#include #include #include #include #include #include "magiskboot.h" #include "compress.h" using namespace std; static const char *ramdisk_xz = "ramdisk.cpio.xz"; static const char *UNSUPPORT_LIST[] = { "sbin/launch_daemonsu.sh", "sbin/su", "init.xposed.rc", "boot/sbin/launch_daemonsu.sh" }; static const char *MAGISK_LIST[] = { ".backup/.magisk", "init.magisk.rc", "overlay/init.magisk.rc" }; class magisk_cpio : public cpio_rw { public: explicit magisk_cpio(const char *filename) : cpio_rw(filename) {} void patch(bool keepverity, bool keepforceencrypt); int test(); char *sha1(); void restore(); void backup(const char *orig); void compress(); void decompress(); }; void magisk_cpio::patch(bool keepverity, bool keepforceencrypt) { fprintf(stderr, "Patch with flag KEEPVERITY=[%s] KEEPFORCEENCRYPT=[%s]\n", keepverity ? "true" : "false", keepforceencrypt ? "true" : "false"); auto next = entries.begin(); decltype(next) cur; while (next != entries.end()) { cur = next; ++next; bool fstab = (!keepverity || !keepforceencrypt) && !str_starts(cur->first, ".backup") && str_contains(cur->first, "fstab") && S_ISREG(cur->second->mode); if (!keepverity) { if (fstab) { patch_verity(&cur->second->data, &cur->second->filesize); } else if (cur->first == "verity_key") { rm(cur); continue; } } if (!keepforceencrypt) { if (fstab) { patch_encryption(&cur->second->data, &cur->second->filesize); } } } } #define STOCK_BOOT 0 #define MAGISK_PATCHED 1 << 0 #define UNSUPPORTED_CPIO 1 << 1 #define COMPRESSED_CPIO 1 << 2 int magisk_cpio::test() { if (exists(ramdisk_xz)) return MAGISK_PATCHED | COMPRESSED_CPIO; for (auto file : UNSUPPORT_LIST) if (exists(file)) return UNSUPPORTED_CPIO; for (auto file : MAGISK_LIST) if (exists(file)) return MAGISK_PATCHED; return STOCK_BOOT; } #define for_each_line(line, buf, size) \ for (line = (char *) buf; line < (char *) buf + size && line[0]; line = strchr(line + 1, '\n') + 1) char *magisk_cpio::sha1() { char sha1[41]; char *line; for (auto &e : entries) { if (e.first == "init.magisk.rc" || e.first == "overlay/init.magisk.rc") { for_each_line(line, e.second->data, e.second->filesize) { if (strncmp(line, "#STOCKSHA1=", 11) == 0) { strncpy(sha1, line + 12, 40); sha1[40] = '\0'; return strdup(sha1); } } } else if (e.first == ".backup/.magisk") { for_each_line(line, e.second->data, e.second->filesize) { if (strncmp(line, "SHA1=", 5) == 0) { strncpy(sha1, line + 5, 40); sha1[40] = '\0'; return strdup(sha1); } } } else if (e.first == ".backup/.sha1") { return (char *) e.second->data; } } return nullptr; } #define for_each_str(str, buf, size) \ for (str = (char *) buf; str < (char *) buf + size; str = str += strlen(str) + 1) void magisk_cpio::restore() { decompress(); char *file; auto next = entries.begin(); decltype(next) cur; while (next != entries.end()) { cur = next; ++next; if (str_starts(cur->first, ".backup")) { if (cur->first.length() == 7 || cur->first.substr(8) == ".magisk") { rm(cur); } else if (cur->first.substr(8) == ".rmlist") { for_each_str(file, cur->second->data, cur->second->filesize) rm(file, false); rm(cur); } else { mv(cur, &cur->first[8]); } } else if (str_starts(cur->first, "overlay") || str_starts(cur->first, "magisk") || cur->first == "sbin/magic_mask.sh" || cur->first == "init.magisk.rc") { // Some known stuff we can remove rm(cur); } } } void magisk_cpio::backup(const char *orig) { entry_map bkup_entries; string remv; auto b = new cpio_entry(".backup", S_IFDIR); bkup_entries[b->filename].reset(b); magisk_cpio o(orig); // Remove possible backups in original ramdisk o.rm(".backup", true); rm(".backup", true); auto lhs = o.entries.begin(); auto rhs = entries.begin(); while (lhs != o.entries.end() || rhs != entries.end()) { int res; bool backup = false; if (lhs != o.entries.end() && rhs != entries.end()) { res = lhs->first.compare(rhs->first); } else if (lhs == o.entries.end()) { res = 1; } else if (rhs == entries.end()) { res = -1; } if (res < 