/* vi: set sw=4 ts=4: */ /* * sed.c - very minimalist version of sed * * Copyright (C) 1999,2000,2001 by Lineo, inc. and Mark Whitley * Copyright (C) 1999,2000,2001 by Mark Whitley * Copyright (C) 2002 Matt Kraai * Copyright (C) 2003 by Glenn McGrath * Copyright (C) 2003,2004 by Rob Landley * * MAINTAINER: Rob Landley * * Licensed under GPL version 2, see file LICENSE in this tarball for details. */ /* Code overview. Files are laid out to avoid unnecessary function declarations. So for example, every function add_cmd calls occurs before add_cmd in this file. add_cmd() is called on each line of sed command text (from a file or from the command line). It calls get_address() and parse_cmd_args(). The resulting sed_cmd_t structures are appended to a linked list (G.sed_cmd_head/G.sed_cmd_tail). add_input_file() adds a FILE * to the list of input files. We need to know all input sources ahead of time to find the last line for the $ match. process_files() does actual sedding, reading data lines from each input FILE * (which could be stdin) and applying the sed command list (sed_cmd_head) to each of the resulting lines. sed_main() is where external code calls into this, with a command line. */ /* Supported features and commands in this version of sed: - comments ('#') - address matching: num|/matchstr/[,num|/matchstr/|$]command - commands: (p)rint, (d)elete, (s)ubstitue (with g & I flags) - edit commands: (a)ppend, (i)nsert, (c)hange - file commands: (r)ead - backreferences in substitution expressions (\0, \1, \2...\9) - grouped commands: {cmd1;cmd2} - transliteration (y/source-chars/dest-chars/) - pattern space hold space storing / swapping (g, h, x) - labels / branching (: label, b, t, T) (Note: Specifying an address (range) to match is *optional*; commands default to the whole pattern space if no specific address match was requested.) Todo: - Create a wrapper around regex to make libc's regex conform with sed Reference http://www.opengroup.org/onlinepubs/007904975/utilities/sed.html */ #include "libbb.h" #include "xregex.h" /* Each sed command turns into one of these structures. */ typedef struct sed_cmd_s { /* Ordered by alignment requirements: currently 36 bytes on x86 */ struct sed_cmd_s *next; /* Next command (linked list, NULL terminated) */ /* address storage */ regex_t *beg_match; /* sed -e '/match/cmd' */ regex_t *end_match; /* sed -e '/match/,/end_match/cmd' */ regex_t *sub_match; /* For 's/sub_match/string/' */ int beg_line; /* 'sed 1p' 0 == apply commands to all lines */ int end_line; /* 'sed 1,3p' 0 == one line only. -1 = last line ($) */ FILE *sw_file; /* File (sw) command writes to, -1 for none. */ char *string; /* Data string for (saicytb) commands. */ unsigned short which_match; /* (s) Which match to replace (0 for all) */ /* Bitfields (gcc won't group them if we don't) */ unsigned invert:1; /* the '!' after the address */ unsigned in_match:1; /* Next line also included in match? */ unsigned sub_p:1; /* (s) print option */ char sw_last_char; /* Last line written by (sw) had no '\n' */ /* GENERAL FIELDS */ char cmd; /* The command char: abcdDgGhHilnNpPqrstwxy:={} */ } sed_cmd_t; static const char semicolon_whitespace[] ALIGN1 = "; \n\r\t\v"; struct globals { /* options */ int be_quiet, regex_type; FILE *nonstdout; char *outname, *hold_space; /* List of input files */ int input_file_count, current_input_file; FILE **input_file_list; regmatch_t regmatch[10]; regex_t *previous_regex_ptr; /* linked list of sed commands */ sed_cmd_t sed_cmd_head, *sed_cmd_tail; /* Linked list of append lines */ llist_t *append_head; char *add_cmd_line; struct pipeline { char *buf; /* Space to hold string */ int idx; /* Space used */ int len; /* Space allocated */ } pipeline; }; #define G (*(struct globals*)&bb_common_bufsiz1) void BUG_sed_globals_too_big(void); #define INIT_G() do { \ if (sizeof(struct globals) > COMMON_BUFSIZE) \ BUG_sed_globals_too_big(); \ G.sed_cmd_tail = &G.sed_cmd_head; \ } while (0) #if ENABLE_FEATURE_CLEAN_UP static void sed_free_and_close_stuff(void) { sed_cmd_t *sed_cmd = G.sed_cmd_head.next; llist_free(G.append_head, free); while (sed_cmd) { sed_cmd_t *sed_cmd_next = sed_cmd->next; if (sed_cmd->sw_file) xprint_and_close_file(sed_cmd->sw_file); if (sed_cmd->beg_match) { regfree(sed_cmd->beg_match); free(sed_cmd->beg_match); } if (sed_cmd->end_match) { regfree(sed_cmd->end_match); free(sed_cmd->end_match); } if (sed_cmd->sub_match) { regfree(sed_cmd->sub_match); free(sed_cmd->sub_match); } free(sed_cmd->string); free(sed_cmd); sed_cmd = sed_cmd_next; } if (G.hold_space) free(G.hold_space); while (G.current_input_file < G.input_file_count) fclose(G.input_file_list[G.current_input_file++]); } #else void sed_free_and_close_stuff(void); #endif /* If something bad happens during -i operation, delete temp file */ static void cleanup_outname(void) { if (G.outname) unlink(G.outname); } /* strdup, replacing "\n" with '\n', and "\delimiter" with 'delimiter' */ static void parse_escapes(char *dest, const char *string, int len, char from, char to) { int i = 0; while (i < len) { if (string[i] == '\\') { if (!to || string[i+1] == from) { *dest++ = to ? to : string[i+1]; i += 2; continue; } *dest++ = string[i++]; } *dest++ = string[i++]; } *dest = 0; } static char *copy_parsing_escapes(const char *string, int len) { char *dest = xmalloc(len + 1); parse_escapes(dest, string, len, 'n', '\n'); return dest; } /* * index_of_next_unescaped_regexp_delim - walks left to right through a string * beginning at a specified index and returns the index of the next regular * expression delimiter (typically a forward * slash ('/')) not preceded by * a backslash ('\'). A negative delimiter disables square bracket checking. */ static int index_of_next_unescaped_regexp_delim(int delimiter, const char *str) { int bracket = -1; int escaped = 0; int idx = 0; char ch; if (delimiter < 0) { bracket--; delimiter = -delimiter; } for (; (ch = str[idx]); idx++) { if (bracket >= 0) { if (ch == ']' && !(bracket == idx - 1 || (bracket == idx - 2 && str[idx - 1] == '^'))) bracket = -1; } else if (escaped) escaped = 0; else if (ch == '\\') escaped = 1; else if (bracket == -1 && ch == '[') bracket = idx; else if (ch == delimiter) return idx; } /* if we make it to here, we've hit the end of the string */ bb_error_msg_and_die("unmatched '%c'", delimiter); } /* * Returns the index of the third delimiter */ static int parse_regex_delim(const char *cmdstr, char **match, char **replace) { const char *cmdstr_ptr = cmdstr; char delimiter; int idx = 0; /* verify that the 's' or 'y' is followed by something. That something * (typically a 'slash') is now our regexp delimiter... */ if (*cmdstr == '\0') bb_error_msg_and_die("bad format in substitution expression"); delimiter = *cmdstr_ptr++; /* save the match string */ idx = index_of_next_unescaped_regexp_delim(delimiter, cmdstr_ptr); *match = copy_parsing_escapes(cmdstr_ptr, idx); /* save the replacement string */ cmdstr_ptr += idx + 1; idx = index_of_next_unescaped_regexp_delim(-delimiter, cmdstr_ptr); *replace = copy_parsing_escapes(cmdstr_ptr, idx); return ((cmdstr_ptr - cmdstr) + idx); } /* * returns the index in the string just past where the address ends. */ static int get_address(const char *my_str, int *linenum, regex_t ** regex) { const char *pos = my_str; if (isdigit(*my_str)) { *linenum = strtol(my_str, (char**)&pos, 10); /* endstr shouldnt ever equal NULL */ } else if (*my_str == '$') { *linenum = -1; pos++; } else if (*my_str == '/' || *my_str == '\\') { int next; char delimiter; char *temp; delimiter = '/'; if (*my_str == '\\') delimiter = *++pos; next = index_of_next_unescaped_regexp_delim(delimiter, ++pos); temp = copy_parsing_escapes(pos, next); *regex = xmalloc(sizeof(regex_t)); xregcomp(*regex, temp, G.regex_type|REG_NEWLINE); free(temp); /* Move position to next character after last delimiter */ pos += (next+1); } return pos - my_str; } /* Grab a filename. Whitespace at start is skipped, then goes to EOL. */ static int parse_file_cmd(sed_cmd_t *sed_cmd, const char *filecmdstr, char **retval) { int start = 