#pragma once #include "Utilities/Thread.h" #include #include struct gdb_cmd; class cpu_thread; class ppu_thread; class gdb_thread { static const u64 ALL_THREADS = 0xffffffffffffffff; static const u64 ANY_THREAD = 0; int server_socket = -1; int client_socket = -1; std::weak_ptr selected_thread; u64 continue_ops_thread_id = ANY_THREAD; u64 general_ops_thread_id = ANY_THREAD; //initialize server socket and start listening void start_server(); //read at most cnt bytes to buf, returns number of bytes actually read int read(void* buf, int cnt); //reads one character char read_char(); //reads pairs of hex characters and returns their integer value u8 read_hexbyte(); // Tries to read command, returns false on error bool try_read_cmd(gdb_cmd& out_cmd); //reads commands until receiveing one with valid checksum //in case of other exception (i.e. wrong first char of command) //it will log exception text and return false //in that case best for caller would be to stop reading, because //chance of getting correct command is low bool read_cmd(gdb_cmd& out_cmd); //send cnt bytes from buf to client void send(const char* buf, int cnt); //send character to client void send_char(char c); //acknowledge packet, either as accepted or declined void ack(bool accepted); //sends command body cmd to client void send_cmd(const std::string& cmd); //sends command to client until receives positive acknowledgement //returns false in case some error happened, and command wasn't sent bool send_cmd_ack(const std::string& cmd); //appends encoded char c to string str, and returns checksum. encoded byte can occupy 2 bytes static u8 append_encoded_char(char c, std::string& str); //convert u8 to 2 byte hexademical representation static std::string to_hexbyte(u8 i); //choose thread, support ALL_THREADS and ANY_THREAD values, returns true if some thread was selected bool select_thread(u64 id); //returns register value as hex string by register id (in gdb), in case of wrong id returns empty string static std::string get_reg(ppu_thread* thread, u32 rid); //sets register value to hex string by register id (in gdb), in case of wrong id returns false static bool set_reg(ppu_thread* thread, u32 rid, std::string value); //returns size of register with id rid in bytes, zero if invalid rid is provided static u32 get_reg_size(ppu_thread* thread, u32 rid); //send reason of stop, returns false if sending response failed bool send_reason(); void wait_with_interrupts(); //commands bool cmd_extended_mode(gdb_cmd& cmd); bool cmd_reason(gdb_cmd& cmd); bool cmd_supported(gdb_cmd& cmd); bool cmd_thread_info(gdb_cmd& cmd); bool cmd_current_thread(gdb_cmd& cmd); bool cmd_read_register(gdb_cmd& cmd); bool cmd_write_register(gdb_cmd& cmd); bool cmd_read_memory(gdb_cmd& cmd); bool cmd_write_memory(gdb_cmd& cmd); bool cmd_read_all_registers(gdb_cmd& cmd); bool cmd_write_all_registers(gdb_cmd& cmd); bool cmd_set_thread_ops(gdb_cmd& cmd); bool cmd_attached_to_what(gdb_cmd& cmd); bool cmd_kill(gdb_cmd& cmd); bool cmd_continue_support(gdb_cmd& cmd); bool cmd_vcont(gdb_cmd& cmd); bool cmd_set_breakpoint(gdb_cmd& cmd); bool cmd_remove_breakpoint(gdb_cmd& cmd); public: bool from_breakpoint = true; bool paused = false; u64 pausedBy; gdb_thread() noexcept; ~gdb_thread(); gdb_thread(const gdb_thread&) = delete; gdb_thread& operator=(const gdb_thread&) = delete; void operator()(); void pause_from(cpu_thread* t); static constexpr auto thread_name = "GDB Server"sv; }; using gdb_server = named_thread;