/* $NetBSD: mime_attach.c,v 1.17 2013/10/18 20:47:06 christos Exp $ */ /*- * Copyright (c) 2006 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Anon Ymous. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifdef MIME_SUPPORT #include #ifndef __lint__ __RCSID("$NetBSD: mime_attach.c,v 1.17 2013/10/18 20:47:06 christos Exp $"); #endif /* not __lint__ */ #include #include #include #include #include #include #include #include #include #include #include #include "def.h" #include "extern.h" #ifdef USE_EDITLINE #include "complete.h" #endif #ifdef MIME_SUPPORT #include "mime.h" #include "mime_codecs.h" #include "mime_child.h" #endif #include "glob.h" #include "sig.h" #if 0 /* * XXX - This block is for debugging only and eventually should go away. */ # define SHOW_ALIST(a,b) show_alist(a,b) static void show_alist(struct attachment *alist, struct attachment *ap) { (void)printf("alist=%p ap=%p\n", alist, ap); for (ap = alist; ap; ap = ap->a_flink) { (void)printf("ap=%p ap->a_flink=%p ap->a_blink=%p ap->a_name=%s\n", ap, ap->a_flink, ap->a_blink, ap->a_name ? ap->a_name : ""); } } #else # define SHOW_ALIST(a,b) #endif #if 0 #ifndef __lint__ /* Don't lint: the public routines may not be used. */ /* * XXX - This block for is debugging only and eventually should go away. */ static void show_name(const char *prefix, struct name *np) { int i; i = 0; for (/*EMPTY*/; np; np = np->n_flink) { (void)printf("%s[%d]: %s\n", prefix, i, np->n_name); i++; } } static void fput_mime_content(FILE *fp, struct Content *Cp); PUBLIC void show_attach(const char *prefix, struct attachment *ap) { int i; i = 1; for (/*EMPTY*/; ap; ap = ap->a_flink) { (void)printf("%s[%d]:\n", prefix, i); fput_mime_content(stdout, &ap->a_Content); i++; } } PUBLIC void show_header(struct header *hp) { show_name("TO", hp->h_to); (void)printf("SUBJECT: %s\n", hp->h_subject); show_name("CC", hp->h_cc); show_name("BCC", hp->h_bcc); show_name("SMOPTS", hp->h_smopts); show_attach("ATTACH", hp->h_attach); } #endif /* __lint__ */ #endif /*************************** * boundary string routines */ static char * getrandstring(size_t length) { void *vbin; uint32_t *bin; size_t binlen; size_t i; char *b64; /* XXX - check this stuff again!!! */ binlen = 3 * roundup(length, 4) / 4; /* bytes of binary to encode base64 */ bin = vbin = salloc(roundup(binlen, 4)); for (i = 0; i < roundup(binlen, 4) / 4; i++) bin[i] = arc4random(); b64 = salloc(roundup(length, 4)); mime_bintob64(b64, vbin, binlen); b64[length] = '\0'; return b64; } /* * Generate a boundary for MIME multipart messages. */ static char * make_boundary(void) { #define BOUND_LEN 70 /* maximum length is 70 characters: RFC2046 sec 5.1.1 */ char *bound; time_t now; (void)time(&now); bound = salloc(BOUND_LEN); (void)snprintf(bound, BOUND_LEN, "=_%08lx.%s", (long)now, getrandstring(BOUND_LEN - 12)); return bound; #undef BOUND_LEN } /*************************** * Transfer coding routines */ /* * We determine the recommended transfer encoding type for a file as * follows: * * 1) If there is a NULL byte or a stray CR (not in a CRLF * combination) in the file, play it safe and use base64. * * 2) If any high bit is set, use quoted-printable if the content type * is "text" and base64 otherwise. * * 3) Otherwise: * a) use quoted-printable if there are any long lines, control * chars (including CR), end-of-line blank space, or a missing * terminating NL. * b) use 7bit in all remaining case, including an empty file. * * NOTE: This means that CRLF text (MSDOS) files will be encoded * quoted-printable. */ /* * RFC 821 imposes the following line length limit: * The maximum total length of a text line