSDominic Spill for(i=0; i<64; i++) { 724e25b118aSDominic Spill pkt->clock = (pkt->clock & 0xffffffc0) | ((clk6 + i) & 0x3f); 725e25b118aSDominic Spill if (btbb_decode_header(pkt)) { 726e25b118aSDominic Spill rv = btbb_decode_payload(pkt); 727e25b118aSDominic Spill if(rv > 0) { 728e25b118aSDominic Spill printf("Packet decoded with clock 0x%07x (rv=%d)\n", pkt->clock, rv); 729e25b118aSDominic Spill btbb_print_packet(pkt); 730e25b118aSDominic Spill } 731e25b118aSDominic Spill // TODO: make sure we use best result 732e25b118aSDominic Spill } 733e25b118aSDominic Spill } 734e25b118aSDominic Spill } 735e25b118aSDominic Spill } else 736e25b118aSDominic Spill if (btbb_decode_header(pkt)) 737e25b118aSDominic Spill rv = btbb_decode_payload(pkt); 738e25b118aSDominic Spill 739e25b118aSDominic Spill return rv; 740e25b118aSDominic Spill } 741e25b118aSDominic Spill 742e25b118aSDominic Spill /* Print AFH map from observed packets */ 743e25b118aSDominic Spill void btbb_print_afh_map(btbb_piconet *pn) { 744*1e7f449bSDominic Spill uint8_t *afh_map; 745e25b118aSDominic Spill afh_map = pn->afh_map; 746e25b118aSDominic Spill 747e25b118aSDominic Spill /* Printed ch78 -> ch0 */ 748e25b118aSDominic Spill printf("\tAFH Map=0x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n", 749e25b118aSDominic Spill afh_map[9], afh_map[8], afh_map[7], afh_map[6], afh_map[5], 750e25b118aSDominic Spill afh_map[4], afh_map[3], afh_map[2], afh_map[1], afh_map[0]); 751e25b118aSDominic Spill } 752e25b118aSDominic Spill 753e25b118aSDominic Spill /* Container for survey piconets */ 754e25b118aSDominic Spill typedef struct { 755e25b118aSDominic Spill uint32_t key; /* LAP */ 756e25b118aSDominic Spill btbb_piconet *pn; 757e25b118aSDominic Spill UT_hash_handle hh; 758e25b118aSDominic Spill } survey_hash; 759e25b118aSDominic Spill 760e25b118aSDominic Spill static survey_hash *piconet_survey = NULL; 761e25b118aSDominic Spill 762e25b118aSDominic Spill /* A bit of a hack? to set survey mode */ 763e25b118aSDominic Spill static int survey_mode = 0; 764e25b118aSDominic Spill int btbb_init_survey() { 765e25b118aSDominic Spill survey_mode = 1; 766e25b118aSDominic Spill return 0; 767e25b118aSDominic Spill } 768e25b118aSDominic Spill 769e25b118aSDominic Spill /* Check for existing piconets in survey results */ 770e25b118aSDominic Spill btbb_piconet *get_piconet(uint32_t lap) 771e25b118aSDominic Spill { 772e25b118aSDominic Spill survey_hash *s; 773e25b118aSDominic Spill btbb_piconet *pn; 774e25b118aSDominic Spill HASH_FIND(hh, piconet_survey, &lap, 4, s); 775e25b118aSDominic Spill 776e25b118aSDominic Spill if (s == NULL) { 777e25b118aSDominic Spill pn = btbb_piconet_new(); 778e25b118aSDominic Spill btbb_init_piconet(pn, lap); 779e25b118aSDominic Spill 780e25b118aSDominic Spill s = malloc(sizeof(survey_hash)); 781e25b118aSDominic Spill s->key = lap; 782e25b118aSDominic Spill s->pn = pn; 783e25b118aSDominic Spill HASH_ADD(hh, piconet_survey, key, 4, s); 784e25b118aSDominic Spill } else { 785e25b118aSDominic Spill pn = s->pn; 786e25b118aSDominic Spill } 787e25b118aSDominic Spill return pn; 788e25b118aSDominic Spill } 789e25b118aSDominic Spill 790e25b118aSDominic