/* * Copyright (C) 2008 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. */ #include "private/android_filesystem_config.h" #include #include #include #include #include #include /* * Recursively walk the directory tree at /, writing * script commands to set permissions and create symlinks. * Assume the contents already have the specified default permissions, * so only output commands if they need to be changed from the defaults. * * Note that permissions are set by fs_config(), which uses a lookup table of * Android permissions. They are not drawn from the build host filesystem. */ static void walk_files( const char *sysdir, const char *subdir, unsigned default_uid, unsigned default_gid, unsigned default_dir_mode, unsigned default_file_mode) { const char *sep = strcmp(subdir, "") ? "/" : ""; char fn[PATH_MAX]; unsigned dir_uid = 0, dir_gid = 0, dir_mode = 0; snprintf(fn, PATH_MAX, "system%s%s", sep, subdir); fs_config(fn, 1, &dir_uid, &dir_gid, &dir_mode); snprintf(fn, PATH_MAX, "%s%s%s", sysdir, sep, subdir); DIR *dir = opendir(fn); if (dir == NULL) { perror(fn); exit(1); } /* * We can use "set_perm" and "set_perm_recursive" to set file permissions * (owner, group, and file mode) for individual files and entire subtrees. * We want to use set_perm_recursive efficiently to avoid setting the * permissions of every single file in the system image individually. * * What we do is recursively set our entire subtree to the permissions * used by the first file we encounter, and then use "set_perm" to adjust * the permissions of subsequent files which don't match the first one. * This is bad if the first file is an outlier, but it generally works. * Subdirectories can do the same thing recursively if they're different. */ int is_first = 1; const struct dirent *e; while ((e = readdir(dir))) { // Skip over "." and ".." entries if (!strcmp(e->d_name, ".") || !strcmp(e->d_name, "..")) continue; if (e->d_type == DT_LNK) { // Symlink // Symlinks don't really have permissions, so this is orthogonal. snprintf(fn, PATH_MAX, "%s/%s%s%s", sysdir, subdir, sep, e->d_name); int len = readlink(fn, fn, PATH_MAX - 1); if (len <= 0) { perror(fn); exit(1); } fn[len] = '\0'; printf("symlink %s SYSTEM:%s%s%s\n", fn, subdir, sep, e->d_name); } else if (e->d_type == DT_DIR) { // Subdirectory // Use the parent directory as the model for default permissions. // We haven't seen a file, so just make up some file defaults. if (is_first && ( dir_mode != default_dir_mode || dir_uid != default_uid || dir_gid != default_gid)) { default_uid = dir_uid; default_gid = dir_gid; default_dir_mode = dir_mode; default_file_mode = dir_mode & default_file_mode & 0666; printf("set_perm_recursive %d %d 0%o 0%o SYSTEM:%s\n", default_uid, default_gid, default_dir_mode, default_file_mode, subdir); } is_first = 0; // Recursively handle the subdirectory. // Note, the recursive call handles the directory's own permissions. snprintf(fn, PATH_MAX, "%s%s%s", subdir, sep, e->d_name); walk_files(sysdir, fn, default_uid, default_gid, default_dir_mode, default_file_mode); } else { // Ordinary file // Get the file's desired permissions. unsigned file_uid = 0, file_gid = 0, file_mode = 0; snprintf(fn, PATH_MAX, "system/%s%s%s", subdir, sep, e->d_name); fs_config(fn, 0, &file_uid, &file_gid, &file_mode); // If this is the first file, its mode gets to become the default. if (is_first && ( dir_mode != default_dir_mode || file_mode != default_file_mode || dir_uid != default_uid || file_uid != default_uid || dir_gid != default_gid || file_gid != default_gid)) { default_uid = dir_uid; default_gid = dir_gid; default_dir_mode = dir_mode; default_file_mode = file_mode; printf("set_perm_recursive %d %d 0%o 0%o SYSTEM:%s\n", default_uid, default_gid, default_dir_mode, default_file_mode, subdir); } is_first = 0; // Otherwise, override this file if it doesn't match the defaults. if (file_mode != default_file_mode || file_uid != default_uid || file_gid != default_gid) { printf("set_perm %d %d 0%o SYSTEM:%s%s%s\n", file_uid, file_gid, file_mode, subdir, sep, e->d_name); } } } // Set the directory's permissions directly, if they never got set. if (dir_mode != default_dir_mode || dir_uid != default_uid || dir_gid != default_gid) { printf("set_perm %d %d 0%o SYSTEM:%s\n", dir_uid, dir_gid, dir_mode, subdir); } closedir(dir); } /* * Generate the update script (in "Amend", see commands/recovery/commands.c) * for the complete-reinstall OTA update packages the build system makes. * * The generated script makes a variety of sanity checks about the device, * erases and reinstalls system files, and sets file permissions appropriately. */ int main(int argc, char *argv[]) { if (argc != 3) { fprintf(stderr, "usage: %s systemdir android-info.txt >update-script\n", argv[0]); return 2; } // ensure basic recovery script language compatibility printf("assert compatible_with(\"0.2\") == \"true\"\n"); // if known, make sure the device name is correct const char *device = getenv("TARGET_PRODUCT"); if (device != NULL) { printf("assert getprop(\"ro.product.device\") == \"%s\" || " "getprop(\"ro.build.product\") == \"%s\"\n", device, device); } // scan android-info.txt to enforce compatibility with the target system FILE *fp = fopen(argv[2], "r"); if (fp == NULL) { perror(argv[2]); return 1; } // The lines we're looking for look like: // version-bootloader=x.yy.zzzz // or: // require version-bootloader=x.yy.zzzz char line[256]; while (fgets(line, sizeof(line), fp)) { const char *name = strtok(line, "="), *value = strtok(NULL, "\n"); if (value != NULL && (!strcmp(name, "version-bootloader") || !strcmp(name, "require version-bootloader"))) { printf("assert getprop(\"ro.bootloader\") == \"%s\"\n", value); } // We also used to check version-baseband, but we update radio.img // ourselves, so there's no need. } // erase the boot sector first, so if the update gets interrupted, // the system will reboot into the recovery partition and start over. printf("format BOOT:\n"); // write the radio image (actually just loads it into RAM for now) printf("show_progress 0.1 0\n"); printf("write_radio_image PACKAGE:radio.img\n"); // erase and reinstall the system image printf("show_progress 0.5 0\n"); printf("format SYSTEM:\n"); printf("copy_dir PACKAGE:system SYSTEM:\n"); // walk the files in the system image, set their permissions, etc. // use -1 for default values to force permissions to be set explicitly. walk_files(argv[1], "", -1, -1, -1, -1); // as the last step, write the boot sector. printf("show_progress 0.2 0\n"); printf("write_raw_image PACKAGE:boot.img BOOT:\n"); // after the end of the script, the radio will be written to cache // leave some space in the progress bar for this operation printf("show_progress 0.2 10\n"); return 0; }