/* $Cambridge: exim/src/src/mime.c,v 1.7 2005/04/04 10:33:49 ph10 Exp $ */ /************************************************* * Exim - an Internet mail transport agent * *************************************************/ /* Copyright (c) Tom Kistner 2004 */ /* License: GPL */ #include "exim.h" #ifdef WITH_CONTENT_SCAN #include "mime.h" #include FILE *mime_stream = NULL; uschar *mime_current_boundary = NULL; /************************************************* * set MIME anomaly level + text * *************************************************/ /* Small wrapper to set the two expandables which give info on detected "problems" in MIME encodings. Those are defined in mime.h. */ void mime_set_anomaly(int level, char *text) { mime_anomaly_level = level; mime_anomaly_text = US text; } /************************************************* * decode quoted-printable chars * *************************************************/ /* gets called when we hit a = returns: new pointer position result code in c: -2 - decode error -1 - soft line break, no char 0-255 - char to write */ unsigned int mime_qp_hstr_i(uschar *cptr) { unsigned int i, j = 0; while (cptr && *cptr && isxdigit(*cptr)) { i = *cptr++ - '0'; if (9 < i) i -= 7; j <<= 4; j |= (i & 0x0f); } return(j); } uschar *mime_decode_qp_char(uschar *qp_p,int *c) { uschar hex[] = {0,0,0}; int nan = 0; uschar *initial_pos = qp_p; /* advance one char */ qp_p++; REPEAT_FIRST: if ( (*qp_p == '\t') || (*qp_p == ' ') || (*qp_p == '\r') ) { /* tab or whitespace may follow just ignore it, but remember that this is not a valid hex encoding any more */ nan = 1; qp_p++; goto REPEAT_FIRST; } else if ( (('0' <= *qp_p) && (*qp_p <= '9')) || (('A' <= *qp_p) && (*qp_p <= 'F')) || (('a' <= *qp_p) && (*qp_p <= 'f')) ) { /* this is a valid hex char, if nan is unset */ if (nan) { /* this is illegal */ *c = -2; return initial_pos; } else { hex[0] = *qp_p; qp_p++; }; } else if (*qp_p == '\n') { /* hit soft line break already, continue */ *c = -1; return qp_p; } else { /* illegal char here */ *c = -2; return initial_pos; }; if ( (('0' <= *qp_p) && (*qp_p <= '9')) || (('A' <= *qp_p) && (*qp_p <= 'F')) || (('a' <= *qp_p) && (*qp_p <= 'f')) ) { if (hex[0] > 0) { hex[1] = *qp_p; /* do hex conversion */ *c = mime_qp_hstr_i(hex); qp_p++; return qp_p; } else { /* huh ? */ *c = -2; return initial_pos; }; } else { /* illegal char */ *c = -2; return initial_pos; }; } uschar *mime_parse_line(uschar *buffer, uschar *data, uschar *encoding, int *num_decoded) { if (encoding == NULL) { /* no encoding type at all */ NO_DECODING: memcpy(data, buffer, Ustrlen(buffer)); data[(Ustrlen(buffer))] = 0; *num_decoded = Ustrlen(data); return data; } else if (Ustrcmp(encoding,"base64") == 0) { uschar *p = buffer; int offset = 0; /* ----- BASE64 ---------------------------------------------------- */ /* NULL out '\r' and '\n' chars */ while (Ustrrchr(p,'\r') != NULL) { *(Ustrrchr(p,'\r')) = '\0'; }; while (Ustrrchr(p,'\n') != NULL) { *(Ustrrchr(p,'\n')) = '\0'; }; while (*(p+offset) != '\0') { /* hit illegal char ? */ if (mime_b64[*(p+offset)] == 128) { mime_set_anomaly(MIME_ANOMALY_BROKEN_BASE64); offset++; } else { *p = mime_b64[*(p+offset)]; p++; }; }; *p = 255; /* line is translated, start bit shifting */ p = buffer; *num_decoded = 0; while(*p != 255) { uschar tmp_c; /* byte 0 ---------------------- */ if (*(p+1) == 255) { mime_set_anomaly(MIME_ANOMALY_BROKEN_BASE64); break; } data[(*num_decoded)] = *p; data[(*num_decoded)] <<= 2; tmp_c = *(p+1); tmp_c >>= 4; data[(*num_decoded)] |= tmp_c; (*num_decoded)++; p++; /* byte 