Spill /* Destructively iterate over survey results */ 791e25b118aSDominic Spill btbb_piconet *btbb_next_survey_result() { 792e25b118aSDominic Spill btbb_piconet *pn = NULL; 793e25b118aSDominic Spill survey_hash *tmp; 794e25b118aSDominic Spill 795e25b118aSDominic Spill if (piconet_survey != NULL) { 796e25b118aSDominic Spill pn = piconet_survey->pn; 797e25b118aSDominic Spill tmp = piconet_survey; 798e25b118aSDominic Spill piconet_survey = piconet_survey->hh.next; 799e25b118aSDominic Spill free(tmp); 800e25b118aSDominic Spill } 801e25b118aSDominic Spill return pn; 802e25b118aSDominic Spill } 803e25b118aSDominic Spill 804e25b118aSDominic Spill int btbb_process_packet(btbb_packet *pkt, btbb_piconet *pn) { 805e25b118aSDominic Spill if (survey_mode) { 806e25b118aSDominic Spill pn = get_piconet(btbb_packet_get_lap(pkt)); 807e25b118aSDominic Spill btbb_piconet_set_channel_seen(pn, pkt->channel); 808e25b118aSDominic Spill if(btbb_header_present(pkt) && !btbb_piconet_get_flag(pn, BTBB_UAP_VALID)) 809e25b118aSDominic Spill btbb_uap_from_header(pkt, pn); 810e25b118aSDominic Spill return 0; 811e25b118aSDominic Spill } 812e25b118aSDominic Spill 813e25b118aSDominic Spill /* If piconet structure is given, a LAP is given, and packet 814e25b118aSDominic Spill * header is readable, do further analysis. If UAP has not yet 815e25b118aSDominic Spill * been determined, attempt to calculate it from headers. Once 816e25b118aSDominic Spill * UAP is known, try to determine clk6 and clk27. Once clocks 817e25b118aSDominic Spill * are known, follow the piconet. */ 818e25b118aSDominic Spill if (pn && btbb_piconet_get_flag(pn, BTBB_LAP_VALID) && 819e25b118aSDominic Spill btbb_header_present(pkt)) { 820e25b118aSDominic Spill 821e25b118aSDominic Spill /* Have LAP/UAP/clocks, now hopping along with the piconet. */ 822e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_FOLLOWING)) { 823e25b118aSDominic Spill btbb_packet_set_uap(pkt, btbb_piconet_get_uap(pn)); 824e25b118aSDominic Spill btbb_packet_set_flag(pkt, BTBB_CLK6_VALID, 1); 825e25b118aSDominic Spill btbb_packet_set_flag(pkt, BTBB_CLK27_VALID, 1); 826e25b118aSDominic Spill 827e25b118aSDominic Spill if(btbb_decode(pkt, pn)) 828e25b118aSDominic Spill btbb_print_packet(pkt); 829e25b118aSDominic Spill else 830e25b118aSDominic Spill printf("Failed to decode packet\n"); 831e25b118aSDominic Spill } 832e25b118aSDominic Spill 833e25b118aSDominic Spill /* Have LAP/UAP, need clocks. */ 834e25b118aSDominic Spill else if (btbb_piconet_get_uap(pn)) { 835e25b118aSDominic Spill try_hop(pkt, pn); 836e25b118aSDominic Spill if (btbb_piconet_get_flag(pn, BTBB_CLK6_VALID) && 837e25b118aSDominic Spill btbb_piconet_get_flag(pn, BTBB_CLK27_VALID)) { 838e25b118aSDominic Spill btbb_piconet_set_flag(pn, BTBB_FOLLOWING, 1); 839e25b118aSDominic Spill return -1; 840e25b118aSDominic Spill } 841e25b118aSDominic Spill } 842e25b118aSDominic Spill 843e25b118aSDominic Spill /* Have LAP, need UAP. */ 844e25b118aSDominic Spill else { 845e25b118aSDominic Spill btbb_uap_from_header(pkt, pn); 846e25b118aSDominic Spill } 847e25b118aSDominic Spill } 848e25b118aSDominic Spill return 0; 849e25b118aSDominic Spill } 850