Mercurial > libpst
view src/libpst.c @ 48:f66078abed38
more fixes for 64 bit format
| author | carl |
|---|---|
| date | Fri, 18 Jan 2008 15:07:12 -0800 |
| parents | 5fb8d997feed |
| children | 17654fbdf76b |
line wrap: on
line source
/*** * libpst.c * Part of the LibPST project * Written by David Smith * dave.s@earthcorp.com */ #include "define.h" #include <stdio.h> #include <stdlib.h> #include <time.h> #include <string.h> #include <ctype.h> #include <limits.h> #include <wchar.h> #include <signal.h> #include <errno.h> #include <sys/stat.h> // mkdir #include <fcntl.h> // for Win32 definition of _O_BINARY #include "libstrfunc.h" #include "vbuf.h" #define ASSERT(x) { if(!(x)) raise( SIGSEGV ); } #ifdef _MSC_VER # include <windows.h> #else # include <unistd.h> #endif //ifdef _MSC_VER #include "libpst.h" #include "timeconv.h" //efine INDEX_DEPTH 0x4C //efine SECOND_DEPTH 0x5C #define INDEX_TYPE32 0x0E #define INDEX_TYPE64 0x17 #define INDEX_TYPE_OFFSET (off_t)0x0A #define FILE_SIZE_POINTER32 (off_t)0xA8 #define INDEX_POINTER32 (off_t)0xC4 #define INDEX_BACK32 (off_t)0xC0 #define SECOND_POINTER32 (off_t)0xBC #define SECOND_BACK32 (off_t)0xB8 #define ENC_OFFSET32 (off_t)0x1CD #define FILE_SIZE_POINTER64 (off_t)0xB8 #define INDEX_POINTER64 (off_t)0xF0 #define INDEX_BACK64 (off_t)0xE8 #define SECOND_POINTER64 (off_t)0xE0 #define SECOND_BACK64 (off_t)0xD8 #define ENC_OFFSET64 (off_t)0x201 #define FILE_SIZE_POINTER ((pf->do_read64) ? FILE_SIZE_POINTER64 : FILE_SIZE_POINTER32) #define INDEX_POINTER ((pf->do_read64) ? INDEX_POINTER64 : INDEX_POINTER32) #define INDEX_BACK ((pf->do_read64) ? INDEX_BACK64 : INDEX_BACK32) #define SECOND_POINTER ((pf->do_read64) ? SECOND_POINTER64 : SECOND_POINTER32) #define SECOND_BACK ((pf->do_read64) ? SECOND_BACK64 : SECOND_BACK32) #define ENC_OFFSET ((pf->do_read64) ? ENC_OFFSET64 : ENC_OFFSET32) #define PST_SIGNATURE 0x4E444221 struct pst_table_ptr_struct32{ uint32_t start; uint32_t u1; uint32_t offset; }; struct pst_table_ptr_structn{ uint64_t start; uint64_t u1; uint64_t offset; }; typedef struct pst_block_header { uint16_t type; uint16_t count; } pst_block_header; typedef struct pst_id2_assoc32 { uint32_t id2; uint32_t id; uint32_t table2; } pst_id2_assoc32; typedef struct pst_id2_assoc { uint32_t id2; // only 32 bit here? uint16_t unknown1; uint16_t unknown2; uint64_t id; uint64_t table2; } pst_id2_assoc; typedef struct pst_table3_rec32 { uint32_t id; } pst_table3_rec32; //for type 3 (0x0101) blocks typedef struct pst_table3_rec { uint64_t id; } pst_table3_rec; //for type 3 (0x0101) blocks // this is an array of the un-encrypted values. the un-encrypted value is in the position // of the encrypted value. ie the encrypted value 0x13 represents 0x02 // 0 1 2 3 4 5 6 7 // 8 9 a b c d e f static unsigned char comp_enc [] = { 0x47, 0xf1, 0xb4, 0xe6, 0x0b, 0x6a, 0x72, 0x48, 0x85, 0x4e, 0x9e, 0xeb, 0xe2, 0xf8, 0x94, 0x53, /*0x0f*/ 0xe0, 0xbb, 0xa0, 0x02, 0xe8, 0x5a, 0x09, 0xab, 0xdb, 0xe3, 0xba, 0xc6, 0x7c, 0xc3, 0x10, 0xdd, /*0x1f*/ 0x39, 0x05, 0x96, 0x30, 0xf5, 0x37, 0x60, 0x82, 0x8c, 0xc9, 0x13, 0x4a, 0x6b, 0x1d, 0xf3, 0xfb, /*0x2f*/ 0x8f, 0x26, 0x97, 0xca, 0x91, 0x17, 0x01, 0xc4, 0x32, 0x2d, 0x6e, 0x31, 0x95, 0xff, 0xd9, 0x23, /*0x3f*/ 0xd1, 0x00, 0x5e, 0x79, 0xdc, 0x44, 0x3b, 