int iboot_command_(const char* s_cmd) { int s_ret = 0; /*Value to be returned */ s_ret = irecv_open_attempts(&client, 10); /* Open attempts and load client */ irecv_send_command(client, s_cmd); /* Send commmand {s_cmd[2]} */ irecv_exit(); /* kill & clear client */ return s_ret; /* Return ret */ }
void pois0n_exit() { debug("Exiting libpois0n\n"); irecv_close(client); irecv_exit(); }
void resetRecovery(void) { irecv_open_attempts(&client, 10); irecv_send_command(client, "reset"); irecv_exit(); }
int main(int argc, char* argv[]) { int i = 0; int opt = 0; int action = 0; unsigned long long ecid = 0; int mode = -1; char* argument = NULL; irecv_error_t error = 0; char* buffer = NULL; uint64_t buffer_length = 0; if (argc == 1) { print_usage(argc, argv); return 0; } while ((opt = getopt(argc, argv, "i:vhrsmnc:f:e:k::")) > 0) { switch (opt) { case 'i': if (optarg) { char* tail = NULL; ecid = strtoull(optarg, &tail, 16); if (tail && (tail[0] != '\0')) { ecid = 0; } if (ecid == 0) { fprintf(stderr, "ERROR: Could not parse ECID from argument '%s'\n", optarg); return -1; } } break; case 'v': verbose += 1; break; case 'h': print_usage(argc, argv); return 0; case 'm': action = kShowMode; break; case 'n': action = kRebootToNormalMode; break; case 'r': action = kResetDevice; break; case 's': action = kStartShell; break; case 'f': action = kSendFile; argument = optarg; break; case 'c': action = kSendCommand; argument = optarg; break; case 'k': action = kSendExploit; argument = optarg; break; case 'e': action = kSendScript; argument = optarg; break; default: fprintf(stderr, "Unknown argument\n"); return -1; } } if (verbose) irecv_set_debug_level(verbose); irecv_init(); irecv_client_t client = NULL; for (i = 0; i <= 5; i++) { debug("Attempting to connect... \n"); if (irecv_open_with_ecid(&client, ecid) != IRECV_E_SUCCESS) sleep(1); else break; if (i == 5) { return -1; } } irecv_device_t device = NULL; irecv_devices_get_device_by_client(client, &device); if (device) debug("Connected to %s, model %s, cpid 0x%04x, bdid 0x%02x\n", device->product_type, device->hardware_model, device->chip_id, device->board_id); switch (action) { case kResetDevice: irecv_reset(client); break; case kSendFile: irecv_event_subscribe(client, IRECV_PROGRESS, &progress_cb, NULL); error = irecv_send_file(client, argument, 1); debug("%s\n", irecv_strerror(error)); break; case kSendCommand: error = irecv_send_command(client, argument); debug("%s\n", irecv_strerror(error)); break; case kSendExploit: if (argument != NULL) { irecv_event_subscribe(client, IRECV_PROGRESS, &progress_cb, NULL); error = irecv_send_file(client, argument, 0); if (error != IRECV_E_SUCCESS) { debug("%s\n", irecv_strerror(error)); break; } } error = irecv_trigger_limera1n_exploit(client); debug("%s\n", irecv_strerror(error)); break; case kStartShell: init_shell(client); break; case kSendScript: buffer_read_from_filename(argument, &buffer, &buffer_length); if (buffer) { buffer[buffer_length] = '\0'; error = irecv_execute_script(client, buffer); if(error != IRECV_E_SUCCESS) { debug("%s\n", irecv_strerror(error)); } free(buffer); } else { fprintf(stderr, "Could not read file '%s'\n", argument); } break; case kShowMode: irecv_get_mode(client, &mode); printf("%s Mode\n", mode_to_str(mode)); break; case kRebootToNormalMode: error = irecv_setenv(client, "auto-boot", "true"); if (error != IRECV_E_SUCCESS) { debug("%s\n", irecv_strerror(error)); break; } error = irecv_saveenv(client); if (error != IRECV_E_SUCCESS) { debug("%s\n", irecv_strerror(error)); break; } error = irecv_reboot(client); if (error != IRECV_E_SUCCESS) { debug("%s\n", irecv_strerror(error)); } else { debug("%s\n", irecv_strerror(error)); } break; default: fprintf(stderr, "Unknown action\n"); break; } irecv_close(client); irecv_exit(); return 0; }
void libkrypton1te_exit() { irecv_exit(); pois0n_exit(); }
int main(int argc, char* argv[]) { irecv_error_t error; unsigned int cpid; int can_ra1n = 0; printf("Loadibec " LOADIBEC_VERSION COMMIT_STRING ".\n"); if(argc != 2) { printf("Usage: %s <file>\n" "\tLoads a file to an iDevice in recovery mode and jumps to it.\n", argv[0]); return 0; } irecv_init(); printf("Connecting to iDevice...\n"); error = irecv_open_attempts(&g_syringe_client, 10); if(error != IRECV_E_SUCCESS) { fprintf(stderr, "Failed to connect to iBoot, error %d.\n", error); return -error; } if(irecv_get_cpid(g_syringe_client, &cpid) == IRECV_E_SUCCESS) { if(cpid > 8900) can_ra1n = 1; } if(g_syringe_client->mode == kDfuMode && can_ra1n) { int ret; printf("linera1n compatible device detected, injecting limera1n.\n"); irecv_close(&g_syringe_client); irecv_exit(); pois0n_init(); ret = pois0n_is_ready(); if(ret < 0) return ret; ret = pois0n_is_compatible(); if(ret < 0) return ret; pois0n_inject(); irecv_close(&g_syringe_client); g_syringe_client = NULL; printf("limera1ned, reconnecting...\n"); g_syringe_client = irecv_reconnect(g_syringe_client, 10); if(!g_syringe_client) { fprintf(stderr, "Failed to reconnect.\n"); return 4; } } else can_ra1n = 0; printf("Starting transfer of '%s'.\n", argv[1]); irecv_event_subscribe(g_syringe_client, IRECV_PROGRESS, &progress_cb, NULL); error = irecv_send_file(g_syringe_client, argv[1], 0); if(error != IRECV_E_SUCCESS) { fprintf(stderr, "Failed to upload '%s', error %d.\n", argv[1], error); return 2; } error = irecv_send_command(g_syringe_client, "go"); if(error != IRECV_E_SUCCESS) { fprintf(stderr, "Failed to jump to uploaded file, error %d.\n", error); return 3; } irecv_send_command(g_syringe_client, "go jump 0x41000000"); printf("Uploaded Successfully.\n"); irecv_exit(); return 0; }