0, idx, hack = 0; /* Skip whitespace, then grab filename to end of line */ while (isspace(filecmdstr[start])) start++; idx = start; while (filecmdstr[idx] && filecmdstr[idx] != '\n') idx++; /* If lines glued together, put backslash back. */ if (filecmdstr[idx] == '\n') hack = 1; if (idx == start) bb_error_msg_and_die("empty filename"); *retval = xstrndup(filecmdstr+start, idx-start+hack+1); if (hack) (*retval)[idx] = '\\'; return idx; } static int parse_subst_cmd(sed_cmd_t *sed_cmd, const char *substr) { int cflags = G.regex_type; char *match; int idx; /* * A substitution command should look something like this: * s/match/replace/ #gIpw * || | ||| * mandatory optional */ idx = parse_regex_delim(substr, &match, &sed_cmd->string); /* determine the number of back references in the match string */ /* Note: we compute this here rather than in the do_subst_command() * function to save processor time, at the expense of a little more memory * (4 bits) per sed_cmd */ /* process the flags */ sed_cmd->which_match = 1; while (substr[++idx]) { /* Parse match number */ if (isdigit(substr[idx])) { if (match[0] != '^') { /* Match 0 treated as all, multiple matches we take the last one. */ const char *pos = substr + idx; /* FIXME: error check? */ sed_cmd->which_match = (unsigned short)strtol(substr+idx, (char**) &pos, 10); idx = pos - substr; } continue; } /* Skip spaces */ if (isspace(substr[idx])) continue; switch (substr[idx]) { /* Replace all occurrences */ case 'g': if (match[0] != '^') sed_cmd->which_match = 0; break; /* Print pattern space */ case 'p': sed_cmd->sub_p = 1; break; /* Write to file */ case 'w': { char *temp; idx += parse_file_cmd(sed_cmd, substr+idx, &temp); break; } /* Ignore case (gnu exension) */ case 'I': cflags |= REG_ICASE; break; /* Comment */ case '#': while (substr[++idx]) /*skip all*/; /* Fall through */ /* End of command */ case ';': case '}': goto out; default: bb_error_msg_and_die("bad option in substitution expression"); } } out: /* compile the match string into a regex */ if (*match != '\0') { /* If match is empty, we use last regex used at runtime */ sed_cmd->sub_match = xmalloc(sizeof(regex_t)); xregcomp(sed_cmd->sub_match, match, cflags); } free(match); return idx; } /* * Process the commands arguments */ static const char *parse_cmd_args(sed_cmd_t *sed_cmd, const char *cmdstr) { /* handle (s)ubstitution command */ if (sed_cmd->cmd == 's') cmdstr += parse_subst_cmd(sed_cmd, cmdstr); /* handle edit cmds: (a)ppend, (i)nsert, and (c)hange */ else if (strchr("aic", sed_cmd->cmd)) { if ((sed_cmd->end_line || sed_cmd->end_match) && sed_cmd->cmd != 'c') bb_error_msg_and_die ("only a beginning address can be specified for edit commands"); for (;;) { if (*cmdstr == '\n' || *cmdstr == '\\') { cmdstr++; break; } else if (isspace(*cmdstr)) cmdstr++; else break; } sed_cmd->string = xstrdup(cmdstr); parse_escapes(sed_cmd->string, sed_cmd->string, strlen(cmdstr), 0, 0); cmdstr += strlen(cmdstr); /* handle file cmds: (r)ead */ } else if (strchr("rw", sed_cmd->cmd)) { if (sed_cmd->end_line || sed_cmd->end_match) bb_error_msg_and_die("command only uses one address"); cmdstr += parse_file_cmd(sed_cmd, cmdstr, &sed_cmd->string); if (sed_cmd->cmd == 'w') { sed_cmd->sw_file = xfopen(sed_cmd->string, "w"); sed_cmd->sw_last_char = '\n'; } /* handle branch commands */ } else if (strchr(":btT", sed_cmd->cmd)) { int length; cmdstr = skip_whitespace(cmdstr); length = strcspn(cmdstr, semicolon_whitespace); if (length) { sed_cmd->string = xstrndup(cmdstr, length); cmdstr += length; } } /* translation command */ else if (sed_cmd->cmd == 'y') { char *match, *replace; int i = cmdstr[0]; cmdstr += parse_regex_delim(cmdstr, &match, &replace)+1; /* \n already parsed, but \delimiter needs unescaping. */ parse_escapes(match, match, strlen(match), i, i); parse_escapes(replace, replace, strlen(replace), i, i); sed_cmd->string = xzalloc((strlen(match) + 1) * 2); for (i = 0; match[i] && replace[i]; i++) { sed_cmd->string[i*2] = match[i]; sed_cmd->string[i*2+1] = replace[i]; } free(match); free(replace); } /* if