1 ---------------------- */ if (*(p+1) == 255) { mime_set_anomaly(MIME_ANOMALY_BROKEN_BASE64); break; } data[(*num_decoded)] = *p; data[(*num_decoded)] <<= 4; tmp_c = *(p+1); tmp_c >>= 2; data[(*num_decoded)] |= tmp_c; (*num_decoded)++; p++; /* byte 2 ---------------------- */ if (*(p+1) == 255) { mime_set_anomaly(MIME_ANOMALY_BROKEN_BASE64); break; } data[(*num_decoded)] = *p; data[(*num_decoded)] <<= 6; data[(*num_decoded)] |= *(p+1); (*num_decoded)++; p+=2; }; return data; /* ----------------------------------------------------------------- */ } else if (Ustrcmp(encoding,"quoted-printable") == 0) { uschar *p = buffer; /* ----- QP -------------------------------------------------------- */ *num_decoded = 0; while (*p != 0) { if (*p == '=') { int decode_qp_result; p = mime_decode_qp_char(p,&decode_qp_result); if (decode_qp_result == -2) { /* Error from decoder. p is unchanged. */ mime_set_anomaly(MIME_ANOMALY_BROKEN_QP); data[(*num_decoded)] = '='; (*num_decoded)++; p++; } else if (decode_qp_result == -1) { break; } else if (decode_qp_result >= 0) { data[(*num_decoded)] = decode_qp_result; (*num_decoded)++; }; } else { data[(*num_decoded)] = *p; (*num_decoded)++; p++; }; }; return data; /* ----------------------------------------------------------------- */ } /* unknown encoding type, just dump as-is */ else goto NO_DECODING; } FILE *mime_get_decode_file(uschar *pname, uschar *fname) { FILE *f = NULL; uschar *filename; filename = (uschar *)malloc(2048); if ((pname != NULL) && (fname != NULL)) { snprintf(CS filename, 2048, "%s/%s", pname, fname); f = fopen(CS filename,"w+"); } else if (pname == NULL) { f = fopen(CS fname,"w+"); } else if (fname == NULL) { int file_nr = 0; int result = 0; /* must find first free sequential filename */ do { struct stat mystat; snprintf(CS filename,2048,"%s/%s-%05u", pname, message_id, file_nr); file_nr++; /* security break */ if (file_nr >= 1024) break; result = stat(CS filename,&mystat); } while(result != -1); f = fopen(CS filename,"w+"); }; /* set expansion variable */ mime_decoded_filename = filename; return f; } int mime_decode(uschar **listptr) { int sep = 0; uschar *list = *listptr; uschar *option; uschar option_buffer[1024]; uschar decode_path[1024]; FILE *decode_file = NULL; uschar *buffer = NULL; uschar *decode_buffer = NULL; long f_pos = 0; unsigned int size_counter = 0; if (mime_stream == NULL) return FAIL; f_pos = ftell(mime_stream); /* build default decode path (will exist since MBOX must be spooled up) */ snprintf(CS decode_path,1024,"%s/scan/%s",spool_directory,message_id); /* reserve a line and decoder buffer to work in */ buffer = (uschar *)malloc(MIME_MAX_LINE_LENGTH+1); if (buffer == NULL) { log_write(0, LOG_PANIC, "decode ACL condition: can't allocate %d bytes of memory.", MIME_MAX_LINE_LENGTH+1); return DEFER; }; decode_buffer = (uschar *)malloc(MIME_MAX_LINE_LENGTH+1); if (decode_buffer == NULL) { log_write(0, LOG_PANIC, "decode ACL condition: can't allocate %d bytes of memory.", MIME_MAX_LINE_LENGTH+1); return DEFER; }; /* try to find 1st option */ if ((option = string_nextinlist(&list, &sep, option_buffer, sizeof(option_buffer))) != NULL) { /* parse 1st option */ if ( (Ustrcmp(option,"false") == 0) || (Ustrcmp(option,"0") == 0) ) { /* explicitly no decoding */ return FAIL; }; if (Ustrcmp(option,"default") == 0) { /* explicit default path + file names */ goto DEFAULT_PATH; }; if (option[0] == '/') { struct stat statbuf; memset(&statbuf,0,sizeof(statbuf)); /* assume either path or path+file name */ if ( (stat(CS