#!/usr/bin/env python # License: GPLv3 Copyright: 2018, Kovid Goyal import os import subprocess import sys from collections import defaultdict from typing import Any, DefaultDict, Dict, FrozenSet, List, Tuple, Union if __name__ == '__main__' and not __package__: import __main__ __main__.__package__ = 'gen' sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__)))) KeymapType = Dict[str, Tuple[str, Union[FrozenSet[str], str]]] def resolve_keys(keymap: KeymapType) -> DefaultDict[str, List[str]]: ans: DefaultDict[str, List[str]] = defaultdict(list) for ch, (attr, atype) in keymap.items(): if isinstance(atype, str) and atype in ('int', 'uint'): q = atype else: q = 'flag' ans[q].append(ch) return ans def enum(keymap: KeymapType) -> str: lines = [] for ch, (attr, atype) in keymap.items(): lines.append(f"{attr}='{ch}'") return ''' enum KEYS {{ {} }}; '''.format(',\n'.join(lines)) def parse_key(keymap: KeymapType) -> str: lines = [] for attr, atype in keymap.values(): vs = atype.upper() if isinstance(atype, str) and atype in ('uint', 'int') else 'FLAG' lines.append(f'case {attr}: value_state = {vs}; break;') return ' \n'.join(lines) def parse_flag(keymap: KeymapType, type_map: Dict[str, Any], command_class: str) -> str: lines = [] for ch in type_map['flag']: attr, allowed_values = keymap[ch] q = ' && '.join(f"g.{attr} != '{x}'" for x in sorted(allowed_values)) lines.append(f''' case {attr}: {{ g.{attr} = screen->parser_buf[pos++] & 0xff; if ({q}) {{ REPORT_ERROR("Malformed {command_class} control block, unknown flag value for {attr}: 0x%x", g.{attr}); return; }}; }} break; ''') return ' \n'.join(lines) def parse_number(keymap: KeymapType) -> Tuple[str, str]: int_keys = [f'I({attr})' for attr, atype in keymap.values() if atype == 'int'] uint_keys = [f'U({attr})' for attr, atype in keymap.values() if atype == 'uint'] return '; '.join(int_keys), '; '.join(uint_keys) def cmd_for_report(report_name: str, keymap: KeymapType, type_map: Dict[str, Any], payload_allowed: bool) -> str: def group(atype: str, conv: str) -> Tuple[str, str]: flag_fmt, flag_attrs = [], [] cv = {'flag': 'c', 'int': 'i', 'uint': 'I'}[atype] for ch in type_map[atype]: flag_fmt.append(f's{cv}') attr = keymap[ch][0] flag_attrs.append(f'"{attr}", {conv}g.{attr}') return ' '.join(flag_fmt), ', '.join(flag_attrs) flag_fmt, flag_attrs = group('flag', '') int_fmt, int_attrs = group('int', '(int)') uint_fmt, uint_attrs = group('uint', '(unsigned int)') fmt = f'{flag_fmt} {uint_fmt} {int_fmt}' if payload_allowed: ans = [f'REPORT_VA_COMMAND("s {{{fmt} sI}} y#", "{report_name}",'] else: ans = [f'REPORT_VA_COMMAND("s {{{fmt}}}", "{report_name}",'] ans.append(',\n '.join((flag_attrs, uint_attrs, int_attrs))) if payload_allowed: ans.append(', "payload_sz", g.payload_sz, payload, g.payload_sz') ans.append(');') return '\n'.join(ans) def generate( function_name: str, callback_name: str, report_name: str, keymap: KeymapType, command_class: str, initial_key: str = 'a', payload_allowed: bool = True ) -> str: type_map = resolve_keys(keymap) keys_enum = enum(keymap) handle_key = parse_key(keymap) flag_keys = parse_flag(keymap, type_map, command_class) int_keys, uint_keys = parse_number(keymap) report_cmd = cmd_for_report(report_name, keymap, type_map, payload_allowed) if payload_allowed: payload_after_value = "case ';': state = PAYLOAD; break;" payload = ', PAYLOAD' parr = 'static uint8_t payload[4096];' payload_case = f''' case PAYLOAD: {{ sz = screen->parser_buf_pos - pos; g.payload_sz = sizeof(payload); if (!base64_decode32(screen->parser_buf + pos, sz, payload, &g.payload_sz)) {{ REPORT_ERROR("Failed to parse {command_class} command payload with error: payload size (%zu) too large", sz); return; }} pos = screen->parser_buf_pos; }} break; ''' callback = f'{callback_name}(screen, &g, payload)' else: payload_after_value = payload = parr = payload_case = '' callback = f'{callback_name}(screen, &g)' return f''' static inline void {function_name}(Screen *screen, PyObject UNUSED *dump_callback) {{ unsigned int pos = 1; enum PARSER_STATES {{ KEY, EQUAL, UINT, INT, FLAG, AFTER_VALUE {payload} }}; enum