including the * is 1000 characters (but not counting the leading * dot duplicated for transparency). */ #define MIME_UNENCODED_LINE_MAX (1000 - 2) static size_t line_limit(void) { int limit; const char *cp; limit = -1; if ((cp = value(ENAME_MIME_UNENC_LINE_MAX)) != NULL) limit = atoi(cp); if (limit < 0 || limit > MIME_UNENCODED_LINE_MAX) limit = MIME_UNENCODED_LINE_MAX; return (size_t)limit; } static inline int is_text(const char *ctype) { return ctype && strncasecmp(ctype, "text/", sizeof("text/") - 1) == 0; } static const char * content_encoding_core(void *fh, const char *ctype) { #define MAILMSG_CLEAN 0x0 #define MAILMSG_ENDWS 0x1 #define MAILMSG_CTRLC 0x2 #define MAILMSG_8BIT 0x4 #define MAILMSG_LONGL 0x8 int c, lastc, state; size_t curlen, maxlen; state = MAILMSG_CLEAN; curlen = 0; maxlen = line_limit(); lastc = EOF; while ((c = fgetc(fh)) != EOF) { curlen++; if (c == '\0') return MIME_TRANSFER_BASE64; if (c > 0x7f) { if (!is_text(ctype)) return MIME_TRANSFER_BASE64; state |= MAILMSG_8BIT; continue; } if (c == '\n') { if (is_WSP(lastc)) state |= MAILMSG_ENDWS; if (curlen > maxlen) state |= MAILMSG_LONGL; curlen = 0; } else if ((c < 0x20 && c != '\t') || c == 0x7f || lastc == '\r') state |= MAILMSG_CTRLC; lastc = c; } if (lastc == EOF) /* no characters read */ return MIME_TRANSFER_7BIT; if (lastc != '\n' || state != MAILMSG_CLEAN) return MIME_TRANSFER_QUOTED; return MIME_TRANSFER_7BIT; } static const char * content_encoding_by_name(const char *filename, const char *ctype) { FILE *fp; const char *enc; fp = Fopen(filename, "re"); if (fp == NULL) { warn("content_encoding_by_name: %s", filename); return MIME_TRANSFER_BASE64; /* safe */ } enc = content_encoding_core(fp, ctype); (void)Fclose(fp); return enc; } static const char * content_encoding_by_fileno(int fd, const char *ctype) { FILE *fp; int fd2; const char *encoding; off_t cur_pos; cur_pos = lseek(fd, (off_t)0, SEEK_CUR); if ((fd2 = dup(fd)) == -1 || (fp = Fdopen(fd2, "re")) == NULL) { warn("content_encoding_by_fileno"); if (fd2 != -1) (void)close(fd2); return MIME_TRANSFER_BASE64; } encoding = content_encoding_core(fp, ctype); (void)Fclose(fp); (void)lseek(fd, cur_pos, SEEK_SET); return encoding; } static const char * content_encoding(struct attachment *ap, const char *ctype) { switch (ap->a_type) { case ATTACH_FNAME: return content_encoding_by_name(ap->a_name, ctype); case ATTACH_MSG: return "7bit"; case ATTACH_FILENO: return content_encoding_by_fileno(ap->a_fileno, ctype); case ATTACH_INVALID: default: /* This is a coding error! */ assert(/* CONSTCOND */ 0); errx(EXIT_FAILURE, "invalid attachment type: %d", ap->a_type); /* NOTREACHED */ } } /************************ * Content type routines */ /* * We use libmagic(3) to get the content type, except in the case of a * 0 or 1 byte file where libmagic gives rather useless results. */ static const char * content_type_by_name(char *filename) { const char *cp; char *cp2; magic_t magic; struct stat sb; #ifdef BROKEN_MAGIC /* * libmagic(3) produces annoying results on very short files. * The common case is MIME encoding an empty message body. * XXX - it would be better to fix libmagic(3)! * * Note: a 1-byte message body always consists of a newline, * so size determines all there. However, 1-byte attachments * (filename != NULL) could be anything, so check those. */ if ((filename != NULL && stat(filename, &sb) == 0) || (filename == NULL && fstat(0, &sb) == 0)) { if (sb.st_size < 2 && S_ISREG(sb.st_mode)) { FILE *fp; int ch; if (sb.st_size == 0 || filename == NULL || (fp = Fopen(filename, "re")) == NULL) return "text/plain"; ch = fgetc(fp); (void)Fclose(fp); return