it wasnt a single-letter command that takes no arguments * then it must be an invalid command. */ else if (strchr("dDgGhHlnNpPqx={}", sed_cmd->cmd) == 0) { bb_error_msg_and_die("unsupported command %c", sed_cmd->cmd); } /* give back whatever's left over */ return cmdstr; } /* Parse address+command sets, skipping comment lines. */ static void add_cmd(const char *cmdstr) { sed_cmd_t *sed_cmd; int temp; /* Append this line to any unfinished line from last time. */ if (G.add_cmd_line) { char *tp = xasprintf("%s\n%s", G.add_cmd_line, cmdstr); free(G.add_cmd_line); cmdstr = G.add_cmd_line = tp; } /* If this line ends with backslash, request next line. */ temp = strlen(cmdstr); if (temp && cmdstr[--temp] == '\\') { if (!G.add_cmd_line) G.add_cmd_line = xstrdup(cmdstr); G.add_cmd_line[temp] = '\0'; return; } /* Loop parsing all commands in this line. */ while (*cmdstr) { /* Skip leading whitespace and semicolons */ cmdstr += strspn(cmdstr, semicolon_whitespace); /* If no more commands, exit. */ if (!*cmdstr) break; /* if this is a comment, jump past it and keep going */ if (*cmdstr == '#') { /* "#n" is the same as using -n on the command line */ if (cmdstr[1] == 'n') G.be_quiet++; cmdstr = strpbrk(cmdstr, "\n\r"); if (!cmdstr) break; continue; } /* parse the command * format is: [addr][,addr][!]cmd * |----||-----||-| * part1 part2 part3 */ sed_cmd = xzalloc(sizeof(sed_cmd_t)); /* first part (if present) is an address: either a '$', a number or a /regex/ */ cmdstr += get_address(cmdstr, &sed_cmd->beg_line, &sed_cmd->beg_match); /* second part (if present) will begin with a comma */ if (*cmdstr == ',') { int idx; cmdstr++; idx = get_address(cmdstr, &sed_cmd->end_line, &sed_cmd->end_match); if (!idx) bb_error_msg_and_die("no address after comma"); cmdstr += idx; } /* skip whitespace before the command */ cmdstr = skip_whitespace(cmdstr); /* Check for inversion flag */ if (*cmdstr == '!') { sed_cmd->invert = 1; cmdstr++; /* skip whitespace before the command */ cmdstr = skip_whitespace(cmdstr); } /* last part (mandatory) will be a command */ if (!*cmdstr) bb_error_msg_and_die("missing command"); sed_cmd->cmd = *(cmdstr++); cmdstr = parse_cmd_args(sed_cmd, cmdstr); /* Add the command to the command array */ G.sed_cmd_tail->next = sed_cmd; G.sed_cmd_tail = G.sed_cmd_tail->next; } /* If we glued multiple lines together, free the memory. */ free(G.add_cmd_line); G.add_cmd_line = NULL; } /* Append to a string, reallocating memory as necessary. */ #define PIPE_GROW 64 static void pipe_putc(char c) { if (G.pipeline.idx == G.pipeline.len) { G.pipeline.buf = xrealloc(G.pipeline.buf, G.pipeline.len + PIPE_GROW); G.pipeline.len += PIPE_GROW; } G.pipeline.buf[G.pipeline.idx++] = c; } static void do_subst_w_backrefs(char *line, char *replace) { int i,j; /* go through the replacement string */ for (i = 0; replace[i]; i++) { /* if we find a backreference (\1, \2, etc.) print the backref'ed * text */ if (replace[i] == '\\') { unsigned backref = replace[++i] - '0'; if (backref <= 9) { /* print out the text held in G.regmatch[backref] */ if (G.regmatch[backref].rm_so != -1) { j = G.regmatch[backref].rm_so; while (j < G.regmatch[backref].rm_eo) pipe_putc(line[j++]); } continue; } /* I _think_ it is impossible to get '\' to be * the last char in replace string. Thus we dont check * for replace[i] == NUL. (counterexample anyone?) */ /* if we find a backslash escaped character, print the character */ pipe_putc(replace[i]); continue; } /* if we find an unescaped '&' print out the whole matched text. */ if (replace[i] == '&') { j = G.regmatch[0].rm_so; while (j < G.regmatch[0].rm_eo) pipe_putc(line[j++]); continue; } /* Otherwise just output the character. */ pipe_putc(replace[i]); } } static int do_subst_command(sed_cmd_t *sed_cmd, char **line) { char *oldline = *line; int altered = 0; int match_count = 0; regex_t *current_regex; /* Handle empty regex. */ if (sed_cmd->sub_match == NULL) { current_regex = G.previous_regex_ptr; if (!current_regex) bb_error_msg_and_die("no previous regexp"); } else G.previous_regex_ptr = current_regex = sed_cmd->sub_match; /* Find the first match */ if (REG_NOMATCH == regexec(current_regex, oldline, 10, G.regmatch, 0)) return 0; /* Initialize temporary output buffer. */ G.pipeline.buf = xmalloc(PIPE_GROW); G.pipeline.len = PIPE_GROW; G.pipeline.idx = 0; /* Now loop through, substituting for matches */ do { int i; /* Work around bug in glibc regexec, demonstrated by: echo " a.b" | busybox sed 's [^ .]