PARSER_STATES state = KEY, value_state = FLAG; static {command_class} g; unsigned int i, code; uint64_t lcode; bool is_negative; memset(&g, 0, sizeof(g)); size_t sz; {parr} {keys_enum} enum KEYS key = '{initial_key}'; if (screen->parser_buf[pos] == ';') state = AFTER_VALUE; while (pos < screen->parser_buf_pos) {{ switch(state) {{ case KEY: key = screen->parser_buf[pos++]; state = EQUAL; switch(key) {{ {handle_key} default: REPORT_ERROR("Malformed {command_class} control block, invalid key character: 0x%x", key); return; }} break; case EQUAL: if (screen->parser_buf[pos++] != '=') {{ REPORT_ERROR("Malformed {command_class} control block, no = after key, found: 0x%x instead", screen->parser_buf[pos-1]); return; }} state = value_state; break; case FLAG: switch(key) {{ {flag_keys} default: break; }} state = AFTER_VALUE; break; case INT: #define READ_UINT \\ for (i = pos; i < MIN(screen->parser_buf_pos, pos + 10); i++) {{ \\ if (screen->parser_buf[i] < '0' || screen->parser_buf[i] > '9') break; \\ }} \\ if (i == pos) {{ REPORT_ERROR("Malformed {command_class} control block, expecting an integer value for key: %c", key & 0xFF); return; }} \\ lcode = utoi(screen->parser_buf + pos, i - pos); pos = i; \\ if (lcode > UINT32_MAX) {{ REPORT_ERROR("Malformed {command_class} control block, number is too large"); return; }} \\ code = lcode; is_negative = false; if(screen->parser_buf[pos] == '-') {{ is_negative = true; pos++; }} #define I(x) case x: g.x = is_negative ? 0 - (int32_t)code : (int32_t)code; break READ_UINT; switch(key) {{ {int_keys}; default: break; }} state = AFTER_VALUE; break; #undef I case UINT: READ_UINT; #define U(x) case x: g.x = code; break switch(key) {{ {uint_keys}; default: break; }} state = AFTER_VALUE; break; #undef U #undef READ_UINT case AFTER_VALUE: switch (screen->parser_buf[pos++]) {{ default: REPORT_ERROR("Malformed {command_class} control block, expecting a comma or semi-colon after a value, found: 0x%x", screen->parser_buf[pos - 1]); return; case ',': state = KEY; break; {payload_after_value} }} break; {payload_case} }} // end switch }} // end while switch(state) {{ case EQUAL: REPORT_ERROR("Malformed {command_class} control block, no = after key"); return; case INT: case UINT: REPORT_ERROR("Malformed {command_class} control block, expecting an integer value"); return; case FLAG: REPORT_ERROR("Malformed {command_class} control block, expecting a flag value"); return; default: break; }} {report_cmd} {callback}; }} ''' def write_header(text: str, path: str) -> None: with open(path, 'w') as f: print(f'// This file is generated by {os.path.basename(__file__)} do not edit!', file=f, end='\n\n') print('#pragma once', file=f) print(text, file=f) subprocess.check_call(['clang-format', '-i', path]) def graphics_parser() -> None: flag = frozenset keymap: KeymapType = { 'a': ('action', flag('tTqpdfac')), 'd': ('delete_action', flag('aAiIcCfFnNpPqQxXyYzZ')), 't': ('transmission_type', flag('dfts')), 'o': ('compressed', flag('z')), 'f': ('format', 'uint'), 'm': ('more', 'uint'), 'i': ('id', 'uint'), 'I': ('image_number', 'uint'), 'p': ('placement_id', 'uint'), 'q': ('quiet', 'uint'), 'w': ('width', 'uint'), 'h': ('height', 'uint'), 'x': ('x_offset', 'uint'), 'y': ('y_offset', 'uint'), 'v': ('data_height', 'uint'), 's': ('data_width', 'uint'), 'S': ('data_sz', 'uint'), 'O': ('data_offset', 'uint'), 'c': ('num_cells', 'uint'), 'r': ('num_lines', 'uint'), 'X': ('cell_x_offset', 'uint'), 'Y': ('cell_y_offset', 'uint'), 'z': ('z_index', 'int'), 'C': ('cursor_movement', 'uint'), 'U': ('unicode_placement', 'uint'), 'P': ('parent_id', 'uint'), 'Q': ('parent_placement_id', 'uint'), 'H': ('offset_from_parent_x', 'int'), 'V': ('offset_from_parent_y', 'int'), } text = generate('parse_graphics_code', 'screen_handle_graphics_command', 'graphics_command', keymap, 'GraphicsCommand') write_header(text, 'kitty/parse-graphics-command.h') def main(args: List[str]=sys.argv) -> None: graphics_parser() if __name__ == '__main__': import runpy m = runpy.run_path(os.path.dirname(os.path.abspath(__file__))) m['main']([sys.executable, 'apc-parsers'])