isprint(ch) || isspace(ch) ? "text/plain" : "application/octet-stream"; } } #endif magic = magic_open(MAGIC_MIME); if (magic == NULL) { warnx("magic_open: %s", magic_error(magic)); return NULL; } if (magic_load(magic, NULL) != 0) { warnx("magic_load: %s", magic_error(magic)); return NULL; } cp = magic_file(magic, filename); if (cp == NULL) { warnx("magic_load: %s", magic_error(magic)); return NULL; } if (filename && sasprintf(&cp2, "%s; name=\"%s\"", cp, basename(filename)) != -1) cp = cp2; else cp = savestr(cp); magic_close(magic); return cp; } static const char * content_type_by_fileno(int fd) { const char *cp; off_t cur_pos; int ofd; cur_pos = lseek(fd, (off_t)0, SEEK_CUR); ofd = dup(0); /* save stdin */ if (dup2(fd, 0) == -1) /* become stdin */ warn("dup2"); cp = content_type_by_name(NULL); if (dup2(ofd, 0) == -1) /* restore stdin */ warn("dup2"); (void)close(ofd); /* close the copy */ (void)lseek(fd, cur_pos, SEEK_SET); return cp; } static const char * content_type(struct attachment *ap) { switch (ap->a_type) { case ATTACH_FNAME: return content_type_by_name(ap->a_name); case ATTACH_MSG: /* * Note: the encapusulated message header must include * at least one of the "Date:", "From:", or "Subject:" * fields. See rfc2046 Sec 5.2.1. * XXX - Should we really test for this? */ return "message/rfc822"; case ATTACH_FILENO: return content_type_by_fileno(ap->a_fileno); case ATTACH_INVALID: default: /* This is a coding error! */ assert(/* CONSTCOND */ 0); errx(EXIT_FAILURE, "invalid attachment type: %d", ap->a_type); /* NOTREACHED */ } } /************************* * Other content routines */ static const char * content_disposition(struct attachment *ap) { switch (ap->a_type) { case ATTACH_FNAME: { char *disp; (void)sasprintf(&disp, "attachment; filename=\"%s\"", basename(ap->a_name)); return disp; } case ATTACH_MSG: return NULL; case ATTACH_FILENO: return "inline"; case ATTACH_INVALID: default: /* This is a coding error! */ assert(/* CONSTCOND */ 0); errx(EXIT_FAILURE, "invalid attachment type: %d", ap->a_type); /* NOTREACHED */ } } /*ARGSUSED*/ static const char * content_id(struct attachment *ap __unused) { /* XXX - to be written. */ return NULL; } static const char * content_description(struct attachment *attach, int attach_num) { if (attach_num) { char *description; (void)sasprintf(&description, "attachment %d", attach_num); return description; } else return attach->a_Content.C_description; } /******************************************* * Routines to get the MIME content strings. */ PUBLIC struct Content get_mime_content(struct attachment *ap, int i) { struct Content Cp; Cp.C_type = content_type(ap); Cp.C_encoding = content_encoding(ap, Cp.C_type); Cp.C_disposition = content_disposition(ap); Cp.C_id = content_id(ap); Cp.C_description = content_description(ap, i); return Cp; } /****************** * Output routines */ static void fput_mime_content(FILE *fp, struct Content *Cp) { (void)fprintf(fp, MIME_HDR_TYPE ": %s\n", Cp->C_type); (void)fprintf(fp, MIME_HDR_ENCODING ": %s\n", Cp->C_encoding); if (Cp->C_disposition) (void)fprintf(fp, MIME_HDR_DISPOSITION ": %s\n", Cp->C_disposition); if (Cp->C_id) (void)fprintf(fp, MIME_HDR_ID ": %s\n", Cp->C_id); if (Cp->C_description) (void)fprintf(fp, MIME_HDR_DESCRIPTION ": %s\n", Cp->C_description); } static void fput_body(FILE *fi, FILE *fo, struct Content *Cp) { mime_codec_t enc; enc = mime_fio_encoder(Cp->C_encoding); if (enc == NULL) warnx("unknown transfer encoding type: %s\n", Cp->C_encoding); else enc(fi, fo, 0); } static void fput_attachment(FILE *fo, struct attachment *ap) { FILE *fi; struct Content *Cp = &ap->a_Content; fput_mime_content(fo, &ap->a_Content); (void)putc('\n', fo); switch (ap->a_type) { case ATTACH_FNAME: fi = Fopen(ap->a_name, "re"); if (fi == NULL) err(EXIT_FAILURE, "Fopen: %s", ap->a_name); break; case ATTACH_FILENO: /* * XXX - we should really dup(2) here, however we are * finished with the attachment, so the Fclose() below * is OK for now. This will be changed in the future. */ fi = Fdopen(ap->a_fileno, "re"); if (fi == NULL) err(EXIT_FAILURE, "Fdopen: %d", ap->a_fileno); break; case ATTACH_MSG: { char mailtempname[PATHSIZE]; int fd; fi = NULL; /* appease gcc */ (void)snprintf(mailtempname, sizeof(mailtempname), "%s/mail.RsXXXXXXXXXX", tmpdir); if ((fd = mkstemp(mailtempname)) == -1 || (fi = Fdopen(fd, "we+")) == NULL) { if (fd != -1) (void)close(fd); err(EXIT_FAILURE, "%s", mailtempname); } (void)rm(mailtempname); /* * This is only used for forwarding, so use the forwardtab[]. * * XXX - sendmessage really needs a 'flags' argument * so we don't have to play games. */ ap->a_msg->m_size--; /* XXX - remove trailing newline */ (void)fputc('>', fi); /* XXX - hide the headerline */ if (sendmessage(ap->a_msg, fi, forwardtab, NULL, NULL)) (void)fprintf(stderr, ". . . forward failed, sorry.\n"); ap->a_msg->m_size++; rewind(fi); break; } case ATTACH_INVALID: default: /* This is a coding error! */ assert(/* CONSTCOND */ 0); errx(EXIT_FAILURE, "invalid attachment type: %d", ap->a_type); } fput_body(fi, fo, Cp); (void)Fclose(fi); } /*********************************** * Higher level attachment routines. */ static int mktemp_file(FILE **nfo, FILE **nfi, const char *hint) { char tempname[PATHSIZE]; int fd, fd2; (void)snprintf(tempname, sizeof(tempname), "%s/%sXXXXXXXXXX", tmpdir, hint); if ((fd = mkstemp(tempname)) == -1 || (*nfo = Fdopen(fd, "we")) == NULL) { if (fd != -1) (void)close(fd); warn("%s", tempname); return -1; } (void)rm(tempname); if ((fd2 = dup(fd)) == -1 || (*nfi = Fdopen(fd2, "re")) == NULL) { warn("%s", tempname); (void)Fclose(*nfo); return -1; } return 0; } /* * Repackage the mail as a multipart MIME message. This should always * be called whenever there are attachments, but might be called even * if there are none if we want to wrap the message in a MIME package. */ PUBLIC FILE * mime_encode(FILE *fi, struct header *header) { struct attachment map; /* fake structure for the message body */ struct attachment *attach; struct attachment *ap; FILE *nfi, *nfo; attach = header->h_attach; /* * Make new phantom temporary file with read and write file * handles: nfi and nfo, resp. */ if (mktemp_file(&nfo, &nfi, "mail.Rs") != 0) return fi; (void)memset(&map, 0, sizeof(map)); map.a_type = ATTACH_FILENO; map.a_fileno = fileno(fi); map.a_Content = get_mime_content(&map, 0); if (attach) { /* Multi-part message: * Make an attachment structure for the body message * and make that the first element in the attach list. */ if (fsize(fi)) { map.a_flink = attach; attach->a_blink = ↦ attach = ↦ } /* Construct our MIME boundary string - used by mime_putheader() */ header->h_mime_boundary = make_boundary(); (void)fprintf(nfo, "This is a multi-part message in MIME format.\n"); for (ap = attach; ap; ap = ap->a_flink) { (void)fprintf(nfo, "\n--%s\n", header->h_mime_boundary); fput_attachment(nfo, ap); } /* the final boundary with two attached dashes */ (void)fprintf(nfo, "\n--%s--\n", header->h_mime_boundary); } else { /* Single-part message (no attachments): * Update header->h_Content (used by mime_putheader()). * Output the body contents. */ char *encoding; header->h_Content = map.a_Content; /* check for an encoding override */ if ((encoding = value(ENAME_MIME_ENCODE_MSG)) && *encoding) header->h_Content.C_encoding = encoding; fput_body(fi, nfo, &header->h_Content); } (void)Fclose(fi); (void)Fclose(nfo); rewind(nfi); return nfi; } static char* check_filename(char *filename, char *canon_name) { int fd; struct stat sb; char *fname = filename; /* We need to expand '~' if we got here from '~@'. The shell * does this otherwise. */ if (fname[0] == '~' && fname[1] == '/') { if (homedir && homedir[0] != '~') (void)easprintf(&fname, "%s/%s", homedir, fname + 2); } if (realpath(fname, canon_name) == NULL) { warn("realpath: %s", filename); canon_name = NULL; goto done; } fd = open(canon_name, O_RDONLY, 0); if (fd == -1) { warnx("open: cannot read %s", filename); canon_name = NULL; goto done; } if (fstat(fd, &sb) == -1) { warn("stat: %s", canon_name); canon_name = NULL; goto do_close; } if (!S_ISREG(sb.st_mode)) { warnx("stat: %s is not a file", filename); canon_name = NULL; /* goto do_close; */ } do_close: (void)close(fd); done: if (fname != filename) free(fname); return canon_name; } static struct attachment * attach_one_file(struct attachment *ap, char *filename, int attach_num) { char canon_name[MAXPATHLEN]; struct attachment *nap; /* * 1) check that filename is really a readable file; return NULL if not. * 2) allocate an attachment structure. * 3) save cananonical name for filename, so cd won't screw things later. * 4) add the structure to the end of the chain. * 5) return the new attachment structure. */ if (check_filename(filename, canon_name) == NULL) return NULL; nap = csalloc(1, sizeof(*nap)); nap->a_type = ATTACH_FNAME; nap->a_name = savestr(canon_name); if (ap) { for (/*EMPTY*/; ap->a_flink != NULL; ap = ap->a_flink) continue; ap->a_flink = nap; nap->a_blink = ap; } if (attach_num) nap->a_Content = get_mime_content(nap, attach_num); return nap; } static char * get_line(el_mode_t *em, const char *pr, const char *str, int i) { char *prompt; char *line; /* * Don't use a '\t' in the format string here as completion * seems to handle it badly. */ (void)easprintf(&prompt, "#%-7d %s: ", i, pr); line = my_gets(em, prompt, __UNCONST(str)); if (line != NULL) { (void)strip_WSP(line); /* strip trailing whitespace */ line = skip_WSP(line); /* skip leading white space */ line = savestr(line); /* XXX - do we need this? */ } else { line = __UNCONST(""); } free(prompt); return line; } static void sget_line(el_mode_t *em, const char *pr, const char **str, int i) { char *line; line = get_line(em, pr, *str, i); if (line != NULL && strcmp(line, *str) != 0) *str = line; } static void sget_encoding(const char **str, const char *filename, const char *ctype, int num) { const char *ename; const char *defename; defename = NULL; ename = *str; for (;;) { ename = get_line(&elm.mime_enc, "encoding", ename, num); if (*ename == '\0') { if (defename == NULL) defename = content_encoding_by_name(filename, ctype); ename = defename; } else if (mime_fio_encoder(ename) == NULL) { const void *cookie; (void)printf("Sorry: valid encoding modes are: "); cookie = NULL; ename = mime_next_encoding_name(&cookie); for (;;) { (void)printf("%s", ename); ename = mime_next_encoding_name(&cookie); if (ename == NULL) break; (void)fputc(',', stdout); } (void)putchar('\n'); ename = *str; } else { if (strcmp(ename, *str) != 0) *str = savestr(ename); break; } } } /* * Edit an attachment list. * Return the new attachment list. */ static struct attachment * edit_attachlist(struct attachment *alist) { struct attachment *ap; char *line; int attach_num; (void)printf("Attachments:\n"); attach_num = 1; ap = alist; while (ap) { SHOW_ALIST(alist, ap); switch(ap->a_type) { case ATTACH_MSG: (void)printf("#%-7d message: \n", attach_num); break; case