#include #include #include #include #include #include #include #include #include #include #include #include "kernel_umount.h" #include "klog.h" // IWYU pragma: keep #include "allowlist.h" #include "selinux/selinux.h" #include "feature.h" #include "ksud.h" #include "umount_manager.h" #include "sulog.h" static bool ksu_kernel_umount_enabled = true; static int kernel_umount_feature_get(u64 *value) { *value = ksu_kernel_umount_enabled ? 1 : 0; return 0; } static int kernel_umount_feature_set(u64 value) { bool enable = value != 0; ksu_kernel_umount_enabled = enable; pr_info("kernel_umount: set to %d\n", enable); return 0; } static const struct ksu_feature_handler kernel_umount_handler = { .feature_id = KSU_FEATURE_KERNEL_UMOUNT, .name = "kernel_umount", .get_handler = kernel_umount_feature_get, .set_handler = kernel_umount_feature_set, }; extern int path_umount(struct path *path, int flags); static void ksu_umount_mnt(struct path *path, int flags) { int err = path_umount(path, flags); if (err) { pr_info("umount %s failed: %d\n", path->dentry->d_iname, err); } } void try_umount(const char *mnt, int flags) { struct path path; int err = kern_path(mnt, 0, &path); if (err) { return; } if (path.dentry != path.mnt->mnt_root) { // it is not root mountpoint, maybe umounted by others already. path_put(&path); return; } ksu_umount_mnt(&path, flags); } struct umount_tw { struct callback_head cb; const struct cred *old_cred; }; static void umount_tw_func(struct callback_head *cb) { struct umount_tw *tw = container_of(cb, struct umount_tw, cb); const struct cred *saved = NULL; if (tw->old_cred) { saved = override_creds(tw->old_cred); } struct mount_entry *entry; down_read(&mount_list_lock); list_for_each_entry(entry, &mount_list, list) { pr_info("%s: unmounting: %s flags 0x%x\n", __func__, entry->umountable, entry->flags); try_umount(entry->umountable, entry->flags); } up_read(&mount_list_lock); ksu_umount_manager_execute_all(tw->old_cred); if (saved) revert_creds(saved); if (tw->old_cred) put_cred(tw->old_cred); kfree(tw); } int ksu_handle_umount(uid_t old_uid, uid_t new_uid) { struct umount_tw *tw; // if there isn't any module mounted, just ignore it! if (!ksu_module_mounted) { return 0; } if (!ksu_kernel_umount_enabled) { return 0; } // There are 5 scenarios: // 1. Normal app: zygote -> appuid // 2. Isolated process forked from zygote: zygote -> isolated_process // 3. App zygote forked from zygote: zygote -> appuid // 4. Isolated process froked from app zygote: appuid -> isolated_process (already handled by 3) // 5. Isolated process froked from webview zygote (no need to handle, app cannot run custom code) if (!is_appuid(new_uid) && !is_isolated_process(new_uid)) { return 0; } if (!ksu_uid_should_umount(new_uid) && !is_isolated_process(new_uid)) { return 0; } // check old process's selinux context, if it is not zygote, ignore it! // because some su apps may setuid to untrusted_app but they are in global mount namespace // when we umount for such process, that is a disaster! // also handle case 4 and 5 bool is_zygote_child = is_zygote(get_current_cred()); if (!is_zygote_child) { pr_info("handle umount ignore non zygote child: %d\n", current->pid); return 0; } #if __SULOG_GATE ksu_sulog_report_syscall(new_uid, NULL, "setuid", NULL); #endif // umount the target mnt pr_info("handle umount for uid: %d, pid: %d\n", new_uid, current->pid); tw = kzalloc(sizeof(*tw), GFP_ATOMIC); if (!tw) return 0; tw->old_cred = get_current_cred(); tw->cb.func = umount_tw_func; int err = task_work_add(current, &tw->cb, TWA_RESUME); if (err) { if (tw->old_cred) { put_cred(tw->old_cred); } kfree(tw); pr_warn("unmount add task_work failed\n"); } return 0; } void ksu_kernel_umount_init(void) { int rc = 0; rc = ksu_umount_manager_init(); if (rc) { pr_err("Failed to initialize umount manager: %d\n", rc); } if (ksu_register_feature_handler(&kernel_umount_handler)) { pr_err("Failed to register kernel_umount feature handler\n"); } } void ksu_kernel_umount_exit(void) { ksu_unregister_feature_handler(KSU_FEATURE_KERNEL_UMOUNT); }