#include #include #include #include #include #include #include "magiskboot.h" #include "cpio.h" static void cpio_patch(struct vector *v, int keepverity, int keepforceencrypt) { cpio_entry *f; vec_for_each(v, f) { if (!keepverity) { if (strstr(f->filename, "fstab") != NULL && S_ISREG(f->mode)) { patch_verity(&f->data, &f->filesize, 1); } else if (strcmp(f->filename, "verity_key") == 0) { fprintf(stderr, "Remove [verity_key]\n"); f->remove = 1; } } if (!keepforceencrypt) { if (strstr(f->filename, "fstab") != NULL && S_ISREG(f->mode)) { patch_encryption(&f->data, &f->filesize); } } } } #define STOCK_BOOT 0x0 #define MAGISK_PATCH 0x1 #define OTHER_PATCH 0x2 static int cpio_test(struct vector *v) { int ret = STOCK_BOOT; cpio_entry *f; const char *OTHER_LIST[] = { "sbin/launch_daemonsu.sh", "sbin/su", "init.xposed.rc", "boot/sbin/launch_daemonsu.sh", NULL }; const char *MAGISK_LIST[] = { ".backup/.magisk", "init.magisk.rc", "overlay/init.magisk.rc", NULL }; vec_for_each(v, f) { for (int i = 0; OTHER_LIST[i]; ++i) { if (strcmp(f->filename, OTHER_LIST[i]) == 0) { // Already find other files, abort return OTHER_PATCH; } } for (int i = 0; MAGISK_LIST[i]; ++i) { if (strcmp(f->filename, MAGISK_LIST[i]) == 0) ret = MAGISK_PATCH; } } cpio_vec_destroy(v); return ret; } static char *cpio_stocksha1(struct vector *v) { cpio_entry *f; char sha1[41]; vec_for_each(v, f) { if (strcmp(f->filename, "init.magisk.rc") == 0 || strcmp(f->filename, "overlay/init.magisk.rc") == 0) { for (char *pos = f->data; pos < f->data + f->filesize; pos = strchr(pos + 1, '\n') + 1) { if (memcmp(pos, "# STOCKSHA1=", 12) == 0) { pos += 12; memcpy(sha1, pos, 40); sha1[40] = '\0'; return strdup(sha1); } } } else if (strcmp(f->filename, ".backup/.sha1") == 0) { return f->data; } } return NULL; } static struct vector *cpio_backup(struct vector *v, const char *orig, const char *keepverity, const char *keepforceencrypt, const char *sha1) { struct vector o_body, *o = &o_body, *ret; cpio_entry *m, *n, *rem, *cksm; char buf[PATH_MAX]; int res, backup; ret = xcalloc(sizeof(*ret), 1); vec_init(o); vec_init(ret); m = xcalloc(sizeof(*m), 1); m->filename = strdup(".backup"); m->mode = S_IFDIR; vec_push_back(ret, m); m = xcalloc(sizeof(*m), 1); m->filename = strdup(".backup/.magisk"); m->mode = S_IFREG; m->data = xmalloc(50); snprintf(m->data, 50, "KEEPVERITY=%s\nKEEPFORCEENCRYPT=%s\n", keepverity, keepforceencrypt); m->filesize = strlen(m->data) + 1; vec_push_back(ret, m); rem = xcalloc(sizeof(*rem), 1); rem->filename = strdup(".backup/.rmlist"); rem->mode = S_IFREG; vec_push_back(ret, rem); if (sha1) { fprintf(stderr, "Save SHA1: [%s] -> [.backup/.sha1]\n", sha1); cksm = xcalloc(sizeof(*cksm), 1); vec_push_back(ret, cksm); cksm->filename = strdup(".backup/.sha1"); cksm->mode = S_IFREG; cksm->data = strdup(sha1); cksm->filesize = strlen(sha1) + 1; } parse_cpio(o, orig); // Remove possible backups in original ramdisk cpio_rm(o, 1, ".backup"); cpio_rm(v, 1, ".backup"); // Sort both vectors before comparing vec_sort(v, cpio_cmp); vec_sort(o, cpio_cmp); // Start comparing size_t i = 0, j = 0; while(i != vec_size(o) || j != vec_size(v)) { backup = 0; if (i != vec_size(o) && j != vec_size(v)) { m = vec_entry(o)[i]; n = vec_entry(v)[j]; res = strcmp(m->filename, n->filename); } else if (i == vec_size(o)) { n = vec_entry(v)[j]; res = 1; } else if (j == vec_size(v)) { m = vec_entry(o)[i]; res = -1; } if (res < 0) { // Something is missing in new ramdisk, backup! ++i; backup = 1; fprintf(stderr, "Backup missing entry: "); } else if (res == 0) { ++i; ++j; if (m->filesize == n->filesize && memcmp(m->data, n->data, m->filesize) == 0) continue; // Not the same! backup = 1; fprintf(stderr, "Backup mismatch entry: "); } else { // Someting new in ramdisk, record in rem ++j; if (n->remove) continue; rem->data = xrealloc(rem->data, rem->filesize + strlen(n->filename) + 1); memcpy(rem->data + rem->filesize, n->filename, strlen(n->filename) + 1); rem->filesize += strlen(n->filename) + 1; fprintf(stderr, "Record new entry: [%s] -> [.backup/.rmlist]\n", n->filename); } if (backup) { sprintf(buf, ".backup/%s", m->filename); free(m->filename); m->filename = strdup(buf); fprintf(stderr, "[%s] -> [%s]\n", buf, m->filename); vec_push_back(ret, m); // NULL the original entry, so it won't be freed vec_entry(o)[i - 1] = NULL; } } if (rem->filesize == 0) rem->remove = 1; // Cleanup cpio_vec_destroy(o); return ret; } static void cpio_restore(struct vector *v) { cpio_entry *f, *n; vec_for_each(v, f) { if (strncmp(f->filename, ".backup", 7) == 0) { f->remove = 1; if (f->filename[7] == '\0') continue; if (f->filename[8] == '.') { if (strcmp(f->filename, ".backup/.rmlist") == 0) { for (int pos = 0; pos < f->filesize; pos += strlen(f->data + pos) + 1) cpio_rm(v, 0, f->data + pos); } continue; } else { n = xcalloc(sizeof(*n), 1); memcpy(n, f, sizeof(*f)); n->filename = strdup(f->filename + 8); n->data = f->data; f->data = NULL; n->remove = 0; fprintf(stderr, "Restore [%s] -> [%s]\n", f->filename, n->filename); cpio_vec_insert(v, n); } } if (strncmp(f->filename, "overlay", 7) == 0) f->remove = 1; } // Some known stuff we can remove cpio_rm(v, 0, "sbin/magic_mask.sh"); cpio_rm(v, 0, "init.magisk.rc"); cpio_rm(v, 0, "magisk"); cpio_rm(v, 0, "ramdisk-recovery.xz"); } static void restore_high_compress(struct vector *v, const char *incpio) { // Check if the ramdisk is in high compression mode if (cpio_extract(v, "ramdisk.cpio.xz", incpio) == 0) { void *xz; size_t size; full_read(incpio, &xz, &size); int fd = creat(incpio, 0644); lzma(0, fd, xz, size); close(fd); free(xz); cpio_rm(v, 0, "ramdisk.cpio.xz"); cpio_rm(v, 0, "init"); struct vector vv; vec_init(&vv); parse_cpio(&vv, incpio); cpio_entry *e; vec_for_each(&vv, e) vec_push_back(v, e); vec_destroy(&vv); } } static void enable_high_compress(struct vector *v, struct vector *b, const char *incpio) { cpio_entry *e, *magiskinit, *init; // Swap magiskinit with original init vec_for_each(b, e) { if (strcmp(e->filename, ".backup/init") == 0) { free(e->filename); e->filename = strdup("init"); init = e; vec_for_each(v, e) { if (strcmp(e->filename, "init") == 0) { magiskinit = e; vec_cur(v) = init; break; } } vec_cur(b) = NULL; break; } } dump_cpio(v, incpio); cpio_vec_destroy(v); void *cpio; size_t size; full_read(incpio, &cpio, &size); int fd = creat(incpio, 0644); lzma(1, fd, cpio, size); close(fd); free(cpio); vec_init(v); vec_push_back(v, magiskinit); cpio_add(v, 0, "ramdisk.cpio.xz", incpio); } int cpio_commands(const char *command, int argc, char *argv[]) { char *incpio = argv[0]; ++argv; --argc; struct vector v; vec_init(&v); parse_cpio(&v, incpio); if (strcmp(command, "test") == 0) { exit(cpio_test(&v)); } else if (strcmp(command, "restore") == 0) { restore_high_compress(&v, incpio); cpio_restore(&v); } else if (strcmp(command, "stocksha1") == 0) { printf("%s\n", cpio_stocksha1(&v)); return 0; } else if (argc >= 4 && strcmp(command, "backup") == 0) { struct vector *back; cpio_entry *e; back = cpio_backup(&v, argv[0], argv[2], argv[3], argc > 4 ? argv[4] : NULL); // Enable high compression mode if (strcmp(argv[1], "true") == 0) enable_high_compress(&v, back, incpio); vec_for_each(back, e) if (e) vec_push_back(&v, e); } else if (argc > 0 && strcmp(command, "rm") == 0) { int recursive = 0; if (argc == 2 && strcmp(argv[0], "-r") == 0) { recursive = 1; ++argv; } cpio_rm(&v, recursive, argv[0]); } else if (argc == 2 && strcmp(command, "mv") == 0) { if (cpio_mv(&v, argv[0], argv[1])) return 1; } else if (argc == 2 && strcmp(command, "patch") == 0) { cpio_patch(&v, strcmp(argv[0], "true") == 0, strcmp(argv[1], "true") == 0); } else if (strcmp(command, "extract") == 0) { if (argc == 2) { return cpio_extract(&v, argv[0], argv[1]); } else { cpio_extract_all(&v); return 0; } } else if (argc == 2 && strcmp(command, "mkdir") == 0) { cpio_mkdir(&v, strtoul(argv[0], NULL, 8), argv[1]); } else if (argc == 2 && strcmp(command, "ln") == 0) { cpio_ln(&v, argv[0], argv[1]); } else if (argc == 3 && strcmp(command, "add") == 0) { cpio_add(&v, strtoul(argv[0], NULL, 8), argv[1], argv[2]); } else { return 1; } dump_cpio(&v, incpio); cpio_vec_destroy(&v); exit(0); }