Mercurial > libpst
view src/msg.cpp @ 336:f1595a84790b
Old dependency filter breaks file coloring
author | Carl Byington <carl@five-ten-sg.com> |
---|---|
date | Sun, 22 Sep 2013 16:10:10 -0700 |
parents | c5e7f13d2836 |
children | 1c458f13d1d3 |
line wrap: on
line source
extern "C" { #include "define.h" #include "msg.h" #include <gsf/gsf-utils.h> #include <gsf/gsf-input-stdio.h> #include <gsf/gsf-infile.h> #include <gsf/gsf-infile-stdio.h> #include <gsf/gsf-output-stdio.h> #include <gsf/gsf-outfile.h> #include <gsf/gsf-outfile-msole.h> } #include <list> #include <vector> #include <string> using namespace std; struct property { uint32_t tag; uint32_t flags; uint32_t length; // or value uint32_t reserved; }; typedef list<property> property_list; /** Convert str to an 8 bit charset if it is utf8, null strings are preserved. * * @param str reference to the mapi string of interest * @param charset pointer to the 8 bit charset to use */ static void convert_8bit(pst_string &str, const char *charset); static void convert_8bit(pst_string &str, const char *charset) { if (!str.str) return; // null if (!str.is_utf8) return; // not utf8 DEBUG_ENT("convert_8bit"); pst_vbuf *newer = pst_vballoc(2); size_t strsize = strlen(str.str); size_t rc = pst_vb_utf8to8bit(newer, str.str, strsize, charset); if (rc == (size_t)-1) { // unable to convert, change the charset to utf8 free(newer->b); DEBUG_INFO(("Failed to convert utf-8 to %s\n", charset)); DEBUG_HEXDUMPC(str.str, strsize, 0x10); } else { // null terminate the output string pst_vbgrow(newer, 1); newer->b[newer->dlen] = '\0'; free(str.str); str.str = newer->b; } free(newer); DEBUG_RET(); } static void empty_property(GsfOutfile *out, uint32_t tag); static void empty_property(GsfOutfile *out, uint32_t tag) { vector<char> n(50); snprintf(&n[0], n.size(), "__substg1.0_%08X", tag); GsfOutput* dst = gsf_outfile_new_child(out, &n[0], false); gsf_output_close(dst); g_object_unref(G_OBJECT(dst)); } static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, const char *contents, size_t size); static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, const char *contents, size_t size) { if (!contents) return; size_t term = ((tag & 0x0000ffff) == 0x001e) ? 1 : ((tag & 0x0000ffff) == 0x001f) ? 2 : 0; // null terminator vector<char> n(50); snprintf(&n[0], n.size(), "__substg1.0_%08X", tag); GsfOutput* dst = gsf_outfile_new_child(out, &n[0], false); gsf_output_write(dst, size, (const guint8*)contents); if (term) { memset(&n[0], 0, term); gsf_output_write(dst, term, (const guint8*)&n[0]); size += term; } gsf_output_close(dst); g_object_unref(G_OBJECT(dst)); property p; p.tag = tag; p.flags = 0x6; // make all the properties writable p.length = size; p.reserved = 0; prop.push_back(p); } static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, FILE *fp); static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, FILE *fp) { vector<char> n(50); snprintf(&n[0], n.size(), "__substg1.0_%08X", tag); GsfOutput* dst = gsf_outfile_new_child(out, &n[0], false); size_t size = 0; const size_t bsize = 10000; char buf[bsize]; while (1) { size_t s = fread(buf, 1, bsize, fp); if (!s) break; gsf_output_write(dst, s, (const guint8*)buf); } gsf_output_close(dst); g_object_unref(G_OBJECT(dst)); property p; p.tag = tag; p.flags = 0x6; // make all the properties writable p.length = size; p.reserved = 0; prop.push_back(p); } static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, const char* charset, pst_string &contents); static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, const char* charset, pst_string &contents) { if (contents.str) { convert_8bit(contents, charset); string_property(out, prop, tag, contents.str, strlen(contents.str)); } } static void strin0_property(GsfOutfile *out, property_list &prop, uint32_t tag, const char* charset, pst_string &contents); static void strin0_property(GsfOutfile *out, property_list &prop, uint32_t tag, const char* charset, pst_string &contents) { if (contents.str) { convert_8bit(contents, charset); string_property(out, prop, tag, contents.str, strlen(contents.str)+1); } } static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, const string &contents); static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, const string &contents) { string_property(out, prop, tag, contents.c_str(), contents.size()); } static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, pst_binary &contents); static void string_property(GsfOutfile *out, property_list &prop, uint32_t tag, pst_binary &contents) { if (contents.size) string_property(out, prop, tag, contents.data, contents.size); } static void write_properties(GsfOutfile *out, property_list &prop, const guint8* header, size_t hlen); static void write_properties(GsfOutfile *out, property_list &prop, const guint8* header, size_t hlen) { GsfOutput* dst = gsf_outfile_new_child(out, "__properties_version1.0", false); gsf_output_write(dst, hlen, header); for (property_list::iterator i=prop.begin(); i!=prop.end(); i++) { property &p = *i; gsf_output_write(dst, sizeof(property), (const guint8*)&p); } gsf_output_close(dst); g_object_unref(G_OBJECT(dst)); } static void int_property(property_list &prop_list, uint32_t tag, uint32_t flags, uint32_t value); static void int_property(property_list &prop_list, uint32_t tag, uint32_t flags, uint32_t value) { property p; p.tag = tag; p.flags = flags; p.length = value; p.reserved = 0; prop_list.push_back(p); } static void i64_property(property_list &prop_list, uint32_t tag, uint32_t flags, FILETIME *value); static void i64_property(property_list &prop_list, uint32_t tag, uint32_t flags, FILETIME *value) { if (value) { property p; p.tag = tag; p.flags = flags; p.length = value->dwLowDateTime; p.reserved = value->dwHighDateTime; prop_list.push_back(p); } } static void nzi_property(property_list &prop_list, uint32_t tag, uint32_t flags, uint32_t value); static void nzi_property(property_list &prop_list, uint32_t tag, uint32_t flags, uint32_t value) { if (value) int_property(prop_list, tag, flags, value); } void write_msg_email(char *fname, pst_item* item, pst_file* pst) { // this is not an email item if (!item->email) return; DEBUG_ENT("write_msg_email"); pst_item_email &email = *(item->email); char charset[30]; const char* body_charset = pst_default_charset(item, sizeof(charset), charset); DEBUG_INFO(("%s body charset seems to be %s\n", fname, body_charset)); body_charset = "iso-8859-1//TRANSLIT//IGNORE"; gsf_init(); GsfOutfile *outfile; GsfOutput *output; GError *err = NULL; output = gsf_output_stdio_new(fname, &err); if (output == NULL) { gsf_shutdown(); DEBUG_INFO(("unable to open output .msg file %s\n", fname)); DEBUG_RET(); return; } struct top_property_header { uint32_t reserved1; uint32_t reserved2; uint32_t next_recipient; // same as recipient count uint32_t next_attachment; // same as attachment count uint32_t recipient_count; uint32_t attachment_count; uint32_t reserved3; uint32_t reserved4; }; top_property_header top_head; memset(&top_head, 0, sizeof(top_head)); outfile = gsf_outfile_msole_new(output); g_object_unref(G_OBJECT(output)); output = GSF_OUTPUT(outfile); property_list prop_list; int_property(prop_list, 0x00170003, 0x6, email.importance); nzi_property(prop_list, 0x0023000B, 0x6, email.delivery_report); nzi_property(prop_list, 0x00260003, 0x6, email.priority); nzi_property(prop_list, 0x0029000B, 0x6, email.read_receipt); nzi_property(prop_list, 0x002E0003, 0x6, email.original_sensitivity); nzi_property(prop_list, 0x00360003, 0x6, email.sensitivity); nzi_property(prop_list, 0x0C17000B, 0x6, email.reply_requested); nzi_property(prop_list, 0x0E01000B, 0x6, email.delete_after_submit); int_property(prop_list, 0x0E070003, 0x6, item->flags); i64_property(prop_list, 0x00390040, 0x6, email.sent_date); GsfOutfile *out = GSF_OUTFILE (output); string_property(out, prop_list, 0x001A001E, item->ascii_type); string_property(out, prop_list, 