* x g' The match_count check is so not to break echo "hi" | busybox sed 's/^/!/g' */ if (!G.regmatch[0].rm_so && !G.regmatch[0].rm_eo && match_count) { pipe_putc(*oldline++); continue; } match_count++; /* If we aren't interested in this match, output old line to end of match and continue */ if (sed_cmd->which_match && sed_cmd->which_match != match_count) { for (i = 0; i < G.regmatch[0].rm_eo; i++) pipe_putc(*oldline++); continue; } /* print everything before the match */ for (i = 0; i < G.regmatch[0].rm_so; i++) pipe_putc(oldline[i]); /* then print the substitution string */ do_subst_w_backrefs(oldline, sed_cmd->string); /* advance past the match */ oldline += G.regmatch[0].rm_eo; /* flag that something has changed */ altered++; /* if we're not doing this globally, get out now */ if (sed_cmd->which_match) break; } while (*oldline && (regexec(current_regex, oldline, 10, G.regmatch, 0) != REG_NOMATCH)); /* Copy rest of string into output pipeline */ while (*oldline) pipe_putc(*oldline++); pipe_putc(0); free(*line); *line = G.pipeline.buf; return altered; } /* Set command pointer to point to this label. (Does not handle null label.) */ static sed_cmd_t *branch_to(char *label) { sed_cmd_t *sed_cmd; for (sed_cmd = G.sed_cmd_head.next; sed_cmd; sed_cmd = sed_cmd->next) { if (sed_cmd->cmd == ':' && sed_cmd->string && !strcmp(sed_cmd->string, label)) { return sed_cmd; } } bb_error_msg_and_die("can't find label for jump to '%s'", label); } static void append(char *s) { llist_add_to_end(&G.append_head, xstrdup(s)); } static void flush_append(void) { char *data; /* Output appended lines. */ while ((data = (char *)llist_pop(&G.append_head))) { fprintf(G.nonstdout, "%s\n", data); free(data); } } static void add_input_file(FILE *file) { G.input_file_list = xrealloc(G.input_file_list, (G.input_file_count + 1) * sizeof(FILE *)); G.input_file_list[G.input_file_count++] = file; } /* Get next line of input from G.input_file_list, flushing append buffer and * noting if we ran out of files without a newline on the last line we read. */ enum { NO_EOL_CHAR = 1, LAST_IS_NUL = 2, }; static char *get_next_line(char *gets_char) { char *temp = NULL; int len; char gc; flush_append(); /* will be returned if last line in the file * doesn't end with either '\n' or '\0' */ gc = NO_EOL_CHAR; while (G.current_input_file < G.input_file_count) { FILE *fp = G.input_file_list[G.current_input_file]; /* Read line up to a newline or NUL byte, inclusive, * return malloc'ed char[]. length of the chunk read * is stored in len. NULL if EOF/error */ temp = bb_get_chunk_from_file(fp, &len); if (temp) { /* len > 0 here, it's ok to do temp[len-1] */ char c = temp[len-1]; if (c == '\n' || c == '\0') { temp[len-1] = '\0'; gc = c; if (c == '\0') { int ch = fgetc(fp); if (ch != EOF) ungetc(ch, fp); else gc = LAST_IS_NUL; } } /* else we put NO_EOL_CHAR into *gets_char */ break; /* NB: I had the idea of peeking next file(s) and returning * NO_EOL_CHAR only if it is the *last* non-empty * input file. But there is a case where this won't work: * file1: "a woo\nb woo" * file2: "c no\nd no" * sed -ne 's/woo/bang/p' input1 input2 => "a bang\nb bang" * (note: *no* newline after "b bang"!) */ } /* Close this file and advance to next one */ fclose(fp); G.current_input_file++; } *gets_char = gc; return temp; } /* Output line of text. */ /* Note: * The tricks with NO_EOL_CHAR and last_puts_char are there to emulate gnu sed. * Without them, we had this: * echo -n thingy >z1 * echo -n again >z2 * >znull * sed "s/i/z/" z1 z2 znull | hexdump -vC * output: * gnu sed 4.1.5: * 00000000 