option, &statbuf) == 0) && S_ISDIR(statbuf.st_mode) ) /* is directory, use it as decode_path */ decode_file = mime_get_decode_file(option, NULL); else /* does not exist or is a file, use as full file name */ decode_file = mime_get_decode_file(NULL, option); } else /* assume file name only, use default path */ decode_file = mime_get_decode_file(decode_path, option); } else /* no option? patch default path */ DEFAULT_PATH: decode_file = mime_get_decode_file(decode_path, NULL); if (decode_file == NULL) return DEFER; /* read data linewise and dump it to the file, while looking for the current boundary */ while(fgets(CS buffer, MIME_MAX_LINE_LENGTH, mime_stream) != NULL) { uschar *decoded_line = NULL; int decoded_line_length = 0; if (mime_current_boundary != NULL) { /* boundary line must start with 2 dashes */ if (Ustrncmp(buffer,"--",2) == 0) { if (Ustrncmp((buffer+2),mime_current_boundary,Ustrlen(mime_current_boundary)) == 0) break; }; }; decoded_line = mime_parse_line(buffer, decode_buffer, mime_content_transfer_encoding, &decoded_line_length); /* write line to decode file */ if (fwrite(decoded_line, 1, decoded_line_length, decode_file) < decoded_line_length) { /* error/short write */ clearerr(mime_stream); fseek(mime_stream,f_pos,SEEK_SET); return DEFER; }; size_counter += decoded_line_length; if (size_counter > 1023) { if ((mime_content_size + (size_counter / 1024)) < 65535) mime_content_size += (size_counter / 1024); else mime_content_size = 65535; size_counter = (size_counter % 1024); }; } fclose(decode_file); clearerr(mime_stream); fseek(mime_stream,f_pos,SEEK_SET); /* round up remaining size bytes to one k */ if (size_counter) { mime_content_size++; }; return OK; } int mime_get_header(FILE *f, uschar *header) { int c = EOF; int done = 0; int header_value_mode = 0; int header_open_brackets = 0; int num_copied = 0; while(!done) { c = fgetc(f); if (c == EOF) break; /* always skip CRs */ if (c == '\r') continue; if (c == '\n') { if (num_copied > 0) { /* look if next char is '\t' or ' ' */ c = fgetc(f); if (c == EOF) break; if ( (c == '\t') || (c == ' ') ) continue; ungetc(c,f); }; /* end of the header, terminate with ';' */ c = ';'; done = 1; }; /* skip control characters */ if (c < 32) continue; if (header_value_mode) { /* --------- value mode ----------- */ /* skip leading whitespace */ if ( ((c == '\t') || (c == ' ')) && (header_value_mode == 1) ) continue; /* we have hit a non-whitespace char, start copying value data */ header_value_mode = 2; /* skip quotes */ if (c == '"') continue; /* leave value mode on ';' */ if (c == ';') { header_value_mode = 0; }; /* -------------------------------- */ } else { /* -------- non-value mode -------- */ /* skip whitespace + tabs */ if ( (c == ' ') || (c == '\t') ) continue; if (c == '\\') { /* quote next char. can be used to escape brackets. */ c = fgetc(f); if (c == EOF) break; } else if (c == '(') { header_open_brackets++; continue; } else if ((c == ')') && header_open_brackets) { header_open_brackets--; continue; } else if ( (c == '=') && !header_open_brackets ) { /* enter value mode */ header_value_mode = 1; }; /* skip chars while we are in a comment */ if (header_open_brackets > 0) continue; /* -------------------------------- */ }; /* copy the char to the buffer */ header[num_copied] = (uschar)c; /* raise counter */ num_copied++; /* break if header buffer is full */ if (num_copied > MIME_MAX_HEADER_SIZE-1) { done = 1; }; }; if (header[num_copied-1] != ';') { header[num_copied-1] = ';'; }; /* 0-terminate */ header[num_copied] = '\0'; /* return 