/* sendmail-like interface to /bin/mail for system V, Copyright (C) 1985, 1994 Free Software Foundation, Inc. This file is part of GNU Emacs. GNU Emacs is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. GNU Emacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Emacs; see the file COPYING. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* This is needed to get the declaration of cuserid in GNU libc. */ #define _XOPEN_SOURCE 1 #define NO_SHORTNAMES #include <../src/config.h> #if defined (BSD_SYSTEM) && !defined (BSD4_1) && !defined (USE_FAKEMAIL) /* This program isnot used in BSD, so just avoid loader complaints. */ int main () { return 0; } #else /* not BSD 4.2 (or newer) */ #ifdef MSDOS int main () { return 0; } #else /* not MSDOS */ /* This conditional contains all the rest of the file. */ /* These are defined in config in some versions. */ #ifdef static #undef static #endif #ifdef read #undef read #undef write #undef open #undef close #endif #ifdef WINDOWSNT #include "ntlib.h" #endif #include <stdio.h> #include <string.h> #include <ctype.h> #include <time.h> #include <pwd.h> /* This is to declare cuserid. */ #ifdef HAVE_UNISTD_H #include <unistd.h> #endif /* Type definitions */ #define boolean int #define true 1 #define false 0 /* Various lists */ struct line_record { char *string; struct line_record *continuation; }; typedef struct line_record *line_list; struct header_record { line_list text; struct header_record *next; struct header_record *previous; }; typedef struct header_record *header; struct stream_record { FILE *handle; int (*action)(); struct stream_record *rest_streams; }; typedef struct stream_record *stream_list; /* A `struct linebuffer' is a structure which holds a line of text. * `readline' reads a line from a stream into a linebuffer * and works regardless of the length of the line. */ struct linebuffer { long size; char *buffer; }; struct linebuffer lb; #define new_list() \ ((line_list) xmalloc (sizeof (struct line_record))) #define new_header() \ ((header) xmalloc (sizeof (struct header_record))) #define new_stream() \ ((stream_list) xmalloc (sizeof (struct stream_record))) #define alloc_string(nchars) \ ((char *) xmalloc ((nchars) + 1)) /* Global declarations */ #define BUFLEN 1024 #define KEYWORD_SIZE 256 #define FROM_PREFIX "From" #define MY_NAME "fakemail" #define NIL ((line_list) NULL) #define INITIAL_LINE_SIZE 200 #ifndef MAIL_PROGRAM_NAME #define MAIL_PROGRAM_NAME "/bin/mail" #endif static char *my_name; static char *the_date; static char *the_user; static line_list file_preface; static stream_list the_streams; static boolean no_problems = true; extern FILE *popen (); extern int fclose (), pclose (); #ifdef CURRENT_USER extern struct passwd *getpwuid (); extern unsigned short geteuid (); static struct passwd *my_entry; #define cuserid(s) \ (my_entry = getpwuid (((int) geteuid ())), \ my_entry->pw_name) #endif /* Utilities */ /* Print error message. `s1' is printf control string, `s2' is arg for it. */ static void error (s1, s2) char *s1, *s2; { printf ("%s: ", my_name); printf (s1, s2); printf ("\n"); no_problems = false; } /* Print error message and exit. */ static void fatal (s1, s2) char *s1, *s2; { error (s1, s2); exit (1); } /* Like malloc but get fatal error if memory is exhausted. */ static long * xmalloc (size) int size; { long *result = (long *) malloc (((unsigned) size)); if (result == ((long *) NULL)) fatal ("virtual memory exhausted", 0); return result; } static long * xrealloc (ptr, size) long *ptr; int size; { long *result = (long *) realloc (ptr, ((unsigned) size)); if (result == ((long *) NULL)) fatal ("virtual memory exhausted"); return result; } /* Initialize a linebuffer for use */ void init_linebuffer (linebuffer) struct linebuffer *linebuffer; { linebuffer->size = INITIAL_LINE_SIZE; linebuffer->buffer = ((char *) xmalloc (INITIAL_LINE_SIZE)); } /* Read a line of text from `stream' into `linebuffer'. * Return the length of the line. */ long readline (linebuffer, stream) struct linebuffer *linebuffer; FILE *stream; { char *buffer = linebuffer->buffer; char *p = linebuffer->buffer; char *end = p + linebuffer->size; while (true) { int c = getc (stream); if (p == end) { linebuffer->size *= 2; buffer = ((char *) xrealloc (buffer, linebuffer->size)); p = buffer + (p - linebuffer->buffer); end = buffer + linebuffer->size; linebuffer->buffer = buffer; } if (c < 0 || c == '\n') { *p = 0; break; } *p++ = c; } return p - buffer; } /* Extract a colon-terminated keyword from the string FIELD. Return that keyword as a string stored in a static buffer. Store the address of the rest of the string into *REST. If there is no keyword, return NULL and don't alter *REST. */ char * get_keyword (field, rest) register char *field; char **rest; { static char keyword[KEYWORD_SIZE]; register char *ptr; register char c; ptr = &keyword[0]; c = *field++; if (isspace (c) || c == ':') return ((char *) NULL); *ptr++ = (islower (c) ? toupper (c) : c); while (((c = *field++) != ':') && ! isspace (c)) *ptr++ = (islower (c) ? toupper (c) : c); *ptr++ = '\0'; while (isspace (c)) c = *field++; if (c != ':') return ((char *) NULL); *rest = field; return &keyword[0]; } /* Nonzero if the string FIELD starts with a colon-terminated keyword. */ boolean has_keyword (field) char *field; { char *ignored; return (get_keyword (field, &ignored) != ((char *) NULL)); } /* Store the string FIELD, followed by any lines in THE_LIST, into the buffer WHERE. Concatenate lines, putting just a space between them. Delete everything contained in parentheses. When a recipient name contains <...