#include "globals.h" #ifdef READER_VIDEOGUARD #include "cscrypt/md5.h" #include "cscrypt/des.h" #include "oscam-work.h" #include "reader-common.h" #include "reader-videoguard-common.h" static void do_post_dw_hash(struct s_reader *reader, uint8_t *cw, const uint8_t *ecm_header_data) { int32_t i, ecmi, ecm_header_count; uint8_t buffer[0x85]; // original 0x80 but with 0x7D mask applied +8 bytes cw it was still to small uint8_t md5tmp[MD5_DIGEST_LENGTH]; static const uint16_t Hash3[] = { 0x0123, 0x4567, 0x89AB, 0xCDEF, 0xF861, 0xCB52 }; static const uint8_t Hash4[] = { 0x0B, 0x04, 0x07, 0x08, 0x05, 0x09, 0x0B, 0x0A, 0x07, 0x02, 0x0A, 0x05, 0x04, 0x08, 0x0D, 0x0F }; static const uint16_t NdTabB001[0x15][0x20] = { { 0xEAF1, 0x0237, 0x29D0, 0xBAD2, 0xE9D3, 0x8BAE, 0x2D6D, 0xCD1B, 0x538D, 0xDE6B, 0xA634, 0xF81A, 0x18B5, 0x5087, 0x14EA, 0x672E, 0xF0FC, 0x055E, 0x62E5, 0xB78F, 0x5D09, 0x0003, 0xE4E8, 0x2DCE, 0x6BE0, 0xAC4E, 0xF485, 0x6967, 0xF28C, 0x97A0, 0x01EF, 0x0100 }, { 0xC539, 0xF5B9, 0x9099, 0x013A, 0xD4B9, 0x6AB5, 0xEA67, 0x7EB4, 0x6C30, 0x4BF0, 0xB810, 0xB0B5, 0xB76D, 0xA751, 0x1AE7, 0x14CA, 0x4F4F, 0x1586, 0x2608, 0x10B1, 0xE7E1, 0x48BE, 0x7DDD, 0x5ECB, 0xCFBF, 0x323B, 0x8B31, 0xB131, 0x0F1A, 0x664B, 0x0140, 0x0100 }, { 0x3C7D, 0xBDC4, 0xFEC7, 0x26A6, 0xB0A0, 0x6E55, 0xF710, 0xF9BF, 0x0023, 0xE81F, 0x41CA, 0xBE32, 0xB461, 0xE92D, 0xF1AF, 0x409F, 0xFC85, 0xFE5B, 0x7FCE, 0x17F5, 0x01AB, 0x4A46, 0xEB05, 0xA251, 0xDC6F, 0xF0C0, 0x10F0, 0x1D51, 0xEFAA, 0xE9BF, 0x0100, 0x0100 }, { 0x1819, 0x0CAA, 0x9067, 0x607A, 0x7576, 0x1CBC, 0xE51D, 0xBF77, 0x7EC6, 0x839E, 0xB695, 0xF096, 0xDC10, 0xCB69, 0x4654, 0x8E68, 0xD62D, 0x4F1A, 0x4227, 0x92AC, 0x9064, 0x6BD1, 0x1E75, 0x2747, 0x00DA, 0xA6A6, 0x6CF1, 0xD151, 0xBE56, 0x3E33, 0x0128, 0x0100 }, { 0x4091, 0x09ED, 0xD494, 0x6054, 0x1869, 0x71D5, 0xB572, 0x7BF1, 0xE925, 0xEE2D, 0xEEDE, 0xA13C, 0x6613, 0x9BAB, 0x122D, 0x7AE4, 0x5268, 0xE6C9, 0x50CB, 0x79A1, 0xF212, 0xA062, 0x6B48, 0x70B3, 0xF6B0, 0x06D5, 0xF8AB, 0xECF5, 0x6255, 0xEDD8, 0x79D2, 0x290A }, { 0xD3CF, 0x014E, 0xACB3, 0x8F6B, 0x0F2C, 0xA5D8, 0xE8E0, 0x863D, 0x80D5, 0x5705, 0x658A, 0x8BC2, 0xEE46, 0xD3AE, 0x0199, 0x0100, 0x4A35, 0xABE4, 0xF976, 0x935A, 0xA8A5, 0xBAE9, 0x24D0, 0x71AA, 0xB3FE, 0x095E, 0xAB06, 0x4CD5, 0x2F0D, 0x1ACB, 0x59F3, 0x4C50 }, { 0xFD27, 0x0F8E, 0x191A, 0xEEE7, 0x2F49, 0x3A05, 0x3267, 0x4F88, 0x38AE, 0xFCE9, 0x9476, 0x18C6, 0xF961, 0x4EF0, 0x39D0, 0x42E6, 0xB747, 0xE625, 0xB68E, 0x5100, 0xF92A, 0x86FE, 0xE79B, 0xEE91, 0x21D5, 0x4C3C, 0x683D, 0x5AD1, 0x1B49, 0xF407, 0x0194, 0x0100 }, { 0x4BF9, 0xDC0D, 0x9478, 0x5174, 0xCB4A, 0x8A89, 0x4D6A, 0xFED8, 0xF123, 0xA8CD, 0xEEE7, 0xA6D1, 0xB763, 0xF5E2, 0xE085, 0x01EF, 0xE466, 0x9FA3, 0x2F68, 0x2190, 0x423F, 0x287F, 0x7F3F, 0x09F6, 0x2111, 0xA963, 0xD0BB, 0x674A, 0xBA72, 0x45F9, 0xF186, 0xB8F5 }, { 0x0010, 0xD1B9, 0xB164, 0x9E87, 0x1F49, 0x6950, 0x2DBF, 0x38D3, 0x2EB0, 0x3E8E, 0x91E6, 0xF688, 0x7E41, 0x566E, 0x01B0, 0x0100, 0x24A1, 0x73D8, 0xA0C3, 0xF71B, 0xA0A5, 0x2A06, 0xBA46, 0xFEC3, 0xDD4C, 0x52CC, 0xF9BC, 0x3B7E, 0x3812, 0x0666, 0xB74B, 0x40F8 }, { 0x28F2, 0x7C81, 0xFC92, 0x6FBD, 0x53D6, 0x72A3, 0xBBDF, 0xB6FC, 0x9CE5, 0x2331, 0xD4F6, 0xC5BB, 0xE8BB, 0x6676, 0x02D9, 0x2F0E, 0xD009, 0xD136, 0xCD09, 0x7551, 0x1826, 0x9D9B, 0x63EA, 0xFC63, 0x68CD, 0x3672, 0xCB95, 0xD28E, 0xF1CD, 0x20CA, 0x014C, 0x0100 }, { 0xE539, 0x55B7, 0x989D, 0x21C4, 0x463A, 0xE68F, 0xF8B5, 0xE5C5, 0x662B, 0x35BF, 0x3C50, 0x0131, 0xF4BF, 0x38B2, 0x41BC, 0xB829, 0x02B7, 0x6B8F, 0xA25C, 0xAFD2, 0xD84A, 0x2243, 0x53EB, 0xC6C9, 0x2E14, 0x181F, 0x8F96, 0xDF0E, 0x0D4C, 0x30F6, 0xFFE1, 0x9DDA }, { 0x30B6, 0x777E, 0xDA3D, 0xAF77, 0x205E, 0xC90B, 0x856B, 0xB451, 0x3BCC, 0x76C2, 0x8ACF, 0xDCB1, 0xA5E5, 0xDD64, 0x0197, 0x0100, 0xE751, 0xB661, 0x0404, 0xDB4A, 0xE9DD, 0xA400, 0xAF26, 0x3F5E, 0x904B, 0xA924, 0x09E0, 0xE72B, 0x825B, 0x2C50, 0x6FD0, 0x0D52 }, { 0x2730, 0xC2BA, 0x9E44, 0x5815, 0xFC47, 0xB21D, 0x67B8, 0xF8B9, 0x047D, 0xB0AF, 0x9F14, 0x741B, 0x4668, 0xBE54, 0xDE16, 0xDB14, 0x7CB7, 0xF2B8, 0x0683, 0x762C, 0x09A0, 0x9507, 0x7F92, 0x022C, 0xBA6A, 0x7D52, 0x0AF4, 0x1BC3, 0xB46A, 0xC4FD, 0x01C2, 0x0100 }, { 0x7611, 0x66F3, 0xEE87, 0xEDD3, 0xC559, 0xEFD4, 0xDC59, 0xF86B, 0x6D1C, 0x1C85, 0x9BB1, 0x3373, 0x763F, 0x4EBE, 0x1BF3, 0x99B5, 0xD721, 0x978F, 0xCF5C, 0xAC51, 0x0984, 0x7462, 0x8F0C, 0x2817, 0x4AD9, 0xFD41, 0x6678, 0x7C85, 0xD330, 0xC9F8, 0x1D9A, 0xC622 }, { 0x5AE4, 0xE16A, 0x60F6, 0xFD45, 0x668C, 0x29D6, 0x0285, 0x6B92, 0x92C2, 0x21DE, 0x45E0, 0xEF3D, 0x8B0D, 0x02CD, 0x0198, 0x0100, 0x9E6D, 0x4D38, 0xDEF9, 0xE6F2, 0xF72E, 0xB313, 0x14F2, 0x390A, 0x2D67, 0xC71E, 0xCB69, 0x7F66, 0xD3CF, 0x7F8A, 0x81D9, 0x9DDE }, { 0x85E3, 0x8F29, 0x36EB, 0xC968, 0x3696, 0x59F6, 0x7832, 0xA78B, 0xA1D8, 0xF5CF, 0xAB64, 0x646D, 0x7A2A, 0xBAF8, 0xAA87, 0x41C7, 0x5120, 0xDE78, 0x738D, 0xDC1A, 0x268D, 0x5DF8, 0xED69, 0x1C8A, 0xBC85, 0x3DCD, 0xAE30, 0x0F8D, 0xEC89, 0x3ABD, 0x0166, 0x0100 }, { 0xB8BD, 0x643B, 0x748E, 0xBD63, 0xEC6F, 0xE23A, 0x9493, 0xDD76, 0x0A62, 0x774F, 0xCD68, 0xA67A, 0x9A23, 0xC8A8, 0xBDE5, 0x9D1B, 0x2B86, 0x8B36, 0x5428, 0x1DFB, 0xCD1D, 0x0713, 0x29C2, 0x8E8E, 0x5207, 0xA13F, 