0 for EOF or empty line */ if ((c == EOF) || (num_copied == 1)) return 0; else return 1; } int mime_acl_check(uschar *acl, FILE *f, struct mime_boundary_context *context, uschar **user_msgptr, uschar **log_msgptr) { int rc = OK; uschar *header = NULL; struct mime_boundary_context nested_context; /* reserve a line buffer to work in */ header = (uschar *)malloc(MIME_MAX_HEADER_SIZE+1); if (header == NULL) { log_write(0, LOG_PANIC, "MIME ACL: can't allocate %d bytes of memory.", MIME_MAX_HEADER_SIZE+1); return DEFER; }; /* Not actually used at the moment, but will be vital to fixing * some RFC 2046 nonconformance later... */ nested_context.parent = context; /* loop through parts */ while(1) { /* reset all per-part mime variables */ mime_anomaly_level = 0; mime_anomaly_text = NULL; mime_boundary = NULL; mime_charset = NULL; mime_decoded_filename = NULL; mime_filename = NULL; mime_content_description = NULL; mime_content_disposition = NULL; mime_content_id = NULL; mime_content_transfer_encoding = NULL; mime_content_type = NULL; mime_is_multipart = 0; mime_content_size = 0; /* If boundary is null, we assume that *f is positioned on the start of headers (for example, at the very beginning of a message. If a boundary is given, we must first advance to it to reach the start of the next header block. */ /* NOTE -- there's an error here -- RFC2046 specifically says to * check for outer boundaries. This code doesn't do that, and * I haven't fixed this. * * (I have moved partway towards adding support, however, by adding * a "parent" field to my new boundary-context structure.) */ if (context != NULL) { while(fgets(CS header, MIME_MAX_HEADER_SIZE, f) != NULL) { /* boundary line must start with 2 dashes */ if (Ustrncmp(header,"--",2) == 0) { if (Ustrncmp((header+2),context->boundary,Ustrlen(context->boundary)) == 0) { /* found boundary */ if (Ustrncmp((header+2+Ustrlen(context->boundary)),"--",2) == 0) { /* END boundary found */ debug_printf("End boundary found %s\n", context->boundary); return rc; } else { debug_printf("Next part with boundary %s\n", context->boundary); }; /* can't use break here */ goto DECODE_HEADERS; } }; } /* Hit EOF or read error. Ugh. */ debug_printf("Hit EOF ...\n"); return rc; }; DECODE_HEADERS: /* parse headers, set up expansion variables */ while(mime_get_header(f,header)) { int i; /* loop through header list */ for (i = 0; i < mime_header_list_size; i++) { uschar *header_value = NULL; int header_value_len = 0; /* found an interesting header? */ if (strncmpic(mime_header_list[i].name,header,mime_header_list[i].namelen) == 0) { uschar *p = header + mime_header_list[i].namelen; /* yes, grab the value (normalize to lower case) and copy to its corresponding expansion variable */ while(*p != ';') { *p = tolower(*p); p++; }; header_value_len = (p - (header + mime_header_list[i].namelen)); header_value = (uschar *)malloc(header_value_len+1); memset(header_value,0,header_value_len+1); p = header + mime_header_list[i].namelen; Ustrncpy(header_value, p, header_value_len); debug_printf("Found %s MIME header, value is '%s'\n", mime_header_list[i].name, header_value); *((uschar **)(mime_header_list[i].value)) = header_value; /* make p point to the next character after the closing ';' */ p += (header_value_len+1); /* grab all param=value tags on the remaining line, check if they are interesting */ NEXT_PARAM_SEARCH: while (*p != 0) { int j; for (j = 0; j < mime_parameter_list_size; j++) { uschar *param_value = NULL; int param_value_len = 0; /* found an interesting parameter? */ if (strncmpic(mime_parameter_list[j].name,p,mime_parameter_list[j].namelen) == 0) { uschar *q = p + mime_parameter_list[j].namelen; /* yes, grab the value and copy to its corresponding expansion variable */ while(*q != ';') q++; param_value_len = (q - (p + mime_parameter_list[j].namelen)); param_value = (uschar *)malloc(param_value_len+1); memset(param_value,0,param_value_len+1); q = p + mime_parameter_list[j].namelen; Ustrncpy(param_value, q, param_value_len); param_value = rfc2047_decode(param_value, TRUE, NULL, 32, ¶m_value_len, &q); debug_printf("Found %s MIME parameter in %s header, value is '%s'\n", mime_parameter_list[j].name, mime_header_list[i].name, param_value); *((uschar **)(mime_parameter_list[j].value)) = param_value; p += (mime_parameter_list[j].namelen + param_value_len + 1); goto NEXT_PARAM_SEARCH; }; } /* There is something, but not one of our interesting parameters. Advance to the next semicolon */ while(*p != ';') p++; p++; }; }; }; }; /* set additional flag variables (easier access) */ if ( (mime_content_type != NULL) && (Ustrncmp(mime_content_type,"multipart",9) == 0) ) mime_is_multipart = 1; /* Make a copy of the boundary pointer. Required since mime_boundary is global and can be overwritten further down in recursion */ nested_context.boundary = mime_boundary; /* raise global counter */ mime_part_count++; /* copy current file handle to global variable */ mime_stream = f; mime_current_boundary = context ? context->boundary : 0; /* Note the context */ mime_is_coverletter = !(context && context->context == MBC_ATTACHMENT); /* call ACL handling function */ rc = acl_check(ACL_WHERE_MIME, NULL, acl, user_msgptr, log_msgptr); mime_stream = NULL; mime_current_boundary = NULL; if (rc != OK) break; /* If we have a multipart entity and a boundary, go recursive */ if ( (mime_content_type != NULL) && (nested_context.boundary != NULL) && (Ustrncmp(mime_content_type,"multipart",9) == 0) ) { debug_printf("Entering multipart recursion, boundary '%s'\n", nested_context.boundary); if (context && context->context == MBC_ATTACHMENT) nested_context.context = MBC_ATTACHMENT; else if (!Ustrcmp(mime_content_type,"multipart/alternative") || !Ustrcmp(mime_content_type,"multipart/related")) nested_context.context = MBC_COVERLETTER_ALL; else nested_context.context = MBC_COVERLETTER_ONESHOT; rc = mime_acl_check(acl, f, &nested_context, user_msgptr, log_msgptr); if (rc != OK) break; } else if ( (mime_content_type != NULL) && (Ustrncmp(mime_content_type,"message/rfc822",14) == 0) ) { uschar *rfc822name = NULL; uschar filename[2048]; int file_nr = 0; int result = 0; /* must find first free sequential filename */ do { struct stat mystat; snprintf(CS filename,2048,"%s/scan/%s/__rfc822_%05u", spool_directory, message_id, file_nr); file_nr++; /* security break */ if (file_nr >= 128) goto NO_RFC822; result = stat(CS filename,&mystat); } while(result != -1); rfc822name = filename; /* decode RFC822 attachment */ mime_decoded_filename = NULL; mime_stream = f; mime_current_boundary = context ? context->boundary : NULL; mime_decode(&rfc822name); mime_stream = NULL; mime_current_boundary = NULL; if (mime_decoded_filename == NULL) { /* decoding failed */ log_write(0, LOG_MAIN, "mime_regex acl condition warning - could not decode RFC822 MIME part to file."); return DEFER; }; mime_decoded_filename = NULL; }; NO_RFC822: /* If the boundary of this instance is NULL, we are finished here */ if (context == NULL) break; if (context->context == MBC_COVERLETTER_ONESHOT) context->context = MBC_ATTACHMENT; }; return rc; } #endif