/* * Copyright (C) 2017 Denys Vlasenko * * Licensed under GPLv2, see file LICENSE in this source tree. */ //config:config HEXEDIT //config: bool "hexedit" //config: default y //config: help //config: Edit file in hexadecimal. //applet:IF_HEXEDIT(APPLET(hexedit, BB_DIR_USR_BIN, BB_SUID_DROP)) //kbuild:lib-$(CONFIG_HEXEDIT) += hexedit.o #include "libbb.h" #define ESC "\033" #define HOME ESC"[H" #define CLEAR ESC"[H"ESC"[J" struct globals { smallint half; int fd; unsigned height; uint8_t *addr; uint8_t *current_byte; uint8_t *eof_byte; off_t size; off_t offset; struct termios orig_termios; }; #define G (*ptr_to_globals) #define INIT_G() do { \ SET_PTR_TO_GLOBALS(xzalloc(sizeof(G))); \ } while (0) /* Hopefully there aren't arches with PAGE_SIZE > 64k */ #define G_mapsize (64*1024) static void format_line(char *hex, uint8_t *data, off_t offset) { char *text = hex + 16*3; uint8_t *end, *end1; end1 = data + 15; if ((G.size - offset) > 0) { end = end1; if ((G.size - offset) <= 15) end = data + (G.size - offset) - 1; while (data <= end) { uint8_t c = *data++; *hex++ = bb_hexdigits_upcase[c >> 4]; *hex++ = bb_hexdigits_upcase[c & 0xf]; *hex++ = ' '; if (c < ' ' || c > 0x7e) c = '.'; *text++ = c; } } while (data <= end1) { *hex++ = ' '; *hex++ = ' '; *hex++ = ' '; *text++ = ' '; data++; } *text = '\0'; } static void redraw(void) { uint8_t *data; off_t offset; unsigned i; data = G.addr; offset = 0; i = 0; while (i < G.height) { char buf[16*4 + 8]; format_line(buf, data, offset); printf( "\r\n%08"OFF_FMT"x %s" + (!i)*2, /* print \r\n only on 2nd line and later */ offset, buf ); data += 16; offset += 16; i++; } } static void redraw_cur_line(void) { off_t offset; int len; char buf[16*4 + 8]; uint8_t *data; len = (0xf & (uintptr_t)G.current_byte); data = G.current_byte - len; offset = G.offset + (data - G.addr); format_line(buf, data, offset); printf( "\r%08"OFF_FMT"x %s", offset, buf ); printf( "\r%08"OFF_FMT"x %.*s", offset, (len*3 + G.half), buf ); } static void remap(unsigned cur_pos) { if (G.addr) munmap(G.addr, G_mapsize); G.addr = mmap(NULL, G_mapsize, PROT_READ | PROT_WRITE, MAP_SHARED, G.fd, G.offset ); if (G.addr == MAP_FAILED) //TODO: restore termios? bb_perror_msg_and_die("mmap"); G.current_byte = G.addr + cur_pos; G.eof_byte = G.addr + G_mapsize; if ((G.size - G.offset) < G_mapsize) { /* mapping covers tail of the file */ /* we do have a mapped byte which is past eof */ G.eof_byte = G.addr + (G.size - G.offset); } } static void move_mapping_further(void) { unsigned pos; unsigned pagesize; if ((G.size - G.offset) < G_mapsize) return; /* can't move mapping even further, it's at the end already */ pagesize = getpagesize(); /* constant on most arches */ pos = G.current_byte - G.addr; if (pos >= pagesize) { /* Move offset up until current position is in 1st page */ do { G.offset += pagesize; if (G.offset == 0) { /* whoops */ G.offset -= pagesize; break; } pos -= pagesize; } while (pos >= pagesize); remap(pos); } } static void move_mapping_lower(void) { unsigned pos; unsigned pagesize; if (G.offset == 0) return; /* we are at 0 already */ pagesize = getpagesize(); /* constant on most arches */ pos = G.current_byte - G.addr; /* Move offset down until current position is in last page */ pos += pagesize; while (pos < G_mapsize) { pos += pagesize; G.offset -= pagesize; if (G.offset == 0) break; } pos -= pagesize; remap(pos); } static void sig_catcher(int sig) { tcsetattr_stdin_TCSANOW(&G.orig_termios); kill_myself_with_sig(sig); } //usage:#define hexedit_trivial_usage //usage: "FILE" //usage:#define hexedit_full_usage "\n\n" //usage: "Edit FILE in hexadecimal" int hexedit_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; int