>, we discard everything except what is inside the <...>. We don't pay attention to overflowing WHERE; the caller has to make it big enough. */ char * add_field (the_list, field, where) line_list the_list; register char *field, *where; { register char c; while (true) { char *this_recipient_where; int in_quotes = 0; *where++ = ' '; this_recipient_where = where; while ((c = *field++) != '\0') { if (c == '\\') *where++ = c; else if (c == '"') { in_quotes = ! in_quotes; *where++ = c; } else if (in_quotes) *where++ = c; else if (c == '(') { while (*field && *field != ')') ++field; if (! (*field++)) break; /* no close */ continue; } else if (c == ',') { *where++ = ' '; /* When we get to the end of one recipient, don't discard it if the next one has <...>. */ this_recipient_where = where; } else if (c == '<') /* Discard everything we got before the `<'. */ where = this_recipient_where; else if (c == '>') /* Discard the rest of this name that follows the `>'. */ { while (*field && *field != ',') ++field; if (! (*field++)) break; /* no comma */ continue; } else *where++ = c; } if (the_list == NIL) break; field = the_list->string; the_list = the_list->continuation; } return where; } line_list make_file_preface () { char *the_string, *temp; long idiotic_interface; long prefix_length; long user_length; long date_length; line_list result; prefix_length = strlen (FROM_PREFIX); time (&idiotic_interface); the_date = ctime (&idiotic_interface); /* the_date has an unwanted newline at the end */ date_length = strlen (the_date) - 1; the_date[date_length] = '\0'; temp = cuserid ((char *) NULL); user_length = strlen (temp); the_user = alloc_string (user_length + 1); strcpy (the_user, temp); the_string = alloc_string (3 + prefix_length + user_length + date_length); temp = the_string; strcpy (temp, FROM_PREFIX); temp = &temp[prefix_length]; *temp++ = ' '; strcpy (temp, the_user); temp = &temp[user_length]; *temp++ = ' '; strcpy (temp, the_date); result = new_list (); result->string = the_string; result->continuation = ((line_list) NULL); return result; } void write_line_list (the_list, the_stream) register line_list the_list; FILE *the_stream; { for ( ; the_list != ((line_list) NULL) ; the_list = the_list->continuation) { fputs (the_list->string, the_stream); putc ('\n', the_stream); } return; } int close_the_streams () { register stream_list rem; for (rem = the_streams; rem != ((stream_list) NULL); rem = rem->rest_streams) no_problems = (no_problems && ((*rem->action) (rem->handle) == 0)); the_streams = ((stream_list) NULL); return (no_problems ? 0 : 1); } void add_a_stream (the_stream, closing_action) FILE *the_stream; int (*closing_action)(); { stream_list old = the_streams; the_streams = new_stream (); the_streams->handle = the_stream; the_streams->action = closing_action; the_streams->rest_streams = old; return; } int my_fclose (the_file) FILE *the_file; { putc ('\n', the_file); fflush (the_file); return fclose (the_file); } boolean open_a_file (name) char *name; { FILE *the_stream = fopen (name, "a"); if (the_stream != ((FILE *) NULL)) { add_a_stream (the_stream, my_fclose); if (the_user == ((char *) NULL)) file_preface = make_file_preface (); write_line_list (file_preface, the_stream); return true; } return false; } void put_string (s) char *s; { register stream_list rem; for (rem = the_streams; rem != ((stream_list) NULL); rem = rem->rest_streams) fputs (s, rem->handle); return; } void put_line (string) char *string; { register stream_list rem; for (rem = the_streams; rem != ((stream_list) NULL); rem = rem->rest_streams) { char *s = string; int column = 0; /* Divide STRING into lines. */ while (*s != 0) { char *breakpos; /* Find the last char that fits. */ for (breakpos = s; *breakpos && column < 78; ++breakpos) { if (*breakpos == '\t') column += 8; else column++; } /* If we didn't reach end of line, break the line. */ if (*breakpos) { /* Back up to just after the last comma that fits. */ while (breakpos != s && breakpos[-1] != ',') --breakpos; if (breakpos == s) { /* If no comma fits, move past the first address anyway. */ while (*breakpos != 0 && *breakpos != ',') ++breakpos; if (*breakpos != 0) /* Include the comma after it. */ ++breakpos; } } /* Output that much, then break the line. */ fwrite (s, 1, breakpos - s, rem->handle); column = 8; /* Skip whitespace and prepare to print more addresses. */ s = breakpos; while (*s == ' ' || *s == '\t') ++s; if (*s != 0) fputs ("\n\t", rem->handle); } putc ('\n', rem->handle); } return; } #define mail_error error /* Handle an FCC field. FIELD is the text of the first line (after the header name), and THE_LIST holds the continuation lines if any. Call open_a_file for each file. */ void setup_files (the_list, field) register line_list the_list; register char *field; { register char *start; register char c; while (true) { while (((c = *field) != '\0') && (c == ' ' || c == '\t' || c == ',')) field += 1; if (c != '\0') { start = field; while (((c = *field) != '\0') && c != ' ' && c != '\t' && c != ',') field += 1; *field = '\0'; if (!open_a_file (start)) mail_error ("Could not open file %s", start); *field = c; if (c != '\0') continue; } if (the_list == ((line_list) NULL)) return; field = the_list->string; the_list = the_list->continuation; } } /* Compute the total size of all recipient names stored in THE_HEADER. The result says how big to make the buffer to pass to parse_header. */ int args_size (the_header) header the_header; { register header old = the_header; register line_list rem; register int size = 0; do { char *field; register char *keyword = get_keyword (the_header->text->string, &field); if ((strcmp (keyword, "TO") == 0) || (strcmp (keyword, "CC") == 0) || (strcmp (keyword, "BCC") == 0)) { size += 1 + strlen (field); for (rem = the_header->text->continuation; rem != NIL; rem = rem->continuation) size += 1 + strlen (rem->string); } the_header = the_header->next; } while (the_header != old); return size; } /* Scan the header described by the lists THE_HEADER, and put all recipient names into the buffer WHERE. Precede each recipient name with a space. Also, if the header has any FCC fields, call setup_files for each one. */ void parse_header (the_header, where) header the_header; register char *where; { register header old = the_header; do { char *field; register char *keyword = get_keyword (the_header->text->string, &field); if (strcmp (keyword, "TO") == 0) where = add_field (the_header->text->continuation, field, where); else if (strcmp (keyword, "CC") == 0) where = add_field (the_header->text->continuation, field, where); else if (strcmp (keyword, "BCC") == 0) { where = add_field (the_header->text->continuation, field, where); the_header->previous->next = the_header->next; the_header->next->previous = the_header->previous; } else if (strcmp (keyword, "FCC") == 0) setup_files (the_header->text->continuation, field); the_header = the_header->next; } while (the_header != old); *where = '\0'; return; } /* Read lines from the input until we get a blank line. Create a list of `header' objects, one for each header field, each of which points to a list of `line_list' objects, one for each line in that field. Continuation lines are grouped in the headers they continue. */ header read_header () { register header the_header = ((header) NULL); register line_list *next_line = ((line_list *) NULL); init_linebuffer (&lb); do { long length; register char *line; readline (&lb, stdin); line = lb.buffer; length = strlen (line); if (length == 0) break; if (has_keyword (line)) { register header old = the_header; the_header = new_header (); if (old == ((header) NULL)) { the_header->next = the_header; the_header->previous = the_header; } else { the_header->previous = old; the_header->next = old->next; old->next = the_header; } next_line = &(the_header->text); } if (next_line == ((line_list *) NULL)) { /* Not a valid header */ exit (1); } *next_line = new_list (); (*next_line)->string = alloc_string (length); strcpy (((*next_line)->string), line); next_line = &((*next_line)->continuation); *next_line = NIL; } while (true); return the_header->next; } void write_header (the_header) header the_header; { register header old = the_header; do { register line_list the_list; for (the_list = the_header->text; the_list != NIL; the_list = the_list->continuation) put_line (the_list->string); the_header = the_header->next; } while (the_header != old); put_line (""); return; } int main (argc, argv) int argc; char **argv; { char *command_line; header the_header; long name_length; char *mail_program_name; char buf[BUFLEN + 1]; register int size; FILE *the_pipe; extern char *getenv (); mail_program_name = getenv ("FAKEMAILER"); if (!(mail_program_name && *mail_program_name)) mail_program_name = MAIL_PROGRAM_NAME; name_length = strlen (mail_program_name); my_name = MY_NAME; the_streams = ((stream_list) NULL); the_date = ((char *) NULL); the_user = ((char *) NULL); the_header = read_header (); command_line = alloc_string (name_length + args_size (the_header)); strcpy (command_line, mail_program_name); parse_header (the_header, &command_line[name_length]); the_pipe = popen (command_line, "w"); if (the_pipe == ((FILE *) NULL)) fatal ("cannot open pipe to real mailer"); add_a_stream (the_pipe, pclose); write_header (the_header); /* Dump the message itself */ while (!feof (stdin)) { size = fread (buf, 1, BUFLEN, stdin); buf[size] = '\0'; put_string (buf); } exit (close_the_streams ()); } #endif /* not MSDOS */ #endif /* not BSD 4.2 (or newer) */