/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define TRACE_TAG TRACE_AUTH #include "sysdeps.h" #include "adb_auth.h" #include #include #include #include "cutils/list.h" #include "cutils/sockets.h" #include "mincrypt/rsa.h" #include "mincrypt/sha.h" #include "adb.h" #include "fdevent.h" #include "transport.h" struct adb_public_key { struct listnode node; RSAPublicKey key; }; static const char *key_paths[] = { "/adb_keys", "/data/misc/adb/adb_keys", NULL }; static fdevent listener_fde; static int framework_fd = -1; static void usb_disconnected(void* unused, atransport* t); static struct adisconnect usb_disconnect = { usb_disconnected, 0, 0, 0 }; static atransport* usb_transport; static bool needs_retry = false; static void read_keys(const char *file, struct listnode *list) { FILE *f; char buf[MAX_PAYLOAD]; char *sep; int ret; f = fopen(file, "re"); if (!f) { D("Can't open '%s'\n", file); return; } while (fgets(buf, sizeof(buf), f)) { /* Allocate 4 extra bytes to decode the base64 data in-place */ auto key = reinterpret_cast( calloc(1, sizeof(adb_public_key) + 4)); if (key == nullptr) { D("Can't malloc key\n"); break; } sep = strpbrk(buf, " \t"); if (sep) *sep = '\0'; ret = __b64_pton(buf, (u_char *)&key->key, sizeof(key->key) + 4); if (ret != sizeof(key->key)) { D("%s: Invalid base64 data ret=%d\n", file, ret); free(key); continue; } if (key->key.len != RSANUMWORDS) { D("%s: Invalid key len %d\n", file, key->key.len); free(key); continue; } list_add_tail(list, &key->node); } fclose(f); } static void free_keys(struct listnode *list) { struct listnode *item; while (!list_empty(list)) { item = list_head(list); list_remove(item); free(node_to_item(item, struct adb_public_key, node)); } } static void load_keys(struct listnode *list) { const char* path; const char** paths = key_paths; struct stat buf; list_init(list); while ((path = *paths++)) { if (!stat(path, &buf)) { D("Loading keys from '%s'\n", path); read_keys(path, list); } } } int adb_auth_generate_token(void *token, size_t token_size) { FILE *f; int ret; f = fopen("/dev/urandom", "re"); if (!f) return 0; ret = fread(token, token_size, 1, f); fclose(f); return ret * token_size; } int adb_auth_verify(uint8_t* token, uint8_t* sig, int siglen) { struct listnode *item; struct listnode key_list; int ret = 0; if (siglen != RSANUMBYTES) return 0; load_keys(&key_list); list_for_each(item, &key_list) { adb_public_key* key = node_to_item(item, struct adb_public_key, node); ret = RSA_verify(&key->key, sig, siglen, token, SHA_DIGEST_SIZE); if (ret) break; } free_keys(&key_list); return ret; } static void usb_disconnected(void* unused, atransport* t) { D("USB disconnect\n"); remove_transport_disconnect(usb_transport, &usb_disconnect); usb_transport = NULL; needs_retry = false; } static void adb_auth_event(int fd, unsigned events, void *data) { char response[2]; int ret; if (events & FDE_READ) { ret = unix_read(fd, response, sizeof(response)); if (ret <= 0) { D("Framework disconnect\n"); if (usb_transport) fdevent_remove(&usb_transport->auth_fde); framework_fd = -1; } else if (ret == 2 && response[0] == 'O' && response[1] == 'K') { if (usb_transport) adb_auth_verified(usb_transport); } } } void adb_auth_confirm_key(unsigned char *key, size_t len, atransport *t) { char msg[MAX_PAYLOAD]; int ret; if (!usb_transport) { usb_transport = t; add_transport_disconnect(t, &usb_disconnect); } if (framework_fd < 0) { D("Client not connected\n"); needs_retry = true; return; } if (key[len - 1] != '\0') { D("Key must be a null-terminated string\n"); return; } ret = snprintf(msg, sizeof(msg), "PK%s", key); if (ret >= (signed)sizeof(msg)) { D("Key too long. ret=%d", ret); return; } D("Sending '%s'\n", msg); ret = unix_write(framework_fd, msg, ret); if (ret < 0) { D("Failed to write PK, errno=%d\n", errno); return; } fdevent_install(&t->auth_fde, framework_fd, adb_auth_event, t); fdevent_add(&t->auth_fde, FDE_READ); } static void adb_auth_listener(int fd, unsigned events, void *data) { struct sockaddr addr; socklen_t alen; int s; alen = sizeof(addr); s = adb_socket_accept(fd, &addr, &alen); if (s < 0) { D("Failed to accept: errno=%d\n", errno); return; } framework_fd = s; if (needs_retry) { needs_retry = false; send_auth_request(usb_transport); } } void adbd_cloexec_auth_socket() { int fd = android_get_control_socket("adbd"); if (fd == -1) { D("Failed to get adbd socket\n"); return; } fcntl(fd, F_SETFD, FD_CLOEXEC); } void adbd_auth_init(void) { int fd = android_get_control_socket("adbd"); if (fd == -1) { D("Failed to get adbd socket\n"); return; } if (listen(fd, 4) == -1) { D("Failed to listen on '%d'\n", fd); return; } fdevent_install(&listener_fde, fd, adb_auth_listener, NULL); fdevent_add(&listener_fde, FDE_READ); }