#include #include #include #include #include "init.hpp" using namespace std; void MagiskInit::patch_sepolicy(const char *in, const char *out) { LOGD("Patching monolithic policy\n"); auto sepol = unique_ptr(sepolicy::from_file(in)); sepol->magisk_rules(); // Custom rules if (!custom_rules_dir.empty()) { if (auto dir = xopen_dir(custom_rules_dir.data())) { for (dirent *entry; (entry = xreaddir(dir.get()));) { auto rule = custom_rules_dir + "/" + entry->d_name + "/sepolicy.rule"; if (xaccess(rule.data(), R_OK) == 0) { LOGD("Loading custom sepolicy patch: [%s]\n", rule.data()); sepol->load_rule_file(rule.data()); } } } } LOGD("Dumping sepolicy to: [%s]\n", out); sepol->to_file(out); // Remove OnePlus stupid debug sepolicy and use our own if (access("/sepolicy_debug", F_OK) == 0) { unlink("/sepolicy_debug"); link("/sepolicy", "/sepolicy_debug"); } } #define MOCK_COMPAT SELINUXMOCK "/compatible" #define MOCK_LOAD SELINUXMOCK "/load" #define MOCK_ENFORCE SELINUXMOCK "/enforce" bool MagiskInit::hijack_sepolicy() { xmkdir(SELINUXMOCK, 0); if (access("/system/bin/init", F_OK) == 0) { // On 2SI devices, the 2nd stage init file is always a dynamic executable. // This meant that instead of going through convoluted methods trying to alter // and block init's control flow, we can just LD_PRELOAD and replace the // security_load_policy function with our own implementation. dump_preload("/dev/preload.so", 0644); setenv("LD_PRELOAD", "/dev/preload.so", 1); } // Hijack the "load" and "enforce" node in selinuxfs to manipulate // the actual sepolicy being loaded into the kernel auto hijack = [&] { LOGD("Hijack [" SELINUX_LOAD "]\n"); close(xopen(MOCK_LOAD, O_CREAT | O_RDONLY, 0600)); xmount(MOCK_LOAD, SELINUX_LOAD, nullptr, MS_BIND, nullptr); LOGD("Hijack [" SELINUX_ENFORCE "]\n"); mkfifo(MOCK_ENFORCE, 0644); xmount(MOCK_ENFORCE, SELINUX_ENFORCE, nullptr, MS_BIND, nullptr); }; string dt_compat; if (access(SELINUX_ENFORCE, F_OK) != 0) { // selinuxfs not mounted yet. Hijack the dt fstab nodes first // and let the original init mount selinuxfs for us. // This only happens on Android 8.0 - 9.0 char buf[4096]; ssprintf(buf, sizeof(buf), "%s/fstab/compatible", config->dt_dir); dt_compat = full_read(buf); if (dt_compat.empty()) { // Device does not do early mount and uses monolithic policy return false; } // Remount procfs with proper options xmount(nullptr, "/proc", nullptr, MS_REMOUNT, "hidepid=2,gid=3009"); LOGD("Hijack [%s]\n", buf); // Preserve sysfs and procfs for hijacking mount_list.erase(std::remove_if( mount_list.begin(), mount_list.end(), [](const string &s) { return s == "/proc" || s == "/sys"; }), mount_list.end()); mkfifo(MOCK_COMPAT, 0444); xmount(MOCK_COMPAT, buf, nullptr, MS_BIND, nullptr); } else { hijack(); } // Read all custom rules into memory string rules; if (!custom_rules_dir.empty()) { if (auto dir = xopen_dir(custom_rules_dir.data())) { for (dirent *entry; (entry = xreaddir(dir.get()));) { auto rule_file = custom_rules_dir + "/" + entry->d_name + "/sepolicy.rule"; if (xaccess(rule_file.data(), R_OK) == 0) { LOGD("Load custom sepolicy patch: [%s]\n", rule_file.data()); full_read(rule_file.data(), rules); rules += '\n'; } } } } // Create a new process waiting for init operations if (xfork()) { // In parent, return and continue boot process return true; } if (!dt_compat.empty()) { // This open will block until init calls DoFirstStageMount // The only purpose here is actually to wait for init to mount selinuxfs for us int fd = xopen(MOCK_COMPAT, O_WRONLY); char buf[4096]; ssprintf(buf, sizeof(buf), "%s/fstab/compatible", config->dt_dir); xumount2(buf, MNT_DETACH); hijack(); xwrite(fd, dt_compat.data(), dt_compat.size()); close(fd); } // This open will block until init calls security_getenforce int fd = xopen(MOCK_ENFORCE, O_WRONLY); // Cleanup the hijacks umount2("/init", MNT_DETACH); xumount2(SELINUX_LOAD, MNT_DETACH); xumount2(SELINUX_ENFORCE, MNT_DETACH); // Load and patch policy auto sepol = unique_ptr(sepolicy::from_file(MOCK_LOAD)); sepol->magisk_rules(); sepol->load_rules(rules); // Load patched policy into kernel sepol->to_file(SELINUX_LOAD); // Write to the enforce node ONLY after sepolicy is loaded. We need to make sure // the actual init process is blocked until sepolicy is loaded, or else // restorecon will fail and re-exec won't change context, causing boot failure. // We (ab)use the fact that init reads the enforce node, and because // it has been replaced with our FIFO file, init will block until we // write something into the pipe, effectively hijacking its control flow. string enforce = full_read(SELINUX_ENFORCE); xwrite(fd, enforce.data(), enforce.length()); close(fd); // At this point, the init process will be unblocked // and continue on with restorecon + re-exec. // Terminate process exit(0); }