0x1a, 0x28, 0xc5, 0x61, 0x57, 0x20, 0x90, 0x3d, 0x83, /*0x4f*/ 0xb9, 0x43, 0xbe, 0x67, 0xd2, 0x46, 0x42, 0x76, 0xc0, 0x6d, 0x5b, 0x7e, 0xb2, 0x0f, 0x16, 0x29, /*0x5f*/ 0x3c, 0xa9, 0x03, 0x54, 0x0d, 0xda, 0x5d, 0xdf, 0xf6, 0xb7, 0xc7, 0x62, 0xcd, 0x8d, 0x06, 0xd3, /*0x6f*/ 0x69, 0x5c, 0x86, 0xd6, 0x14, 0xf7, 0xa5, 0x66, 0x75, 0xac, 0xb1, 0xe9, 0x45, 0x21, 0x70, 0x0c, /*0x7f*/ 0x87, 0x9f, 0x74, 0xa4, 0x22, 0x4c, 0x6f, 0xbf, 0x1f, 0x56, 0xaa, 0x2e, 0xb3, 0x78, 0x33, 0x50, /*0x8f*/ 0xb0, 0xa3, 0x92, 0xbc, 0xcf, 0x19, 0x1c, 0xa7, 0x63, 0xcb, 0x1e, 0x4d, 0x3e, 0x4b, 0x1b, 0x9b, /*0x9f*/ 0x4f, 0xe7, 0xf0, 0xee, 0xad, 0x3a, 0xb5, 0x59, 0x04, 0xea, 0x40, 0x55, 0x25, 0x51, 0xe5, 0x7a, /*0xaf*/ 0x89, 0x38, 0x68, 0x52, 0x7b, 0xfc, 0x27, 0xae, 0xd7, 0xbd, 0xfa, 0x07, 0xf4, 0xcc, 0x8e, 0x5f, /*0xbf*/ 0xef, 0x35, 0x9c, 0x84, 0x2b, 0x15, 0xd5, 0x77, 0x34, 0x49, 0xb6, 0x12, 0x0a, 0x7f, 0x71, 0x88, /*0xcf*/ 0xfd, 0x9d, 0x18, 0x41, 0x7d, 0x93, 0xd8, 0x58, 0x2c, 0xce, 0xfe, 0x24, 0xaf, 0xde, 0xb8, 0x36, /*0xdf*/ 0xc8, 0xa1, 0x80, 0xa6, 0x99, 0x98, 0xa8, 0x2f, 0x0e, 0x81, 0x65, 0x73, 0xe4, 0xc2, 0xa2, 0x8a, /*0xef*/ 0xd4, 0xe1, 0x11, 0xd0, 0x08, 0x8b, 0x2a, 0xf2, 0xed, 0x9a, 0x64, 0x3f, 0xc1, 0x6c, 0xf9, 0xec}; /*0xff*/ int pst_open(pst_file *pf, char *name, char *mode) { int32_t sig; unicode_init(); DEBUG_ENT("pst_open"); if (!pf) { WARN (("cannot be passed a NULL pst_file\n")); DEBUG_RET(); return -1; } memset(pf, 0, sizeof(*pf)); #ifdef _MSC_VER // set the default open mode for windows _fmode = _O_BINARY; #endif //_MSC_VER if ((pf->fp = fopen(name, mode)) == NULL) { WARN(("cannot open PST file. Error\n")); DEBUG_RET(); return -1; } // Check pst file magic if (fread(&sig, sizeof(sig), (size_t)1, pf->fp) == 0) { (void)fclose(pf->fp); WARN(("cannot read signature from PST file. Closing on error\n")); DEBUG_RET(); return -1; } LE32_CPU(sig); DEBUG_INFO(("sig = %X\n", sig)); if (sig != (int32_t)PST_SIGNATURE) { (void)fclose(pf->fp); WARN(("not a PST file that I know. Closing with error\n")); DEBUG_RET(); return -1; } // read index type (void)pst_getAtPos(pf->fp, INDEX_TYPE_OFFSET, &(pf->ind_type), sizeof(pf->ind_type)); DEBUG_INFO(("index_type = %i\n", pf->ind_type)); switch (pf->ind_type) { case INDEX_TYPE32 : pf->do_read64 = 0; break; case INDEX_TYPE64 : pf->do_read64 = 1; break; default: WARN(("unknown .pst format, possibly newer than Outlook 2003 PST file?\n")); DEBUG_RET(); return -1; } // read encryption setting (void)pst_getAtPos(pf->fp, ENC_OFFSET, &(pf->encryption), sizeof(pf->encryption)); DEBUG_INFO(("encrypt = %i\n", pf->encryption)); pf->index2_back = pst_getIntAtPos(pf, SECOND_BACK); pf->index2 = pst_getIntAtPos(pf, SECOND_POINTER); pf->size = pst_getIntAtPos(pf, FILE_SIZE_POINTER); DEBUG_INFO(("Pointer2 is %#llx, back pointer2 is %#llx\n", pf->index2, pf->index2_back)); pf->index1_back = pst_getIntAtPos(pf, INDEX_BACK); pf->index1 = pst_getIntAtPos(pf, INDEX_POINTER); DEBUG_INFO(("Pointer1 is %#llx, back pointer2 is %#llx\n", pf->index1, pf->index1_back)); DEBUG_RET(); return 0; } int pst_close(pst_file *pf) { DEBUG_ENT("pst_close"); if (!pf->fp) { WARN(("cannot close NULL fp\n")); DEBUG_RET(); return -1; } if (fclose(pf->fp)) { WARN(("fclose returned non-zero value\n")); DEBUG_RET(); return -1; } // we must free the id linklist and the desc tree pst_free_id (pf->i_head); pst_free_desc (pf->d_head); pst_free_xattrib (pf->x_head); DEBUG_RET(); return 0; } pst_desc_ll* pst_getTopOfFolders(pst_file *pf, pst_item *root) { pst_desc_ll *ret; DEBUG_ENT("pst_getTopOfFolders"); if (!root || !root->message_store) { DEBUG_INDEX(("There isn't a top of folder record here.