#include using kv_pairs = std::vector>; struct BootConfig { bool skip_initramfs; bool force_normal_boot; bool rootwait; bool emulator; char slot[3]; char dt_dir[64]; char fstab_suffix[32]; char hardware[32]; char hardware_plat[32]; void set(const kv_pairs &); void print(); }; struct fstab_entry { std::string dev; std::string mnt_point; std::string type; std::string mnt_flags; std::string fsmgr_flags; fstab_entry() = default; fstab_entry(const fstab_entry &) = delete; fstab_entry(fstab_entry &&) = default; fstab_entry &operator=(const fstab_entry&) = delete; fstab_entry &operator=(fstab_entry&&) = default; void to_file(FILE *fp); }; #define INIT_SOCKET "MAGISKINIT" #define DEFAULT_DT_DIR "/proc/device-tree/firmware/android" extern std::vector mount_list; bool unxz(int fd, const uint8_t *buf, size_t size); void load_kernel_info(BootConfig *config); bool is_dsu(); bool check_two_stage(); void setup_klog(); const char *backup_init(); /*************** * Base classes ***************/ class BaseInit { protected: BootConfig *config = nullptr; char **argv = nullptr; [[noreturn]] void exec_init(); void read_dt_fstab(std::vector &fstab); public: BaseInit(char *argv[], BootConfig *config) : config(config), argv(argv) {} virtual ~BaseInit() = default; virtual void start() = 0; }; class MagiskInit : public BaseInit { protected: mmap_data self; mmap_data magisk_config; std::string custom_rules_dir; // When this boolean is set, this means we are currently // running magiskinit on legacy SAR AVD emulator bool avd_hack = false; void mount_with_dt(); bool patch_sepolicy(const char *file); void setup_tmp(const char *path); void mount_rules_dir(const char *dev_base, const char *mnt_base); public: MagiskInit(char *argv[], BootConfig *cmd) : BaseInit(argv, cmd) {} }; class SARBase : virtual public MagiskInit { protected: std::vector overlays; void backup_files(); void patch_rootdir(); void mount_system_root(); public: SARBase() = default; }; /*************** * 2 Stage Init ***************/ class FirstStageInit : public BaseInit { private: void prepare(); void get_default_fstab(char *buf, size_t len); public: FirstStageInit(char *argv[], BootConfig *cmd) : BaseInit(argv, cmd) { LOGD("%s\n", __FUNCTION__); }; void start() override { prepare(); exec_init(); } }; /************* * Legacy SAR *************/ class SARInit : public SARBase { private: bool is_two_stage; void early_mount(); void first_stage_prep(); public: SARInit(char *argv[], BootConfig *cmd) : MagiskInit(argv, cmd), is_two_stage(false) { LOGD("%s\n", __FUNCTION__); }; void start() override { early_mount(); if (is_two_stage) first_stage_prep(); else patch_rootdir(); exec_init(); } }; /************ * Initramfs ************/ class RootFSBase : virtual public MagiskInit { protected: void patch_rootfs(); public: RootFSBase() = default; void start() = 0; }; class RootFSInit : public RootFSBase { private: void early_mount(); public: RootFSInit(char *argv[], BootConfig *cmd) : MagiskInit(argv, cmd) { LOGD("%s\n", __FUNCTION__); } void start() override { early_mount(); patch_rootfs(); exec_init(); } }; class SecondStageInit : public RootFSBase, public SARBase { private: bool prepare(); public: SecondStageInit(char *argv[]) : MagiskInit(argv, nullptr) { LOGD("%s\n", __FUNCTION__); }; void start() override { if (prepare()) patch_rootfs(); else patch_rootdir(); exec_init(); } }; class MagiskProxy : public MagiskInit { public: explicit MagiskProxy(char *argv[]) : MagiskInit(argv, nullptr) { LOGD("%s\n", __FUNCTION__); } void start() override; };