hexedit_main(int argc UNUSED_PARAM, char **argv) { unsigned row = 0; INIT_G(); getopt32(argv, ""); argv += optind; get_terminal_width_height(-1, NULL, &G.height); G.fd = xopen(*argv, O_RDWR); G.size = xlseek(G.fd, 0, SEEK_END); /* TERMIOS_RAW_CRNL suppresses \n -> \r\n translation, helps with down-arrow */ set_termios_to_raw(STDIN_FILENO, &G.orig_termios, TERMIOS_RAW_CRNL); bb_signals(BB_FATAL_SIGS, sig_catcher); remap(0); printf(CLEAR); redraw(); printf(HOME "%08x ", 0); //TODO: //PgUp/PgDown; Home/End: start/end of line; '<'/'>': start/end of file //Backspace: undo //Enter: goto specified position //Ctrl-L: redraw //Ctrl-X: save and exit (maybe also Q?) //Ctrl-Z: suspend //'/', Ctrl-S: search //TODO: go to end-of-screen on exit (for this, sighandler should interrupt read_key()) //TODO: detect window resize //TODO: read-only mode if open(O_RDWR) fails? hide cursor in this case? //TODO: smarter redraw: if down-arrow is pressed on last visible line, //emit LF, then print the tail of next line, then CR, then beginning - //which makes cursor end up exactly where it should be! Same for up-arrow. for (;;) { char read_key_buffer[KEYCODE_BUFFER_SIZE]; int32_t key; uint8_t byte; fflush_all(); key = read_key(STDIN_FILENO, read_key_buffer, -1); switch (key) { case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': /* lowercase, then convert to '0'+10...15 */ key = (key | 0x20) - ('a' - '0' - 10); /* fall through */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (G.current_byte == G.eof_byte) { move_mapping_further(); if (G.current_byte == G.eof_byte) { /* extend the file */ if (++G.size <= 0 /* overflow? */ || ftruncate(G.fd, G.size) != 0 /* error extending? (e.g. block dev) */ ) { G.size--; break; } G.eof_byte++; } } key -= '0'; byte = *G.current_byte & 0xf0; if (!G.half) { byte = *G.current_byte & 0x0f; key <<= 4; } *G.current_byte = byte + key; /* can't just print one updated hex char: need to update right-hand ASCII too */ redraw_cur_line(); /* fall through */ case KEYCODE_RIGHT: if (G.current_byte == G.eof_byte) break; /* eof - don't allow going past it */ byte = *G.current_byte; if (!G.half) { G.half = 1; putchar(bb_hexdigits_upcase[byte >> 4]); } else { G.half = 0; G.current_byte++; if ((0xf & (uintptr_t)G.current_byte) == 0) { /* rightmost pos, wrap to next line */ if (G.current_byte == G.eof_byte) move_mapping_further(); printf(ESC"[46D"); /* cursor left 3*15 + 1 chars */ goto down; } putchar(bb_hexdigits_upcase[byte & 0xf]); putchar(' '); } break; case KEYCODE_DOWN: G.current_byte += 16; if (G.current_byte >= G.eof_byte) { move_mapping_further(); if (G.current_byte > G.eof_byte) { /* eof - don't allow going past it */ G.current_byte -= 16; break; } } down: putchar('\n'); /* down one line, possibly scroll screen */ row++; if (row >= G.height) { row--; redraw_cur_line(); } break; case KEYCODE_LEFT: if (G.half) { G.half = 0; printf(ESC"[D"); break; } if ((0xf & (uintptr_t)G.current_byte) == 0) { /* leftmost pos, wrap to prev line */ if (G.current_byte == G.addr) move_mapping_lower(); if ((G.current_byte - G.addr) < 16) break; /* first line, don't do anything */ G.half = 1; G.current_byte--; printf(ESC"[46C"); /* cursor right 3*15 + 1 chars */ goto up; } G.half = 1; G.current_byte--; printf(ESC"[2D"); break; case KEYCODE_UP: if ((G.current_byte - G.addr) < 16) { move_mapping_lower(); if ((G.current_byte - G.addr) < 16) break; } G.current_byte -= 16; up: if (row != 0) { row--; printf(ESC"[A"); /* up (won't scroll) */ } else { //printf(ESC"[T"); /* scroll up */ - not implemented on Linux VT! printf(ESC"M"); /* scroll up */ redraw_cur_line(); } break; } } return EXIT_SUCCESS; }