#include #include #include #include #include "su.hpp" extern int SDK_INT; using namespace std; #define CALL_PROVIDER \ exe, "/system/bin", "com.android.commands.content.Content", \ "call", "--uri", target, "--user", user, "--method", action #define START_ACTIVITY \ exe, "/system/bin", "com.android.commands.am.Am", \ "start", "-p", target, "--user", user, "-a", "android.intent.action.VIEW", \ "-f", "0x58800020", "--es", "action", action // 0x58800020 = FLAG_ACTIVITY_NEW_TASK|FLAG_ACTIVITY_MULTIPLE_TASK| // FLAG_ACTIVITY_NO_HISTORY|FLAG_ACTIVITY_EXCLUDE_FROM_RECENTS| // FLAG_INCLUDE_STOPPED_PACKAGES #define get_cmd(to) \ ((to).command.empty() ? \ ((to).shell.empty() ? DEFAULT_SHELL : (to).shell.data()) : \ (to).command.data()) class Extra { const char *key; enum { INT, BOOL, STRING } type; union { int int_val; bool bool_val; const char *str_val; }; string str; public: Extra(const char *k, int v): key(k), type(INT), int_val(v) {} Extra(const char *k, bool v): key(k), type(BOOL), bool_val(v) {} Extra(const char *k, const char *v): key(k), type(STRING), str_val(v) {} void add_intent(vector &vec) { char buf[32]; const char *val; switch (type) { case INT: vec.push_back("--ei"); ssprintf(buf, sizeof(buf), "%d", int_val); str = buf; val = str.data(); break; case BOOL: vec.push_back("--ez"); val = bool_val ? "true" : "false"; break; case STRING: vec.push_back("--es"); val = str_val; break; } vec.push_back(key); vec.push_back(val); } void add_bind(vector &vec) { char buf[32]; str = key; switch (type) { case INT: str += ":i:"; ssprintf(buf, sizeof(buf), "%d", int_val); str += buf; break; case BOOL: str += ":b:"; str += bool_val ? "true" : "false"; break; case STRING: str += ":s:"; if (SDK_INT >= 30) { string tmp = str_val; replace_all(tmp, "\\", "\\\\"); replace_all(tmp, ":", "\\:"); str += tmp; } else { str += str_val; } break; } vec.push_back("--extra"); vec.push_back(str.data()); } }; static bool check_no_error(int fd) { char buf[1024]; auto out = xopen_file(fd, "r"); while (fgets(buf, sizeof(buf), out.get())) { if (strncmp(buf, "Error", 5) == 0) return false; } return true; } static void exec_cmd(const char *action, vector &data, const shared_ptr &info, bool provider = true) { char exe[128]; char target[128]; char user[4]; ssprintf(user, sizeof(user), "%d", to_user_id(info->eval_uid)); if (zygisk_enabled) { #if defined(__LP64__) ssprintf(exe, sizeof(exe), "/proc/self/fd/%d", app_process_64); #else ssprintf(exe, sizeof(exe), "/proc/self/fd/%d", app_process_32); #endif } else { strscpy(exe, "/system/bin/app_process", sizeof(exe)); } // First try content provider call method if (provider) { ssprintf(target, sizeof(target), "content://%s.provider", info->mgr_pkg.data()); vector args{ CALL_PROVIDER }; for (auto &e : data) { e.add_bind(args); } args.push_back(nullptr); exec_t exec { .err = true, .fd = -1, .pre_exec = [] { setenv("CLASSPATH", "/system/framework/content.jar", 1); }, .argv = args.data() }; exec_command_sync(exec); if (check_no_error(exec.fd)) return; } // Then try start activity with package name strscpy(target, info->mgr_pkg.data(), sizeof(target)); vector args{ START_ACTIVITY }; for (auto &e : data) { e.add_intent(args); } args.push_back(nullptr); exec_t exec { .fd = -2, .pre_exec = [] { setenv("CLASSPATH", "/system/framework/am.jar", 1); }, .fork = fork_dont_care, .argv = args.data() }; exec_command(exec); } void app_log(const su_context &ctx) { if (fork_dont_care() == 0) { vector extras; extras.reserve(6); extras.emplace_back("from.uid", ctx.info->uid); extras.emplace_back("to.uid", static_cast(ctx.req.uid)); extras.emplace_back("pid", ctx.pid); extras.emplace_back("policy", ctx.info->access.policy); extras.emplace_back("command", get_cmd(ctx.req)); extras.emplace_back("notify", (bool) ctx.info->access.notify); exec_cmd("log", extras, ctx.info); exit(0); } } void app_notify(const su_context &ctx) { if (fork_dont_care() == 0) { vector extras; extras.reserve(3); extras.emplace_back("from.uid", ctx.info->uid); extras.emplace_back("pid", ctx.pid); extras.emplace_back("policy", ctx.info->access.policy); exec_cmd("notify", extras, ctx.info); exit(0); } } int app_request(const su_context &ctx) { // Create FIFO char fifo[64]; strcpy(fifo, "/dev/socket/"); gen_rand_str(fifo + 12, 32); mkfifo(fifo, 0600); chown(fifo, ctx.info->mgr_uid, ctx.info->mgr_uid); setfilecon(fifo, MAGISK_FILE_CON); // Send request vector extras; extras.reserve(3); extras.emplace_back("fifo", fifo); extras.emplace_back("uid", ctx.info->eval_uid); extras.emplace_back("pid", ctx.pid); exec_cmd("request", extras, ctx.info, false); // Wait for data input for at most 70 seconds // Open with O_RDWR to prevent FIFO open block int fd = xopen(fifo, O_RDWR | O_CLOEXEC); struct pollfd pfd = { .fd = fd, .events = POLLIN }; if (xpoll(&pfd, 1, 70 * 1000) <= 0) { close(fd); fd = -1; } unlink(fifo); return fd; }