0x0037001E, body_charset, item->subject); strin0_property(out, prop_list, 0x003B0102, body_charset, email.outlook_sender); string_property(out, prop_list, 0x003D001E, string("")); string_property(out, prop_list, 0x0040001E, body_charset, email.outlook_received_name1); string_property(out, prop_list, 0x0042001E, body_charset, email.outlook_sender_name); string_property(out, prop_list, 0x0044001E, body_charset, email.outlook_recipient_name); string_property(out, prop_list, 0x0050001E, body_charset, email.reply_to); strin0_property(out, prop_list, 0x00510102, body_charset, email.outlook_recipient); strin0_property(out, prop_list, 0x00520102, body_charset, email.outlook_recipient2); string_property(out, prop_list, 0x0064001E, body_charset, email.sender_access); string_property(out, prop_list, 0x0065001E, body_charset, email.sender_address); string_property(out, prop_list, 0x0070001E, body_charset, email.processed_subject); string_property(out, prop_list, 0x00710102, email.conversation_index); string_property(out, prop_list, 0x0072001E, body_charset, email.original_bcc); string_property(out, prop_list, 0x0073001E, body_charset, email.original_cc); string_property(out, prop_list, 0x0074001E, body_charset, email.original_to); string_property(out, prop_list, 0x0075001E, body_charset, email.recip_access); string_property(out, prop_list, 0x0076001E, body_charset, email.recip_address); string_property(out, prop_list, 0x0077001E, body_charset, email.recip2_access); string_property(out, prop_list, 0x0078001E, body_charset, email.recip2_address); string_property(out, prop_list, 0x007D001E, body_charset, email.header); string_property(out, prop_list, 0x0C1A001E, body_charset, email.outlook_sender_name2); strin0_property(out, prop_list, 0x0C1D0102, body_charset, email.outlook_sender2); string_property(out, prop_list, 0x0C1E001E, body_charset, email.sender2_access); string_property(out, prop_list, 0x0C1F001E, body_charset, email.sender2_address); string_property(out, prop_list, 0x0E02001E, body_charset, email.bcc_address); string_property(out, prop_list, 0x0E03001E, body_charset, email.cc_address); string_property(out, prop_list, 0x0E04001E, body_charset, email.sentto_address); string_property(out, prop_list, 0x0E1D001E, body_charset, email.outlook_normalized_subject); string_property(out, prop_list, 0x1000001E, body_charset, item->body); string_property(out, prop_list, 0x1013001E, body_charset, email.htmlbody); string_property(out, prop_list, 0x1035001E, body_charset, email.messageid); string_property(out, prop_list, 0x1042001E, body_charset, email.in_reply_to); string_property(out, prop_list, 0x1046001E, body_charset, email.return_path_address); // any property over 0x8000 needs entries in the __nameid to make them // either string named or numerical named properties. { vector<char> n(50); { snprintf(&n[0], n.size(), "__recip_version1.0_#%08X", top_head.recipient_count); GsfOutput *output = gsf_outfile_new_child(out, &n[0], true); { int v = 1; // to property_list prop_list; int_property(prop_list, 0x0C150003, 0x6, v); // PidTagRecipientType int_property(prop_list, 0x30000003, 0x6, top_head.recipient_count); // PR_ROWID GsfOutfile *out = GSF_OUTFILE (output); string_property(out, prop_list, 0x3001001E, body_charset, item->file_as); if (item->contact) { string_property(out, prop_list, 0x3002001E, body_charset, item->contact->address1_transport); string_property(out, prop_list, 0x3003001E, body_charset, item->contact->address1); string_property(out, prop_list, 0x5ff6001E, body_charset, item->contact->address1); } strin0_property(out, prop_list, 0x300B0102, body_charset, email.outlook_search_key); write_properties(out, prop_list, (const guint8*)&top_head, 8); // convenient 8 bytes of reserved zeros gsf_output_close(output); g_object_unref(G_OBJECT(output)); top_head.next_recipient++; top_head.recipient_count++; } } if (email.cc_address.str) { snprintf(&n[0], n.size(), "__recip_version1.0_#%08X", top_head.recipient_count); GsfOutput *output = gsf_outfile_new_child(out, &n[0], true); { int v = 2; // cc property_list prop_list; int_property(prop_list, 0x0C150003, 0x6, v); // PidTagRecipientType int_property(prop_list, 0x30000003, 0x6, top_head.recipient_count); // PR_ROWID GsfOutfile *out = GSF_OUTFILE (output); string_property(out, prop_list, 0x3001001E, body_charset, email.cc_address); string_property(out, prop_list, 0x3003001E, body_charset, email.cc_address); string_property(out, prop_list, 0x5ff6001E, body_charset, email.cc_address); write_properties(out, prop_list, (const guint8*)&top_head, 8); // convenient 8 bytes of reserved zeros gsf_output_close(output); g_object_unref(G_OBJECT(output)); top_head.next_recipient++; top_head.recipient_count++; } } if (email.bcc_address.str) { snprintf(&n[0], n.size(), "__recip_version1.0_#%08X", top_head.recipient_count); GsfOutput *output = gsf_outfile_new_child(out, &n[0], true); { int v = 3; // bcc property_list prop_list; int_property(prop_list, 0x0C150003, 0x6, v); // PidTagRecipientType int_property(prop_list, 0x30000003, 0x6, top_head.recipient_count); // PR_ROWID GsfOutfile *out = GSF_OUTFILE (output); string_property(out, prop_list, 0x3001001E, body_charset, email.bcc_address); string_property(out, prop_list, 0x3003001E, body_charset, email.bcc_address); string_property(out, prop_list, 0x5ff6001E, body_charset, email.bcc_address); write_properties(out, prop_list, (const guint8*)&top_head, 8); // convenient 8 bytes of reserved zeros gsf_output_close(output); g_object_unref(G_OBJECT(output)); top_head.next_recipient++; top_head.recipient_count++; } } } pst_item_attach *a = item->attach; while (a) { if (a->method == PST_ATTACH_EMBEDDED) { // not implemented yet } else if (a->data.data || a->i_id) { vector<char> n(50); snprintf(&n[0], n.size(), "__attach_version1.0_#%08X", top_head.attachment_count); GsfOutput *output = gsf_outfile_new_child(out, &n[0], true); { FILE *fp = fopen("temp_file_attachment", "w+b"); if (fp) { pst_attach_to_file(pst, a, fp); // data is now in the file fseek(fp, 0, SEEK_SET); property_list prop_list; int_property(prop_list, 0x0E210003, 0x2, top_head.attachment_count); // MAPI_ATTACH_NUM int_property(prop_list, 0x0FF40003, 0x2, 2); // PR_ACCESS read int_property(prop_list, 0x0FF70003, 0x2, 0); // PR_ACCESS_LEVEL read only int_property(prop_list, 0x0FFE0003, 0x2, 7); // PR_OBJECT_TYPE attachment int_property(prop_list, 0x37050003, 0x7, 1); // PR_ATTACH_METHOD by value int_property(prop_list, 0x370B0003, 0x7, a->position); // PR_RENDERING_POSITION int_property(prop_list, 0x37100003, 0x6, a->sequence); // PR_ATTACH_MIME_SEQUENCE GsfOutfile *out = GSF_OUTFILE (output); string_property(out, prop_list, 0x0FF90102, item->record_key); string_property(out, prop_list, 0x37010102, fp); if (a->filename2.str) { // have long file name string_property(out, prop_list, 0x3707001E, body_charset, a->filename2); } else if (a->filename1.str) { // have short file name string_property(out, prop_list, 0x3704001E, body_charset, a->filename1); } else { // make up a name const char *n = "inline"; string_property(out, prop_list, 0x3704001E, n, strlen(n)); } string_property(out, prop_list, 0x370E001E, body_charset, a->mimetype); write_properties(out, prop_list, (const guint8*)&top_head, 8); // convenient 8 bytes of reserved zeros gsf_output_close(output); g_object_unref(G_OBJECT(output)); top_head.next_attachment++; top_head.attachment_count++; fclose(fp); } } } a = a->next; } write_properties(out, prop_list, (const guint8*)&top_head, sizeof(top_head)); { GsfOutput *output = gsf_outfile_new_child(out, "__nameid_version1.0", true); { GsfOutfile *out = GSF_OUTFILE (output); empty_property(out, 0x00020102); empty_property(out, 0x00030102); empty_property(out, 0x00040102); gsf_output_close(output); g_object_unref(G_OBJECT(output)); } } gsf_output_close(output); g_object_unref(G_OBJECT(output)); gsf_shutdown(); DEBUG_RET(); }