ATTACH_FNAME: case ATTACH_FILENO: line = get_line(&elm.filec, "filename", ap->a_name, attach_num); if (*line == '\0') { /* omit this attachment */ if (ap->a_blink) { struct attachment *next_ap; next_ap = ap->a_flink; ap = ap->a_blink; ap->a_flink = next_ap; if (next_ap) next_ap->a_blink = ap; else goto done; } else { alist = ap->a_flink; if (alist) alist->a_blink = NULL; } } else { char canon_name[MAXPATHLEN]; if (strcmp(line, ap->a_name) != 0) { /* new filename */ if (check_filename(line, canon_name) == NULL) continue; ap->a_name = savestr(canon_name); ap->a_Content = get_mime_content(ap, 0); } sget_line(&elm.string, "description", &ap->a_Content.C_description, attach_num); sget_encoding(&ap->a_Content.C_encoding, ap->a_name, ap->a_Content.C_type, attach_num); } break; case ATTACH_INVALID: default: /* This is a coding error! */ assert(/* CONSTCOND */ 0); errx(EXIT_FAILURE, "invalid attachment type: %d", ap->a_type); } attach_num++; if (alist == NULL || ap->a_flink == NULL) break; ap = ap->a_flink; } ap = alist; for (;;) { struct attachment *nap; SHOW_ALIST(alist, ap); line = get_line(&elm.filec, "filename", "", attach_num); if (*line == '\0') break; nap = attach_one_file(ap, line, attach_num); if (nap == NULL) continue; if (alist == NULL) alist = nap; ap = nap; sget_line(&elm.string, "description", &ap->a_Content.C_description, attach_num); sget_encoding(&ap->a_Content.C_encoding, ap->a_name, ap->a_Content.C_type, attach_num); attach_num++; } done: SHOW_ALIST(alist, ap); return alist; } /* * Hook used by the '~@' escape to attach files. */ PUBLIC struct attachment* mime_attach_files(struct attachment * volatile attach, char *linebuf) { struct attachment *ap; char *argv[MAXARGC]; int argc; int attach_num; argc = getrawlist(linebuf, argv, (int)__arraycount(argv)); attach_num = 1; for (ap = attach; ap && ap->a_flink; ap = ap->a_flink) attach_num++; if (argc) { int i; for (i = 0; i < argc; i++) { struct attachment *ap2; ap2 = attach_one_file(ap, argv[i], attach_num); if (ap2 != NULL) { ap = ap2; if (attach == NULL) attach = ap; attach_num++; } } } else { attach = edit_attachlist(attach); (void)printf("--- end attachments ---\n"); } return attach; } /* * Hook called in main() to attach files registered by the '-a' flag. */ PUBLIC struct attachment * mime_attach_optargs(struct name *optargs) { struct attachment *attach; struct attachment *ap; struct name *np; char *expand_optargs; int attach_num; expand_optargs = value(ENAME_MIME_ATTACH_LIST); attach_num = 1; ap = NULL; attach = NULL; for (np = optargs; np; np = np->n_flink) { char *argv[MAXARGC]; int argc; int i; if (expand_optargs != NULL) argc = getrawlist(np->n_name, argv, (int)__arraycount(argv)); else { if (np->n_name == '\0') argc = 0; else { argc = 1; argv[0] = np->n_name; } argv[argc] = NULL;/* be consistent with getrawlist() */ } for (i = 0; i < argc; i++) { struct attachment *ap2; char *filename; if (argv[i][0] == '/') /* an absolute path */ (void)easprintf(&filename, "%s", argv[i]); else (void)easprintf(&filename, "%s/%s", origdir, argv[i]); ap2 = attach_one_file(ap, filename, attach_num); if (ap2 != NULL) { ap = ap2; if (attach == NULL) attach = ap; attach_num++; } free(filename); } } return attach; } /* * Output MIME header strings as specified in the header structure. */ PUBLIC void mime_putheader(FILE *fp, struct header *header) { (void)fprintf(fp, MIME_HDR_VERSION ": " MIME_VERSION "\n"); if (header->h_attach) { (void)fprintf(fp, MIME_HDR_TYPE ": multipart/mixed;\n"); (void)fprintf(fp, "\tboundary=\"%s\"\n", header->h_mime_boundary); } else { fput_mime_content(fp, &header->h_Content); } } #endif /* MIME_SUPPORT */