0) { // Something is missing in new ramdisk, backup! backup = true; fprintf(stderr, "Backup missing entry: "); } else if (res == 0) { if (lhs->second->filesize != rhs->second->filesize || memcmp(lhs->second->data, rhs->second->data, lhs->second->filesize) != 0) { // Not the same! backup = true; fprintf(stderr, "Backup mismatch entry: "); } } else { // Something new in ramdisk remv += rhs->first; remv += (char) '\0'; fprintf(stderr, "Record new entry: [%s] -> [.backup/.rmlist]\n", rhs->first.data()); } if (backup) { string back_name(".backup/"); back_name += lhs->first; fprintf(stderr, "[%s] -> [%s]\n", lhs->first.data(), back_name.data()); auto ex = static_cast(lhs->second.release()); ex->filename = back_name; bkup_entries[ex->filename].reset(ex); } // Increment positions if (res < 0) { ++lhs; } else if (res == 0) { ++lhs; ++rhs; } else { ++rhs; } } if (!remv.empty()) { auto rmlist = new cpio_entry(".backup/.rmlist", S_IFREG); rmlist->filesize = remv.length(); rmlist->data = xmalloc(remv.length()); memcpy(rmlist->data, remv.data(), remv.length()); bkup_entries[rmlist->filename].reset(rmlist); } if (bkup_entries.size() > 1) entries.merge(bkup_entries); } void magisk_cpio::compress() { if (exists(ramdisk_xz)) return; fprintf(stderr, "Compressing cpio -> [%s]\n", ramdisk_xz); auto init = entries.extract("init"); XZEncoder encoder; encoder.set_out(make_unique()); output(encoder); encoder.finalize(); auto backup = entries.extract(".backup"); auto config = entries.extract(".backup/.magisk"); entries.clear(); entries.insert(std::move(init)); entries.insert(std::move(backup)); entries.insert(std::move(config)); auto xz = new cpio_entry(ramdisk_xz, S_IFREG); static_cast(encoder.get_out())->release(xz->data, xz->filesize); insert(xz); } void magisk_cpio::decompress() { auto it = entries.find(ramdisk_xz); if (it == entries.end()) return; fprintf(stderr, "Decompressing cpio [%s]\n", ramdisk_xz); entries.erase(".backup"); entries.erase(".backup/.magisk"); LZMADecoder decoder; decoder.set_out(make_unique()); decoder.write(it->second->data, it->second->filesize); decoder.finalize(); entries.erase(it); char *buf; size_t sz; static_cast(decoder.get_out())->getbuf(buf, sz); load_cpio(buf, sz); } int cpio_commands(int argc, char *argv[]) { char *incpio = argv[0]; ++argv; --argc; magisk_cpio cpio(incpio); int cmdc; char *cmdv[6]; while (argc) { // Clean up cmdc = 0; memset(cmdv, NULL, sizeof(cmdv)); // Split the commands for (char *tok = strtok(argv[0], " "); tok; tok = strtok(nullptr, " ")) cmdv[cmdc++] = tok; if (cmdc == 0) continue; if (strcmp(cmdv[0], "test") == 0) { exit(cpio.test()); } else if (strcmp(cmdv[0], "restore") == 0) { cpio.restore(); } else if (strcmp(cmdv[0], "sha1") == 0) { char *sha1 = cpio.sha1(); if (sha1) printf("%s\n", sha1); return 0; } else if (strcmp(cmdv[0], "compress") == 0){ cpio.compress(); } else if (strcmp(cmdv[0], "decompress") == 0){ cpio.decompress(); } else if (cmdc == 2 && strcmp(cmdv[0], "exists") == 0) { exit(!cpio.exists(cmdv[1])); } else if (cmdc == 2 && strcmp(cmdv[0], "backup") == 0) { cpio.backup(cmdv[1]); } else if (cmdc >= 2 && strcmp(cmdv[0], "rm") == 0) { bool r = cmdc > 2 && strcmp(cmdv[1], "-r") == 0; cpio.rm(cmdv[1 + r], r); } else if (cmdc == 3 && strcmp(cmdv[0], "mv") == 0) { cpio.mv(cmdv[1], cmdv[2]); } else if (cmdc == 3 && strcmp(cmdv[0], "patch") == 0) { cpio.patch(strcmp(cmdv[1], "true") == 0, strcmp(cmdv[2], "true") == 0); } else if (strcmp(cmdv[0], "extract") == 0) { if (cmdc == 3) { return !cpio.extract(cmdv[1], cmdv[2]); } else { cpio.extract(); return 0; } } else if (cmdc == 3 && strcmp(cmdv[0], "mkdir") == 0) { cpio.makedir(strtoul(cmdv[1], nullptr, 8), cmdv[2]); } else if (cmdc == 3 && strcmp(cmdv[0], "ln") == 0) { cpio.ln(cmdv[1], cmdv[2]); } else if (cmdc == 4 && strcmp(cmdv[0], "add") == 0) { cpio.add(strtoul(cmdv[1], nullptr, 8), cmdv[2], cmdv[3]); } else { return 1; } --argc; ++argv; } cpio.dump(incpio); return 0; }