74 68 7a 6e 67 79 0a 61 67 61 7a 6e |thzngy.agazn| * bbox: * 00000000 74 68 7a 6e 67 79 61 67 61 7a 6e |thzngyagazn| */ static void puts_maybe_newline(char *s, FILE *file, char *last_puts_char, char last_gets_char) { char lpc = *last_puts_char; /* Need to insert a '\n' between two files because first file's * last line wasn't terminated? */ if (lpc != '\n' && lpc != '\0') { fputc('\n', file); lpc = '\n'; } fputs(s, file); /* 'x' - just something which is not '\n', '\0' or NO_EOL_CHAR */ if (s[0]) lpc = 'x'; /* had trailing '\0' and it was last char of file? */ if (last_gets_char == LAST_IS_NUL) { fputc('\0', file); lpc = 'x'; /* */ } else /* had trailing '\n' or '\0'? */ if (last_gets_char != NO_EOL_CHAR) { fputc(last_gets_char, file); lpc = last_gets_char; } if (ferror(file)) { xfunc_error_retval = 4; /* It's what gnu sed exits with... */ bb_error_msg_and_die(bb_msg_write_error); } *last_puts_char = lpc; } #define sed_puts(s, n) (puts_maybe_newline(s, G.nonstdout, &last_puts_char, n)) static int beg_match(sed_cmd_t *sed_cmd, const char *pattern_space) { int retval = sed_cmd->beg_match && !regexec(sed_cmd->beg_match, pattern_space, 0, NULL, 0); if (retval) G.previous_regex_ptr = sed_cmd->beg_match; return retval; } /* Process all the lines in all the files */ static void process_files(void) { char *pattern_space, *next_line; int linenum = 0; char last_puts_char = '\n'; char last_gets_char, next_gets_char; sed_cmd_t *sed_cmd; int substituted; /* Prime the pump */ next_line = get_next_line(&next_gets_char); /* go through every line in each file */ again: substituted = 0; /* Advance to next line. Stop if out of lines. */ pattern_space = next_line; if (!pattern_space) return; last_gets_char = next_gets_char; /* Read one line in advance so we can act on the last line, * the '$' address */ next_line = get_next_line(&next_gets_char); linenum++; restart: /* for every line, go through all the commands */ for (sed_cmd = G.sed_cmd_head.next; sed_cmd; sed_cmd = sed_cmd->next) { int old_matched, matched; old_matched = sed_cmd->in_match; /* Determine if this command matches this line: */ /* Are we continuing a previous multi-line match? */ sed_cmd->in_match = sed_cmd->in_match /* Or is no range necessary? */ || (!sed_cmd->beg_line && !sed_cmd->end_line && !sed_cmd->beg_match && !sed_cmd->end_match) /* Or did we match the start of a numerical range? */ || (sed_cmd->beg_line > 0 && (sed_cmd->beg_line == linenum)) /* Or does this line match our begin address regex? */ || (beg_match(sed_cmd, pattern_space)) /* Or did we match last line of input? */ || (sed_cmd->beg_line == -1 && next_line == NULL); /* Snapshot the value */ matched = sed_cmd->in_match; /* Is this line the end of the current match? */ if (matched) { sed_cmd->in_match = !( /* has the ending line come, or is this a single address command? */ (sed_cmd->end_line ? sed_cmd->end_line == -1 ? !next_line : (sed_cmd->end_line <= linenum) : !sed_cmd->end_match ) /* or does this line matches our last address regex */ || (sed_cmd->end_match && old_matched && (regexec(sed_cmd->end_match, pattern_space, 0, NULL, 0) == 0)) ); } /* Skip blocks of commands we didn't match. */ if (sed_cmd->cmd == '{') { if (sed_cmd->invert ? matched : !matched) { while (sed_cmd->cmd != '}') { sed_cmd = sed_cmd->next; if (!sed_cmd) bb_error_msg_and_die("unterminated {"); } } continue; } /* Okay, so did this line match? */ if (sed_cmd->invert ? !matched : matched) { /* Update last used regex in case a blank substitute BRE is found */ if (sed_cmd->beg_match) { G.previous_regex_ptr = sed_cmd->beg_match; } /* actual sedding */ switch (sed_cmd->cmd) { /* Print line number */ case '=': fprintf(G.nonstdout, "%d\n", linenum); break; /* Write the current pattern space up to the first newline */ case 'P': { char *tmp = strchr(pattern_space, '\n'); if (tmp) { *tmp = '\0'; /* TODO: explain why '\n' below */ sed_puts(pattern_space, '\n'); *tmp = '\n'; break; } /* Fall Through */ } /* Write the current pattern space to output */ case 'p': /* NB: we print this _before_ the last line * (of current file) is printed. Even if * that line is nonterminated, we print * '\n' here (gnu sed does the same) */ sed_puts(pattern_space, '\n'); break; /* Delete up through first newline */ case 'D': { char *tmp = strchr(pattern_space, '\n'); if (tmp) { tmp = xstrdup(tmp+1); free(pattern_space); pattern_space = tmp; goto restart; } } /* discard this line. */ case 'd': goto discard_line; /* Substitute with regex */ case 's': if (!do_subst_command(sed_cmd, &pattern_space)) break; substituted |= 1; /* handle p option */ if (sed_cmd->sub_p) sed_puts(pattern_space, last_gets_char); /* handle w option */ if (sed_cmd->sw_file) puts_maybe_newline( pattern_space, sed_cmd->sw_file, &sed_cmd->sw_last_char, last_gets_char); break; /* Append line to linked list to be printed later */ case 'a': append(sed_cmd->string); break; /* Insert text before this line */ case 'i': sed_puts(sed_cmd->string, '\n'); break; /* Cut and paste text (replace) */ case 'c': /* Only triggers on last line of a matching range. */ if (!sed_cmd->in_match) sed_puts(sed_cmd->string, NO_EOL_CHAR); goto discard_line; /* Read file, append contents to output */ case 'r': { FILE *rfile; rfile = fopen(sed_cmd->string, "r"); if (rfile) { char *line; while ((line = xmalloc_getline(rfile)) != NULL) append(line); xprint_and_close_file(rfile); } break; } /* Write pattern space to file. */ case 'w': puts_maybe_newline( pattern_space, sed_cmd->sw_file, &sed_cmd->sw_last_char, last_gets_char); break; /* Read next line from input */ case 'n': if (!G.be_quiet) sed_puts(pattern_space, last_gets_char); if (next_line) { free(pattern_space); pattern_space = next_line; last_gets_char = next_gets_char; next_line = get_next_line(&next_gets_char); linenum++; break; } /* fall through */ /* Quit. End of script, end of input. */ case 'q': /* Exit the outer while loop */ free(next_line); next_line = NULL; goto discard_commands; /* Append the next line to the current line */ case 'N': { int len; /* If no next line, jump to end of script and exit. */ if (next_line == NULL) { /* Jump to end of script and exit */ free(next_line); next_line = NULL; goto discard_line; /* append next_line, read new next_line. */ } len = strlen(pattern_space); pattern_space = realloc(pattern_space, len + strlen(next_line) + 2); pattern_space[len] = '\n'; strcpy(pattern_space + len+1, next_line); last_gets_char = next_gets_char; next_line = get_next_line(&next_gets_char); linenum++; break; } /* Test/branch if substitution occurred */ case 't': if (!substituted) break; substituted = 0; /* Fall through */ /* Test/branch if substitution didn't occur */ case 'T': if (substituted) break; /* Fall through */ /* Branch to label */ case 'b': if (!sed_cmd->string) goto discard_commands; else sed_cmd = branch_to(sed_cmd->string); break; /* Transliterate characters */ case 'y': { int i, j; for (i = 0; pattern_space[i]; i++) { for (j = 0; sed_cmd->string[j]; j += 2) { if (pattern_space[i] == sed_cmd->string[j]) { pattern_space[i] = sed_cmd->string[j + 1]; break; } } } break; } case 'g': /* Replace pattern space with hold space */ free(pattern_space); pattern_space = xstrdup(G.hold_space ? G.hold_space : ""); break; case 'G': /* Append newline and hold space to pattern space */ { int pattern_space_size = 2; int hold_space_size = 0; if (pattern_space) pattern_space_size += strlen(pattern_space); if (G.hold_space) hold_space_size = strlen(G.hold_space); pattern_space = xrealloc(pattern_space, pattern_space_size + hold_space_size); if (pattern_space_size == 2) pattern_space[0] = 0; strcat(pattern_space, "\n"); if (G.hold_space) strcat(pattern_space, G.hold_space); last_gets_char = '\n'; break; } case 'h': /* Replace hold space with pattern space */ free(G.hold_space); G.hold_space = xstrdup(pattern_space); break; case 'H': /* Append newline and pattern space to hold space */ { int hold_space_size = 2; int pattern_space_size = 0; if (G.hold_space) hold_space_size += strlen(G.hold_space); if (pattern_space) pattern_space_size = strlen(pattern_space); G.hold_space = xrealloc(G.hold_space, hold_space_size + pattern_space_size); if (hold_space_size == 2) *G.hold_space = 0; strcat(G.hold_space, "\n"); if (pattern_space) strcat(G.hold_space, pattern_space); break; } case 'x': /* Exchange hold and pattern space */ { char *tmp = pattern_space; pattern_space = G.hold_space ? : xzalloc(1); last_gets_char = '\n'; G.hold_space = tmp; break; } } } } /* * exit point from sedding... */ discard_commands: /* we will print the line unless we were told to be quiet ('-n') or if the line was suppressed (ala 'd'elete) */ if (!G.be_quiet) sed_puts(pattern_space, last_gets_char); /* Delete and such jump here. */ discard_line: flush_append(); free(pattern_space); goto again; } /* It is possible to have a command line argument with embedded * newlines. This counts as multiple command lines. * However, newline can be escaped: 's/e/z\z/' * We check for this. */ static void add_cmd_block(char *cmdstr) { char *sv, *eol; cmdstr = sv = xstrdup(cmdstr); do { eol = strchr(cmdstr, '\n'); next: if (eol) { /* Count preceding slashes */ int slashes = 0; char *sl = eol; while (sl != cmdstr && *--sl == '\\') slashes++; /* Odd number of preceding slashes - newline is escaped */ if (slashes & 1) { strcpy(eol-1, eol); eol = strchr(eol, '\n'); goto next; } *eol = '\0'; } add_cmd(cmdstr); cmdstr = eol + 1; } while (eol); free(sv); } int sed_main(int argc, char **argv); int sed_main(int argc, char **argv) { enum { OPT_in_place = 1 << 0, }; unsigned opt; llist_t *opt_e, *opt_f; int status = EXIT_SUCCESS; INIT_G(); /* destroy command strings on exit */ if (ENABLE_FEATURE_CLEAN_UP) atexit(sed_free_and_close_stuff); /* Lie to autoconf when it starts asking stupid questions. */ if (argc == 2 && !strcmp(argv[1], "--version")) { puts("This is not GNU sed version 4.0"); return 0; } /* do normal option parsing */ opt_e = opt_f = NULL; opt_complementary = "e::f::" /* can occur multiple times */ "nn"; /* count -n */ opt = getopt32(argv, "irne:f:", &opt_e, &opt_f, &G.be_quiet); /* counter for -n */ argc -= optind; argv += optind; if (opt & OPT_in_place) { // -i atexit(cleanup_outname); } if (opt & 0x2) G.regex_type |= REG_EXTENDED; // -r //if (opt & 0x4) G.be_quiet++; // -n while (opt_e) { // -e add_cmd_block(opt_e->data); opt_e = opt_e->link; /* we leak opt_e here... */ } while (opt_f) { // -f char *line; FILE *cmdfile; cmdfile = xfopen(opt_f->data, "r"); while ((line = xmalloc_getline(cmdfile)) != NULL) { add_cmd(line); free(line); } fclose(cmdfile); opt_f = opt_f->link; /* we leak opt_f here... */ } /* if we didn't get a pattern from -e or -f, use argv[0] */ if (!(opt & 0x18)) { if (!argc) bb_show_usage(); add_cmd_block(*argv++); argc--; } /* Flush any unfinished commands. */ add_cmd(""); /* By default, we write to stdout */ G.nonstdout = stdout; /* argv[0..(argc-1)] should be names of file to process. If no * files were specified or '-' was specified, take input from stdin. * Otherwise, we process all the files specified. */ if (argv[0] == NULL) { if (opt & OPT_in_place) bb_error_msg_and_die(bb_msg_requires_arg, "-i"); add_input_file(stdin); process_files(); } else { int i; FILE *file; for (i = 0; i < argc; i++) { struct stat statbuf; int nonstdoutfd; if (LONE_DASH(argv[i]) && !(opt & OPT_in_place)) { add_input_file(stdin); process_files(); continue; } file = fopen_or_warn(argv[i], "r"); if (!file) { status = EXIT_FAILURE; continue; } if (!(opt & OPT_in_place)) { add_input_file(file); continue; } G.outname = xasprintf("%sXXXXXX", argv[i]); nonstdoutfd = mkstemp(G.outname); if (-1 == nonstdoutfd) bb_perror_msg_and_die("cannot create temp file %s", G.outname); G.nonstdout = fdopen(nonstdoutfd, "w"); /* Set permissions of output file */ fstat(fileno(file), &statbuf); fchmod(nonstdoutfd, statbuf.st_mode); add_input_file(file); process_files(); fclose(G.nonstdout); G.nonstdout = stdout; /* unlink(argv[i]); */ // FIXME: error check / message? rename(G.outname, argv[i]); free(G.outname); G.outname = 0; } if (G.input_file_count > G.current_input_file) process_files(); } return status; }