0x6005, 0x4F5E, 0x52E0, 0xE7C8, 0x6D1C, 0x3E34 }, { 0x581D, 0x2BFA, 0x5E1D, 0xA891, 0x1069, 0x1DA4, 0x39A0, 0xBE45, 0x5B9A, 0x7333, 0x6F3E, 0x8637, 0xA550, 0xC9E9, 0x5C6C, 0x42BA, 0xA712, 0xC3EA, 0x3808, 0x0910, 0xAA4D, 0x5B25, 0xABCD, 0xE680, 0x96AD, 0x2CEC, 0x8EBB, 0xA47D, 0x1690, 0xE8FB, 0x01C8, 0x0100 }, { 0x73B9, 0x82BC, 0x9EBC, 0xB130, 0x0DA5, 0x8617, 0x9F7B, 0x9766, 0x205D, 0x752D, 0xB05C, 0x2A17, 0xA75C, 0x18EF, 0x8339, 0xFD34, 0x8DA2, 0x7970, 0xD0B4, 0x70F1, 0x3765, 0x7380, 0x7CAF, 0x570E, 0x6440, 0xBC44, 0x0743, 0x2D02, 0x0419, 0xA240, 0x2113, 0x1AD4 }, { 0x1EB5, 0xBBFF, 0x39B1, 0x3209, 0x705F, 0x15F4, 0xD7AD, 0x340B, 0xC2A6, 0x25CA, 0xF412, 0x9570, 0x0F4F, 0xE4D5, 0x1614, 0xE464, 0x911A, 0x0F0E, 0x07DA, 0xA929, 0x2379, 0xD988, 0x0AA6, 0x3B57, 0xBF63, 0x71FB, 0x72D5, 0x26CE, 0xB0AF, 0xCF45, 0x011B, 0x0100 }, { 0x9999, 0x98FE, 0xA108, 0x6588, 0xF90B, 0x4554, 0xFF38, 0x4642, 0x8F5F, 0x6CC3, 0x4E8E, 0xFF7E, 0x64C2, 0x50CA, 0x0E7F, 0xAD7D, 0x6AAB, 0x33C1, 0xE1F4, 0x6165, 0x7894, 0x83B9, 0x0A0C, 0x38AF, 0x5803, 0x18C0, 0xFA36, 0x592C, 0x4548, 0xABB8, 0x1527, 0xAEE9 } }; //ecm_header_data = 01 03 b0 01 01 if(!cw_is_valid(cw)) // if cw is all zero, keep it that way { return; } ecm_header_count = ecm_header_data[0]; for(i = 0, ecmi = 1; i < ecm_header_count; i++) { if(ecm_header_data[ecmi + 1] != 0xb0) { ecmi += ecm_header_data[ecmi] + 1; } else { switch(ecm_header_data[ecmi + 2]) { case 1: // b0 01 { uint16_t hk[8], r, j, m = 0; for(r = 0; r < 6; r++) { hk[2 + r] = Hash3[r]; } for(r = 0; r < 2; r++) { for(j = 0; j < 0x48; j += 2) { if(r) { hk[0] = ((hk[3] & hk[5]) | ((~hk[5]) & hk[4])); } else { hk[0] = ((hk[3] & hk[4]) | ((~hk[3]) & hk[5])); } if(j < 8) { hk[0] = (hk[0] + ((cw[j + 1] << 8) | cw[j])); } if(j == 8) { hk[0] = (hk[0] + 0x80); } hk[0] = (hk[0] + hk[2] + (0xFF & NdTabB001[ecm_header_data[ecmi + 3]][m >> 1] >> ((m & 1) << 3))); hk[1] = hk[2]; hk[2] = hk[3]; hk[3] = hk[4]; hk[4] = hk[5]; hk[5] = hk[6]; hk[6] = hk[7]; hk[7] = hk[2] + (((hk[0] << Hash4[m & 0xF]) | (hk[0] >> (0x10 - Hash4[m & 0xF])))); m = (m + 1) & 0x3F; } } for(r = 0; r < 6; r++) { hk[2 + r] += Hash3[r]; } for(r = 0; r < 7; r++) { cw[r] = hk[2 + (r >> 1)] >> ((r & 1) << 3); } cw[3] = (cw[0] + cw[1] + cw[2]) & 0xFF; cw[7] = (cw[4] + cw[5] + cw[6]) & 0xFF; rdr_log_dump_dbg(reader, D_READER, cw, 8, "Postprocessed Case 1 DW:"); break; } case 3: { memset(buffer, 0, sizeof(buffer)); memcpy(buffer, cw, 8); memcpy(buffer + 8, &ecm_header_data[ecmi + 3], ecm_header_data[ecmi] & 0x7D); MD5(buffer, 8 + (ecm_header_data[ecmi] & 0x7D), md5tmp); memcpy(cw, md5tmp, 8); rdr_log_dump_dbg(reader, D_READER, cw, 8, "Postprocessed Case 3 DW:"); break; } case 2: { // Method 2 left out //memcpy(DW_OUTPUT, DW_INPUT, 8); break; } } } } } static void vg2_read_tiers(struct s_reader *reader) { uint8_t cta_res[CTA_RES_LEN]; struct videoguard_data *csystem_data = reader->csystem_data; if(reader->readtiers == 1) { uint8_t ins707f[5] = { 0xD1, 0x70, 0x00, 0x7f, 0x02 }; if(do_cmd(reader, ins707f, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins707f: failed to get number of classes supported"); } else { cs_clear_entitlement(reader); rdr_log(reader, "------------------------------------------------------------------"); rdr_log(reader, "|- class -|-- tier --|----- valid to ------|--- package name ----|"); rdr_log(reader, "+---------+----------+---------------------+---------------------+"); if((reader->VgFuse & 5) == 0) { rdr_log(reader, "|------- This card is not active, so no package available! ------|"); } uint32_t TierClass, ClassSupported; ClassSupported = cta_res[1]; uint8_t ins70[5] = { 0xD1, 0x70, 0x00, 0x00, 0x00 }; for(TierClass = 0; TierClass < ClassSupported; TierClass++) { ins70[2] = TierClass; if(do_cmd(reader, ins70, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins70: failed to get tiers for class %02X", TierClass); } else { char tiername[83]; uint32_t word; uint32_t bitnum; uint32_t tier_id; struct tm timeinfo; memset(&timeinfo, 0, sizeof(struct tm)); time_t start_t = 0, end_t; if(cta_res[1] > 0x23) { rev_date_calc_tm(&cta_res[38], &timeinfo, csystem_data->card_baseyear); start_t = mktime(&timeinfo); } rev_date_calc_tm(&cta_res[34], &timeinfo, csystem_data->card_baseyear); end_t = mktime(&timeinfo); for(word = 0; word < 32; word += 2) { for (bitnum = 0; bitnum < 8; bitnum++) { if((cta_res[word + 2] >> bitnum) & 1) { tier_id = 0; tier_id = ((TierClass << 8) + (word << 3) + bitnum); cs_add_entitlement(reader, reader->caid, b2ll(4, reader->prid[0]), tier_id, TierClass, start_t, end_t, 4, 1); rdr_log(reader, "|-- %02x ---|-- %04x --| %04d/%02d/%02d-%02d:%02d:%02d | %s", TierClass, tier_id, timeinfo.tm_year + 1900, timeinfo.tm_mon + 1, timeinfo.tm_mday, timeinfo.tm_hour, timeinfo.tm_min, timeinfo.tm_sec, get_tiername(tier_id, reader->caid, tiername)); } if((cta_res[word + 1 + 2] >> bitnum) & 1) { tier_id = 0; tier_id = ((TierClass << 8) + (word << 3) + bitnum + 8); cs_add_entitlement(reader, reader->caid, b2ll(4, reader->prid[0]), tier_id, TierClass, start_t, end_t, 4, 1); rdr_log(reader, "|-- %02x ---|-- %04x --| %04d/%02d/%02d-%02d:%02d:%02d | %s", TierClass, tier_id, timeinfo.tm_year + 1900, timeinfo.tm_mon + 1, timeinfo.tm_mday, timeinfo.tm_hour, timeinfo.tm_min, timeinfo.tm_sec, get_tiername(tier_id, reader->caid, tiername)); } } } } } } rdr_log(reader, "------------------------------------------------------from-ins70--"); } else if(reader->readtiers == 2) { int32_t l; // ins2a is not needed and causes an error on some cards eg Sky Italy 09CD // check if ins2a is in command table before running it static const uint8_t ins2a[5] = { 0xD1, 0x2a, 0x00, 0x00, 0x00 }; if(cmd_exists(reader, ins2a)) { l = do_cmd(reader, ins2a, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "classD1 ins2a: failed"); return; } } static const uint8_t ins76007f[5] = { 0xD1, 0x76, 0x00, 0x7f, 0x02 }; l = do_cmd(reader, ins76007f, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + 2)) { rdr_log(reader, "classD1 ins76007f: failed"); return; } int32_t num = cta_res[1]; int32_t i; uint8_t ins76[5] = { 0xD1, 0x76, 0x00, 0x00, 0x00 }; // some cards start real tiers info in middle of tier info // and have blank tiers between old tiers and real tiers eg 09AC int32_t starttier = csystem_data->card_tierstart; bool stopemptytier = 1; if(!starttier) { stopemptytier = 0; } // check to see if specified start tier is blank and if blank, start at 0 and ignore blank tiers ins76[2] = starttier; l = do_cmd(reader, ins76, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { return; } if(cta_res[2] == 0 && cta_res[3] == 0) { stopemptytier = 0; starttier = 0; } cs_clear_entitlement(reader); // reset the entitlements rdr_log(reader, "------------------------------------------------------------------"); rdr_log(reader, "|- class -|-- tier --|----- valid to ------|--- package name ----|"); rdr_log(reader, "+---------+----------+---------------------+---------------------+"); if((reader->VgFuse&5) == 0) { rdr_log(reader, "|------- This card is not active, so no package available! ------|"); } for(i = starttier; i < num; i++) { ins76[2] = i; l = do_cmd(reader, ins76, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { return; } if(cta_res[2] == 0 && cta_res[3] == 0 && stopemptytier) { return; } if(cta_res[2] != 0 || cta_res[3] != 0) { char tiername[83]; uint16_t tier_id = (cta_res[2] << 8) | cta_res[3]; // add entitlements to list struct tm timeinfo; memset(&timeinfo, 0, sizeof(struct tm)); rev_date_calc_tm(&cta_res[4], &timeinfo, csystem_data->card_baseyear); cs_add_entitlement(reader, reader->caid, b2ll(4, reader->prid[0]), tier_id, 0, 0, mktime(&timeinfo), 4, 1); if(!stopemptytier) { rdr_log_dbg(reader, D_READER, "tier: %04x, tier-number: 0x%02x", tier_id, i); } rdr_log(reader, "|-- %02x ---|-- %04x --| %04d/%02d/%02d-%02d:%02d:%02d | %s", cta_res[2], tier_id, timeinfo.tm_year + 1900, timeinfo.tm_mon + 1, timeinfo.tm_mday, timeinfo.tm_hour, timeinfo.tm_min, timeinfo.tm_sec, get_tiername(tier_id, reader->caid, tiername)); } } rdr_log(reader, "------------------------------------------------------from-ins76--"); } else if(reader->readtiers == 0) { rdr_log(reader, "------------------------------------------------------------------"); rdr_log(reader, "|--- The reading of the tiers is disabled by the configuration --|"); rdr_log(reader, "------------------------------------------------------------------"); } } void videoguard2_poll_status(struct s_reader *reader) { const time_t poll_interval = 12; // less is better time_t now = time(0); int32_t i; if(now >= reader->last_poll + poll_interval) { static const uint8_t ins5C[5] = { 0xD1, 0x5C, 0x00, 0x00, 0x04 }; uint8_t cta_res[CTA_RES_LEN]; int32_t l; l = do_cmd(reader, ins5C, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "classD1 ins5C: failed"); } else { switch (cta_res[1]) { case 0x14: // loc_43C250 { static const uint8_t ins4Ca[5] = { 0xD1, 0x4C, 0x00, 0x00, 0x00 }; l = do_cmd(reader, ins4Ca, reader->payload4C, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins4Ca: failed"); } if(reader->ins7E[0x1A]) { static const uint8_t ins7E[5] = { 0xD1, 0x7E, 0x10, 0x00, 0x1A }; l = do_cmd(reader, ins7E, reader->ins7E, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins7E: failed"); } } if(reader->ins2e06[4]) { static const uint8_t ins2e06[5] = { 0xD1, 0x2E, 0x06, 0x00, 0x04 }; l = do_cmd(reader, ins2e06, reader->ins2e06, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins2E: failed"); } } static const uint8_t ins58a[5] = { 0xD1, 0x58, 0x00, 0x00, 0x00 }; if((do_cmd(reader, ins58a, NULL, NULL, cta_res) < 0)) { rdr_log(reader, "classD1 ins58: failed"); } reader->VgFuse = cta_res[2]; static const uint8_t ins7403a[5] = { 0xD1, 0x74, 0x03, 0x00, 0x00 }; if((do_cmd(reader, ins7403a, NULL, NULL, cta_res) < 0)) { rdr_log(reader, "classD1 ins7403a: failed"); } else { if(((cta_res[2] >> 5) & 1)) { static const uint8_t ins7423[5] = { 0xD3, 0x74, 0x23, 0x00, 0x00 }; if(do_cmd(reader, ins7423, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins7423: failed"); } } } break; } case 0xB: // .text:000000000043C050 { uint8_t ins5E[5] = { 0xD1,0x5E,0x00,0x00,0x00 }; ins5E[2] = cta_res[2]; ins5E[3] = cta_res[1]; ins5E[4] = cta_res[3]; l = do_cmd(reader, ins5E, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "Ins5E: failed"); } uint8_t ins78[5] = { 0xD1, 0x78, 0x00, 0x00, 0x18 }; ins78[2] = cta_res[0]; l = do_cmd(reader, ins78, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "classD1 ins78: failed"); } uint8_t ins32[5] = { 0xD1, 0x32, 0x00, 0x00, 0x01 }; const uint8_t payload32[1] = { 0x25 }; l = do_cmd(reader, ins32, payload32, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "classD1 ins32: failed"); } break; } case 0x0C: // loc_43C13F { uint8_t ins5E[5] = { 0xD1,0x5E,0x00,0x00,0x00 }; ins5E[2] = cta_res[2]; ins5E[3] = cta_res[1]; ins5E[4] = cta_res[3]; l = do_cmd(reader, ins5E, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "Ins5E: failed"); } else { uint8_t ins36[5] = { 0xD1, 0x36, 0x00, 0x00, 0x00 }; ins36[4] = cta_res[1]; for (i = 0; i <= cta_res[0]; i++) { ins36[3] = i; l = do_cmd(reader, ins36, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "Ins36: failed"); } } } break; } case 0x10: // loc_43C203 { uint8_t ins7411[5] = { 0xD3,0x74,0x11,0x00,0x00 }; l = read_cmd_len(reader, ins7411); ins7411[4] = l + 0x10; l = do_cmd(reader, ins7411, NULL, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD3 ins7411: failed"); } break; } case 0x00: // normal state { break; } default: { rdr_log(reader, "unknown ins5C state: %02X %02X %02X %02X", cta_res[0], cta_res[1], cta_res[2], cta_res[3]); break; } } } reader->last_poll = now; } } static int32_t videoguard2_card_init(struct s_reader *reader, ATR *newatr) { get_hist; if((hist_size < 7) || (hist[1] != 0xB0) || (hist[4] != 0xFF) || (hist[5] != 0x4A) || (hist[6] != 0x50)) { rdr_log_dbg(reader, D_READER, "failed history check"); return ERROR; } rdr_log_dbg(reader, D_READER, "passed history check"); get_atr; def_resp; if(!cs_malloc(&reader->csystem_data, sizeof(struct videoguard_data))) { return ERROR; } struct videoguard_data *csystem_data = reader->csystem_data; // set information on the card stored in reader-videoguard-common.c set_known_card_info(reader, atr, &atr_size); if((reader->ndsversion != NDS2) && (((csystem_data->card_system_version != NDS2) && (csystem_data->card_system_version != NDSUNKNOWN)) || (reader->ndsversion != NDSAUTO))) { /* known ATR and not NDS2 or known NDS2 ATR and forced to another NDS version */ return ERROR; } rdr_log_dbg(reader, D_READER, "type: %s, baseyear: %i", csystem_data->card_desc, csystem_data->card_baseyear); if(reader->ndsversion == NDS2) { rdr_log_dbg(reader, D_READER, "forced to NDS2"); } // a non videoguard2/NDS2 card will fail on read_cmd_len(ins7401) // this way unknown videoguard2/NDS2 cards will also pass this check uint8_t ins7401[5] = { 0xD0, 0x74, 0x01, 0x00, 0x00 }; int32_t l; if((l = read_cmd_len(reader, ins7401)) < 0) // not a videoguard2/NDS card or communication error { return ERROR; } ins7401[4] = l; if(!write_cmd_vg(ins7401, NULL) || !status_ok(cta_res + l)) { rdr_log(reader, "classD0 ins7401: failed - cmd list not read"); return ERROR; } memorize_cmd_table(reader, cta_res, l); uint8_t buff[256]; static const uint8_t ins02[5] = { 0xD0, 0x02, 0x00, 0x00, 0x08 }; // D0 02 command is not always present in command table but should be supported // on most cards so do not use do_cmd() if(!write_cmd_vg(ins02, NULL) || !status_ok(cta_res + 8)) { rdr_log(reader, "Unable to get NDS ROM version."); } else { int i; for(i = 0; i < 8; i++) { if(cta_res[i] <= 0x09) { cta_res[i] = cta_res[i] + 0x30; } else if(!isalnum(cta_res[i])) { cta_res[i] = '*'; } } memset(reader->rom, 0, sizeof(reader->rom)); memcpy(reader->rom, cta_res, 4); reader->rom[4] = '-'; memcpy(reader->rom + 5, cta_res + 4, 4); rdr_log(reader, "Card type: %c%c%c%c", reader->rom[0], reader->rom[1], reader->rom[2], reader->rom[3]); rdr_log(reader, "Rom version: %c%c%c%c", reader->rom[5], reader->rom[6], reader->rom[7], reader->rom[8]); } // get Vg credit on card uint8_t ins7404[5] = { 0xD0, 0x74, 0x04, 0x00, 0x00 }; if((l = read_cmd_len(reader, ins7404)) > 0) // get command len for ins7404 { ins7404[4] = l; if(!write_cmd_vg(ins7404, NULL) || !status_ok(cta_res + l)) { rdr_log(reader, "classD0 ins7404: failed"); } else { if(cta_res[0] == 0x15) { reader->VgCredit = ((cta_res[8] << 8) + cta_res[9]) / 100; rdr_log(reader, "Credit available on card: %i euro", reader->VgCredit); } } } else // case V13 { rdr_log(reader, "Unable to get smartcard credit"); } static const uint8_t ins7416[5] = { 0xD0, 0x74, 0x16, 0x00, 0x00 }; if(do_cmd(reader, ins7416, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD0 ins7416: failed"); return ERROR; } uint8_t boxID [4]; if(reader->boxid > 0) { // the boxid is specified in the config int32_t i; for(i = 0; i < 4; i++) { boxID[i] = (reader->boxid >> (8 * (3 - i))) % 0x100; } } else { uint8_t ins36[5] = { 0xD0, 0x36, 0x00, 0x00, 0x00 }; static const uint8_t ins5e[5] = { 0xD0, 0x5E, 0x00, 0x0C, 0x02 }; // we can try to get the boxid from the card int32_t boxidOK = 0; l = read_cmd_len(reader, ins36); if(l > 0) { ins36[4] = l; } else if(cmd_exists(reader, ins5e)) { if(!write_cmd_vg(ins5e, NULL) || !status_ok(cta_res + 2)) { rdr_log(reader, "classD0 ins5e: failed"); } else { ins36[3] = cta_res[0]; ins36[4] = cta_res[1]; } } l = ins36[4]; if(!write_cmd_vg(ins36, NULL) || !status_ok(cta_res + l)) { rdr_log(reader, "classD0 ins36: failed"); return ERROR; } memcpy(buff, ins36, 5); memcpy(buff + 5, cta_res, l); memcpy(buff + 5 + l, cta_res + l, 2); if(l < 13) { rdr_log(reader, "classD0 ins36: answer too int16"); } else if(buff[7] > 0x0F) { rdr_log(reader, "classD0 ins36: encrypted - can't parse"); } else { // skipping the initial fixed fields: cmdecho (4) + length (1) + encr/rev++ (4) int32_t i = 9; int32_t gotUA = 0; while(i < l) { if(!gotUA && buff[i] < 0xF0) // then we guess that the next 4 bytes is the UA { gotUA = 1; i += 4; } else { switch(buff[i]) // object length vary depending on type { case 0x00: // padding i += 1; break; case 0xEF: // card status i += 3; break; case 0xD1: i += 4; break; case 0xDF: // next server contact i += 5; break; case 0xF3: // boxID memcpy(boxID, buff + i + 1, sizeof(boxID)); boxidOK = 1; i += 5; break; case 0xF6: i += 6; break; case 0x01: // date & time i += 7; break; case 0xFA: i += 9; break; case 0x5E: case 0x67: // signature case 0xDE: case 0xE2: case 0xE9: // tier dates case 0xF8: // Old PPV Event Record case 0xFD: i += buff[i + 1] + 2; // skip length + 2 bytes (type and length) break; default: // default to assume a length byte rdr_log(reader, "classD0 ins36: returned unknown type=0x%02X - parsing may fail", buff[i]); i += buff[i + 1] + 2; } } } } if(!boxidOK) { rdr_log(reader, "no boxID available"); return ERROR; } } uint8_t ins4C[5] = { 0xD0, 0x4C, 0x00, 0x00, 0x09 }; uint8_t len4c = 0, mode = 0; uint8_t payload4C[0xF] = { 0x00, 0x00, 0x00, 0x00, 0x03, 0x00, 0x00, 0x00, 0x44, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; if(cmd_table_get_info(reader, ins4C, &len4c, &mode)) { ins4C[4] = len4c; // don't mind if payload is > of ins len, it will be cutted after write_cmd_vg() if(len4c > 9) { rdr_log_dbg(reader, D_READER, "extended ins4C detected"); } } memcpy(payload4C, boxID, 4); if(!write_cmd_vg(ins4C, payload4C)) { rdr_log(reader, "classD0 ins4C: failed - sending boxid failed"); return ERROR; } int d37423_ok = 0; static const uint8_t ins7403[5] = { 0xD0, 0x74, 0x03, 0x00, 0x00 }; // taken from v13 boot log if(do_cmd(reader, ins7403, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD0 ins7403: failed"); } else { d37423_ok = (cta_res[2] >> 5) & 1; } if(reader->ins7E11[0x01]) // the position of the ins7E is taken from v13 log { uint8_t ins742b[5] = { 0xD0, 0x74, 0x2b, 0x00, 0x00 }; l = read_cmd_len(reader, ins742b); // get command len for ins742b if(l < 2) { rdr_log(reader, "No TA1 change for this card is possible by ins7E11"); } else { ins742b[4] = l; bool ta1ok = 0; if(!write_cmd_vg(ins742b, NULL) || !status_ok(cta_res + ins742b[4])) // get supported TA1 bytes { rdr_log(reader, "classD0 ins742b: failed"); return ERROR; } else { int32_t i; for(i = 2; i < l; i++) { if(cta_res[i] == reader->ins7E11[0x00]) { ta1ok = 1; break; } } } if(ta1ok == 0) { rdr_log(reader, "The value %02X of ins7E11 is not supported,try one between %02X and %02X", reader->ins7E11[0x00], cta_res[2], cta_res[ins742b[4] - 1]); } else { static const uint8_t ins7E11[5] = { 0xD0, 0x7E, 0x11, 0x00, 0x01 }; reader->ins7e11_fast_reset = 0; l = do_cmd(reader, ins7E11, reader->ins7E11, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD0 ins7E11: failed"); return ERROR; } else { uint8_t TA1; if(ATR_GetInterfaceByte(newatr, 1, ATR_INTERFACE_BYTE_TA, &TA1) == ATR_OK) { if(TA1 != reader->ins7E11[0x00]) { rdr_log(reader, "classD0 ins7E11: Scheduling card reset for TA1 change from %02X to %02X", TA1, reader->ins7E11[0x00]); reader->ins7e11_fast_reset = 1; #if defined(WITH_COOLAPI) || defined(WITH_COOLAPI2) if(reader->typ == R_MOUSE || reader->typ == R_SC8in1 || reader->typ == R_SMART || reader->typ == R_INTERNAL) { #else if(reader->typ == R_MOUSE || reader->typ == R_SC8in1 || reader->typ == R_SMART) { #endif add_job(reader->client, ACTION_READER_RESET_FAST, NULL, 0); } else { add_job(reader->client, ACTION_READER_RESTART, NULL, 0); } return OK; // Skip the rest of the init since the card will be reset anyway } } } } } } //int16_t int32_t SWIRDstatus = cta_res[1]; static const uint8_t ins58[5] = { 0xD0, 0x58, 0x00, 0x00, 0x00 }; l = do_cmd(reader, ins58, NULL, NULL, cta_res); if(l < 0) { rdr_log(reader, "classD0 ins58: failed"); return ERROR; } memset(reader->hexserial, 0, 8); memcpy(reader->hexserial + 2, cta_res + 3, 4); memcpy(reader->sa, cta_res + 3, 3); reader->caid = cta_res[24] * 0x100 + cta_res[25]; reader->VgFuse = cta_res[2]; rdr_log(reader, "FuseByte: %02X", reader->VgFuse); memset(reader->VgRegionC, 0, 8); memcpy(reader->VgRegionC, cta_res + 60, 8); rdr_log(reader, "Region Code: %c%c%c%c%c%c%c%c", reader->VgRegionC[0], reader->VgRegionC[1], reader->VgRegionC[2], reader->VgRegionC[3], reader->VgRegionC[4], reader->VgRegionC[5], reader->VgRegionC[6], reader->VgRegionC[7]); memset(reader->VgCountryC, 0, 3); memcpy(reader->VgCountryC, cta_res + 55, 3); rdr_log(reader, "Country Code: %c%c%c", reader->VgCountryC[0], reader->VgCountryC[1], reader->VgCountryC[2]); // we have one provider, 0x0000 reader->nprov = 1; memset(reader->prid, 0x00, sizeof(reader->prid)); cCamCryptVG_SetSeed(reader); static const uint8_t insB4[5] = { 0xD0, 0xB4, 0x00, 0x00, 0x40 }; uint16_t tbuff[32]; cCamCryptVG_GetCamKey(reader, tbuff); l = do_cmd(reader, insB4, (uint8_t *)tbuff, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD0 insB4: failed"); return ERROR; } static const uint8_t insBC[5] = { 0xD0, 0xBC, 0x00, 0x00, 0x00 }; l = do_cmd(reader, insBC, NULL, NULL, cta_res); if(l < 0) { rdr_log(reader, "classD0 insBC: failed"); return ERROR; } // Class D1/D3 instructions only work after this point static const uint8_t insBE[5] = { 0xD3, 0xBE, 0x00, 0x00, 0x00 }; l = do_cmd(reader, insBE, NULL, NULL, cta_res); if(l < 0) { rdr_log(reader, "classD3 insBE: failed"); return ERROR; } static const uint8_t ins58a[5] = { 0xD1, 0x58, 0x00, 0x00, 0x00 }; l = do_cmd(reader, ins58a, NULL, NULL, cta_res); if(l < 0) { rdr_log(reader, "classD1 ins58: failed"); return ERROR; } // new ins74 present at boot if(d37423_ok) // from ins7403 answer { static const uint8_t ins7423[5] = { 0xD3, 0x74, 0x23, 0x00, 0x00 }; if(do_cmd(reader, ins7423, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins7423: failed"); } } /* static const uint8_t ins742A[5] = { 0xD1, 0x74, 0x2A, 0x00, 0x00 }; if(do_cmd(reader, ins742A, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins742A: failed"); } static const uint8_t ins741C[5] = { 0xD1, 0x74, 0x1C, 0x00, 0x00 }; if(do_cmd(reader, ins741C, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins741C: failed"); } */ static const uint8_t ins4Ca[5] = { 0xD1, 0x4C, 0x00, 0x00, 0x00 }; payload4C[4] = 0x83; l = do_cmd(reader, ins4Ca, payload4C, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins4Ca: failed"); return ERROR; } memcpy(reader->payload4C, payload4C, 0xF); if(reader->ins7E[0x1A]) { static const uint8_t ins7E[5] = { 0xD1, 0x7E, 0x10, 0x00, 0x1A }; l = do_cmd(reader, ins7E, reader->ins7E, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins7E: failed"); return ERROR; } } // get PIN settings static const uint8_t ins7411[5] = { 0xD1, 0x74, 0x11, 0x00, 0x00 }; uint8_t payload2e4[4]; if(do_cmd(reader, ins7411, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins7411: unable to get PIN"); return ERROR; } else { memset(payload2e4, 0, 4); memcpy(payload2e4, cta_res + 2, 4); reader->VgPin = (cta_res[4] << 8) + cta_res[5]; rdr_log(reader, "Pincode read: %04hu", reader->VgPin); } // get PCB(content rating) settings static const uint8_t ins74e[5] = { 0xD1, 0x74, 0x0E, 0x00, 0x00 }; if(do_cmd(reader, ins74e, NULL, NULL, cta_res) < 0) { rdr_log(reader, "classD1 ins74e: failed to get PCB settings"); } else { rdr_log(reader, "PCB settings: %X %X %X %X", cta_res[2], cta_res[3], cta_res[4], cta_res[5]); } // send PIN static const uint8_t ins2epin[5] = { 0xD1, 0x2E, 0x04, 0x00, 0x04 }; if(cfg.ulparent) { l = do_cmd(reader, ins2epin, payload2e4, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins2E: failed"); rdr_log(reader, "Cannot disable parental control"); return ERROR; } else { rdr_log(reader, "Parental control disabled"); } } // send check control for pin, needed on some cards // the presence and the value of payloads is provider's dependent*/ if(reader->ins2e06[4]) { static const uint8_t ins2e06[5] = { 0xD1, 0x2E, 0x06, 0x00, 0x04 }; l = do_cmd(reader, ins2e06, reader->ins2e06, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins2E: failed"); return ERROR; } } // fix for 09ac cards uint8_t dimeno_magic[0x10] = { 0xF9, 0xFB, 0xCD, 0x5A, 0x76, 0xB5, 0xC4, 0x5C, 0xC8, 0x2E, 0x1D, 0xE1, 0xCC, 0x5B, 0x6B, 0x02 }; int32_t a; for(a = 0; a < 4; a++) { dimeno_magic[a] = dimeno_magic[a] ^ boxID[a]; } AES_set_decrypt_key(dimeno_magic, 128, &(csystem_data->astrokey)); rdr_log(reader, "type: %s, caid: %04X", csystem_data->card_desc, reader->caid); rdr_log_sensitive(reader, "serial: {%02X%02X%02X%02X}, BoxID: {%02X%02X%02X%02X}, baseyear: %i", reader->hexserial[2], reader->hexserial[3], reader->hexserial[4], reader->hexserial[5], boxID[0], boxID[1], boxID[2], boxID[3], csystem_data->card_baseyear); rdr_log(reader, "ready for requests"); return OK; } static int32_t videoguard2_do_ecm(struct s_reader *reader, const ECM_REQUEST *er, struct s_ecm_answer *ea) { uint8_t cta_res[CTA_RES_LEN]; static const char valid_ecm[] = { 0x00, 0x00, 0x01 }; uint8_t ins40[5] = { 0xD1, 0x40, 0x00, 0x80, 0xFF }; static const uint8_t ins54[5] = { 0xD3, 0x54, 0x00, 0x00, 0x00}; int32_t posECMpart2 = er->ecm[6] + 7; int32_t lenECMpart2 = er->ecm[posECMpart2] + 1; uint8_t tbuff[264], rbuff[264]; const uint8_t *EcmIrdHeader = er->ecm + 5; tbuff[0] = 0; memset(ea->cw + 0, 0, 16); // set cw to 0 so client will know it is invalid unless it is overwritten with a valid cw int32_t chk; chk = checksum_ok(EcmIrdHeader); if((memcmp(&(er->ecm[3]), valid_ecm, sizeof(valid_ecm)) != 0) || (chk == 0)) { rdr_log(reader, "Not a valid ecm"); return E_CORRUPT; } memcpy(tbuff + 1, er->ecm + posECMpart2 + 1, lenECMpart2 - 1); int32_t new_len = lenECMpart2; if(reader->fix_9993 && reader->caid == 0x919 && tbuff[1] == 0x7F) { tbuff[1] = 0x47; tbuff[2] = 0x08; memmove(tbuff + 11, tbuff + 13, new_len - 11); new_len -= 2; } ins40[4] = new_len; int32_t l; l = do_cmd(reader, ins40, tbuff, NULL, cta_res); if(l < 0 || !status_ok(cta_res)) { rdr_log(reader, "classD1 ins40: (%d) status not ok %02x %02x", l, cta_res[0], cta_res[1]); rdr_log(reader, "The card is not answering correctly! Restarting reader for safety"); add_job(reader->client, ACTION_READER_RESTART, NULL, 0); return ERROR; } else { l = do_cmd(reader, ins54, NULL, rbuff, cta_res); if(l < 0 || !status_ok(cta_res + l)) { rdr_log(reader, "classD3 ins54: (%d) status not ok %02x %02x", l, cta_res[0], cta_res[1]); rdr_log(reader, "The card is not answering correctly! Restarting reader for safety"); add_job(reader->client, ACTION_READER_RESTART, NULL, 0); return ERROR; } else { struct videoguard_data *csystem_data = reader->csystem_data; uint8_t *payload = rbuff + 5; uint8_t buff_0F[6] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; uint8_t buff_56[8] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; uint8_t buff_55[1] = { 0x00 }; uint8_t tag, t_len; uint8_t *t_body; int32_t payloadLen = rbuff[4]; int32_t ind = 8 + 6; // +8 (CW1), +2 (cw checksum) + 2 (tier used) +2 (result byte) while(ind < payloadLen) { tag = payload[ind]; t_len = payload[ind + 1]; // len of the tag t_body = payload + ind + 2; // body of the tag switch(tag) { case 0x0F: // Debug ecm info if(t_len > 6) { t_len = 6; } memcpy(buff_0F, t_body, t_len); break; case 0x25: // CW2 tag memcpy(ea->cw + 8, t_body +1, 8); break; case 0x55: // cw crypt info tag memcpy(buff_55, t_body, 1 ); break; case 0x56: // tag data for astro memcpy(buff_56, t_body, 8); break; default: break; } ind += t_len + 2; } if(12 < payloadLen) { ea->tier = b2i(2, &payload[10]); } memcpy(reader->VgLastPayload, buff_0F, 6); int32_t test_0F = 1; if(!cw_is_valid(rbuff + 5)) // sky cards report 90 00 = ok but send cw = 00 when something goes wrong :( { if(buff_0F[0] & 1) // case 0f_0x 01 xx xx xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> Bad/wrong ECM"); test_0F = 0; } if(buff_0F[1] & 1) // case 0f_0x xx 01 xx xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> Card appears in error"); test_0F = 0; } if((buff_0F[0] >> 1) & 1) // case 0f_0x 02 xx xx xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> Card isn't active"); test_0F = 0; } else // These Messages are only nessensary if the Card is active { if((buff_0F[1] >> 4) & 1) // case 0f_0x xx 10 xx xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> Card needs pairing/extra data"); if((reader->caid == 0x98C || reader->caid == 0x98D) && (buff_0F[5] == 0)){ //case 0f_0x xx 10 xx xx xx 00 rdr_log(reader, "classD3 ins54: no cw --> unassigned Boxid"); } test_0F = 0; } if((buff_0F[1] >> 5) & 1) // case 0f_0x xx 20 xx xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> No tier found"); //check this test_0F = 0; } if((buff_0F[2] >> 5) & 1) // case 0f_0x xx xx 20 xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> Tier expired"); test_0F = 0; } if((buff_0F[1] >> 6) & 1) // case 0f_0x xx 40 xx xx xx xx { rdr_log(reader, "classD3 ins54: no cw --> Card needs pin"); test_0F = 0; } if((reader->caid == 0x98C || reader->caid == 0x98D) && ((buff_0F[5] >> 3) & 1)) //case 0f_0x xx xx xx xx xx XX = binary xxxx1xxx { rdr_log(reader, "classD3 ins54: no cw --> CW-overcrypt%s is required! (Debug-ECM-Info: 0F_06 %02X %02X %02X %02X %02X %02X)", (((buff_0F[5] >> 1) & 1) ? " (and assignment)" : ""), buff_0F[0], buff_0F[1], buff_0F[2], buff_0F[3], buff_0F[4], buff_0F[5]); //case 0f_0x xx xx xx xx xx XX = binary xxxx1x?x } } if(test_0F) // case unknown error { rdr_log(reader, "classD3 ins54: status 90 00 = ok but cw=00 tag 0F: %02X %02X %02X %02X %02X %02X, please report to the developers with decrypted ins54", buff_0F[0], buff_0F[1], buff_0F[2], buff_0F[3], buff_0F[4], buff_0F[5]); } return ERROR; } // copy cw1 in place memcpy(ea->cw + 0, rbuff + 5, 8); // case 55_01 xx where bit0==1, CW is crypted if(buff_55[0] & 1) { if((buff_55[0] >> 3) & 1) //case 55_01 xx where bit3==1, CW-Overcrypt may not required { rdr_log_dbg(reader, D_READER, "classD3 ins54: Tag55_01 = %02X, CW-overcrypt may not required", buff_55[0]); } if(~((buff_55[0] >> 2) & 1)) //case 55_01 xx where bit2==0, no AES overcrypt { if((buff_55[0] >> 1) & 1) //case 55_01 xx where bit1==1, unique Pairing { rdr_log_dbg(reader, D_READER, "classD3 ins54: CW is crypted, trying to decrypt unique pairing mode 0x%02X", buff_55[0]); if(er->ecm[0] & 1){ //log crypted CW rdr_log_dbg(reader, D_READER, "crypted CW is: 0000000000000000%02X%02X%02X%02X%02X%02X%02X%02X", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } else { rdr_log_dbg(reader, D_READER, "crypted CW is: %02X%02X%02X%02X%02X%02X%02X%02X0000000000000000", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } if((reader->k1_unique[16] == 0x08) || (reader->k1_unique[16] == 0x10)) //check k1 for unique pairing mode is DES(8 bytes) or 3DES(16 bytes) long { if(reader->k1_unique[16] == 0x08){ rdr_log_dbg(reader, D_READER, "use k1(DES) for CW decryption in unique pairing mode"); des_ecb_decrypt(ea->cw, reader->k1_unique, 0x08); } else { rdr_log_dbg(reader, D_READER, "use k1(3DES) for CW decryption in unique pairing mode"); des_ecb3_decrypt(ea->cw, reader->k1_unique); } if(er->ecm[0] & 1){ //log decrypted CW rdr_log_dbg(reader, D_READER, "decrypted CW is: 0000000000000000%02X%02X%02X%02X%02X%02X%02X%02X", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } else { rdr_log_dbg(reader, D_READER, "decrypted CW is: %02X%02X%02X%02X%02X%02X%02X%02X0000000000000000", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } } else { rdr_log_dbg(reader, D_READER, "k1 for unique pairing mode is not set"); return ERROR; } } else //case 55_01 xx where bit1==0, generic Pairing { rdr_log_dbg(reader, D_READER, "classD3 ins54: CW is crypted, trying to decrypt generic pairing mode 0x%02X", buff_55[0]); if(er->ecm[0] & 1){ //log crypted CW rdr_log_dbg(reader, D_READER, "crypted CW is: 0000000000000000%02X%02X%02X%02X%02X%02X%02X%02X", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } else { rdr_log_dbg(reader, D_READER, "crypted CW is: %02X%02X%02X%02X%02X%02X%02X%02X0000000000000000", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } if((reader->k1_generic[16] == 0x08) || (reader->k1_generic[16] == 0x10)) //check k1 for generic pairing mode is DES(8 bytes) or 3DES(16 bytes) long { if(reader->k1_generic[16] == 0x08){ rdr_log_dbg(reader, D_READER, "use k1(DES) for CW decryption in generic pairing mode"); des_ecb_decrypt(ea->cw, reader->k1_generic, 0x08); } else { rdr_log_dbg(reader, D_READER, "use k1(3DES) for CW decryption in generic pairing mode"); des_ecb3_decrypt(ea->cw, reader->k1_generic); } if(er->ecm[0] & 1){ //log decrypted CW rdr_log_dbg(reader, D_READER, "decrypted CW is: 0000000000000000%02X%02X%02X%02X%02X%02X%02X%02X", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } else { rdr_log_dbg(reader, D_READER, "decrypted CW is: %02X%02X%02X%02X%02X%02X%02X%02X0000000000000000", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } } else { rdr_log_dbg(reader, D_READER, "k1 for generic pairing mode is not set"); return ERROR; } } } else //unkown pairing mode or AES overcrypt { rdr_log_dbg(reader, D_READER, "classD3 ins54: CW is crypted, unknown pairing mode 0x%02X, AES overcrypt?", buff_55[0]); if(er->ecm[0] & 1){ //log crypted CW rdr_log_dbg(reader, D_READER, "crypted CW is: 0000000000000000%02X%02X%02X%02X%02X%02X%02X%02X", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } else { rdr_log_dbg(reader, D_READER, "crypted CW is: %02X%02X%02X%02X%02X%02X%02X%02X0000000000000000", ea->cw[0], ea->cw[1], ea->cw[2], ea->cw[3], ea->cw[4], ea->cw[5], ea->cw[6], ea->cw[7]); } return ERROR; } } // case 55_01 xx where bit2==1, old dimeno_PostProcess_Decrypt(reader, rbuff, ea->cw); if((buff_55[0] >> 2) & 1) { uint8_t buffer[0x10]; memcpy(buffer, rbuff + 5, 8); memcpy(buffer + 8, buff_56, 8); AES_decrypt(buffer, buffer, &(csystem_data->astrokey)); memcpy(ea->cw + 0, buffer, 8); // copy calculated CW in right place } if(new_len != lenECMpart2) { memcpy(ea->cw, ea->cw + 8, 8); memset(ea->cw + 8, 0, 8); } // test for postprocessing marker int32_t posB0 = -1; int32_t i; for(i = 6; i < posECMpart2; i++) { if(er->ecm[i - 3] == 0x80 && er->ecm[i] == 0xB0 && ((er->ecm[i + 1] == 0x01) || (er->ecm[i + 1] == 0x02) || (er->ecm[i + 1] == 0x03))) { posB0 = i; break; } } if(posB0 != -1 && (reader->caid == 0x919 || reader->caid == 0x93B || reader->caid == 0x9CD || reader->caid == 0x9C1)) { do_post_dw_hash(reader, ea->cw + 0, &er->ecm[posB0 - 2]); do_post_dw_hash(reader, ea->cw + 8, &er->ecm[posB0 - 2]); } if(reader->caid == 0x0907) // quickfix: cw2 is not a valid cw, something went wrong before { memset(ea->cw + 8, 0, 8); if(er->ecm[0] & 1) { memcpy(ea->cw + 8, ea->cw, 8); memset(ea->cw, 0, 8); } } else { if(er->ecm[0] & 1) { uint8_t tmpcw[8]; memcpy(tmpcw, ea->cw + 8, 8); memcpy(ea->cw + 8, ea->cw + 0, 8); memcpy(ea->cw + 0, tmpcw, 8); } } return OK; } } } static int32_t videoguard2_do_emm(struct s_reader *reader, EMM_PACKET *ep) { return videoguard_do_emm(reader, ep, 0xD1, vg2_read_tiers, do_cmd); } static int32_t videoguard2_card_info(struct s_reader *reader) { // info is displayed in init, or when processing info struct videoguard_data *csystem_data = reader->csystem_data; rdr_log(reader, "card detected"); rdr_log(reader, "type: %s", csystem_data->card_desc); if(reader->ins7e11_fast_reset != 1) { vg2_read_tiers(reader); } return OK; } static void videoguard2_card_done(struct s_reader *reader) { struct videoguard_data *csystem_data = reader->csystem_data; if(csystem_data) { NULLFREE(csystem_data->cmd_table); } } const struct s_cardsystem reader_videoguard2 = { .desc = "videoguard2", .caids = (uint16_t[]){ 0x09, 0 }, .do_emm = videoguard2_do_emm, .do_ecm = videoguard2_do_ecm, .card_info = videoguard2_card_info, .card_init = videoguard2_card_init, .poll_status = videoguard2_poll_status, .card_done = videoguard2_card_done, .get_emm_type = videoguard_get_emm_type, .get_emm_filter = videoguard_get_emm_filter, }; #endif