\n")); ret = NULL; } else if (!root->message_store->top_of_personal_folder) { // this is the OST way // ASSUMPTION: Top Of Folders record in PST files is *always* descid 0x2142 ret = pst_getDptr(pf, (uint64_t)0x2142); } else { ret = pst_getDptr(pf, root->message_store->top_of_personal_folder->id); } DEBUG_RET(); return ret; } size_t pst_attach_to_mem(pst_file *pf, pst_item_attach *attach, unsigned char **b){ size_t size=0; pst_index_ll *ptr; struct holder h = {b, NULL, 0, "", 0}; DEBUG_ENT("pst_attach_to_mem"); if (attach->id_val != (uint64_t)-1) { ptr = pst_getID(pf, attach->id_val); if (ptr) { size = pst_ff_getID2data(pf, ptr, &h); } else { DEBUG_WARN(("Couldn't find ID pointer. Cannot handle attachment\n")); size = 0; } attach->size = size; // may as well update it to what is correct for this instance } else { size = attach->size; } DEBUG_RET(); return size; } size_t pst_attach_to_file(pst_file *pf, pst_item_attach *attach, FILE* fp) { pst_index_ll *ptr; struct holder h = {NULL, fp, 0, "", 0}; size_t size; DEBUG_ENT("pst_attach_to_file"); if (attach->id_val != (uint64_t)-1) { ptr = pst_getID(pf, attach->id_val); if (ptr) { size = pst_ff_getID2data(pf, ptr, &h); } else { DEBUG_WARN(("Couldn't find ID pointer. Cannot save attachment to file\n")); size = 0; } attach->size = size; } else { // save the attachment to file size = attach->size; (void)pst_fwrite(attach->data, (size_t)1, size, fp); } DEBUG_RET(); return size; } size_t pst_attach_to_file_base64(pst_file *pf, pst_item_attach *attach, FILE* fp) { pst_index_ll *ptr; struct holder h = {NULL, fp, 1, "", 0}; size_t size; char *c; DEBUG_ENT("pst_attach_to_file_base64"); if (attach->id_val != (uint64_t)-1) { ptr = pst_getID(pf, attach->id_val); if (ptr) { size = pst_ff_getID2data(pf, ptr, &h); // will need to encode any bytes left over c = base64_encode(h.base64_extra_chars, (size_t)h.base64_extra); if (c) { (void)pst_fwrite(c, (size_t)1, strlen(c), fp); free(c); // caught by valgrind } } else { DEBUG_WARN (("Couldn't find ID pointer. Cannot save attachment to Base64\n")); size = 0; } attach->size = size; } else { // encode the attachment to the file c = base64_encode(attach->data, attach->size); if (c) { (void)pst_fwrite(c, (size_t)1, strlen(c), fp); free(c); // caught by valgrind } size = attach->size; } DEBUG_RET(); return size; } int pst_load_index (pst_file *pf) { int x; uint64_t y; DEBUG_ENT("pst_load_index"); if (!pf) { WARN(("Cannot load index for a NULL pst_file\n")); DEBUG_RET(); return -1; } x = pst_build_id_ptr(pf, pf->index1, 0, pf->index1_back, 0, UINT64_MAX); DEBUG_INDEX(("build id ptr returns %i\n", x)); y = 0; x = pst_build_desc_ptr(pf, pf->index2, 0, pf->index2_back, &y, (uint64_t)0x21, UINT64_MAX); DEBUG_INDEX(("build desc ptr returns %i\n", x)); DEBUG_CODE((void)pst_printDptr(pf);); DEBUG_RET(); return 0; } pst_desc_ll* pst_getNextDptr(pst_desc_ll* d) { pst_desc_ll* r = NULL; DEBUG_ENT("pst_getNextDptr"); if (d) { if ((r = d->child) == NULL) { while (!d->next && d->parent) d = d->parent; r = d->next; } } DEBUG_RET(); return r; } typedef struct pst_x_attrib { uint16_t extended; uint16_t zero; uint16_t type; uint16_t map; } pst_x_attrib; int pst_load_extended_attributes(pst_file *pf) { // for PST files this will load up ID2 0x61 and check it's "list" attribute. pst_desc_ll *p; pst_num_array *na; pst_index2_ll *id2_head = NULL; unsigned char *buffer=NULL, *headerbuffer=NULL; size_t bsize=0, hsize=0, bptr=0; pst_x_attrib xattrib; int32_t tint, err=0, x; pst_x_attrib_ll *ptr, *p_head=NULL, *p_sh=NULL, *p_sh2=NULL; DEBUG_ENT("pst_loadExtendedAttributes"); if ((p = pst_getDptr(pf, (uint64_t)0x61)) == NULL) { DEBUG_WARN(("Cannot find DescID 0x61 for loading the Extended Attributes\n")); DEBUG_RET(); return 0; } if (!p->desc) { DEBUG_WARN(("desc is NULL for item 0x61. Cannot load Extended Attributes\n")); DEBUG_RET(); return 0; } if (p->list_index) { id2_head = pst_build_id2(pf, p->list_index, NULL); (void)pst_printID2ptr(id2_head); } else { DEBUG_WARN(("Have not been able to fetch any id2 values for item 0x61. Brace yourself!\n")); } na = pst_parse_block(pf, p->desc->id, id2_head, NULL); if (!na) { DEBUG_WARN(("Cannot process desc block for item 0x61. Not loading extended Attributes\n")); if (id2_head) pst_free_id2(id2_head); DEBUG_RET(); return 0; } x = 0; while (x < na->count_item) { if (na->items[x]->id == (uint32_t)0x0003) { buffer = na->items[x]->data; bsize = na->items[x]->size; } else if (na->items[x]->id == (uint32_t)0x0004) { headerbuffer = na->items[x]->data; hsize = na->items[x]->size; } else { // leave them null } x++; } if (!buffer) { if (na) pst_free_list(na); DEBUG_WARN(("No extended attributes buffer found. Not processing\n")); DEBUG_RET(); return 0; } memcpy(&xattrib, &(buffer[bptr]), sizeof(xattrib)); LE16_CPU(xattrib.extended); LE16_CPU(xattrib.zero); LE16_CPU(xattrib.type); LE16_CPU(xattrib.map); bptr += sizeof(xattrib); while (xattrib.type != 0 && bptr < bsize) { ptr = (pst_x_attrib_ll*) xmalloc(sizeof(*ptr)); memset(ptr, 0, sizeof(*ptr)); ptr->type = xattrib.type; ptr->map = xattrib.map+0x8000; ptr->next = NULL; DEBUG_INDEX(("xattrib: ext = %#hx, zero = %#hx, type = %#hx, map = %#hx\n", xattrib.extended, xattrib.zero, xattrib.type, xattrib.map)); err=0; if (xattrib.type & 0x0001) { // if the Bit 1 is set // pointer to Unicode field in buffer if (xattrib.extended < hsize) { char *wt; // copy the size of the header. It is 32 bit int memcpy(&tint, &(headerbuffer[xattrib.extended]), sizeof(tint)); LE32_CPU(tint); wt = (char*) xmalloc((size_t)(tint+2)); // plus 2 for a uni-code zero memset(wt, 0, (size_t)(tint+2)); memcpy(wt, &(headerbuffer[xattrib.extended+sizeof(tint)]), (size_t)tint); ptr->data = pst_wide_to_single(wt, (size_t)tint); free(wt); DEBUG_INDEX(("Read string (converted from UTF-16): %s\n", ptr->data)); } else { DEBUG_INDEX(("Cannot read outside of buffer [%i !< %i]\n", xattrib.extended, hsize)); } ptr->mytype = PST_MAP_HEADER; } else { // contains the attribute code to map to. ptr->data = (uint32_t*)xmalloc(sizeof(uint32_t)); memset(ptr->data, 0, sizeof(uint32_t)); *((uint32_t*)ptr->data) = xattrib.extended; ptr->mytype = PST_MAP_ATTRIB; DEBUG_INDEX(("Mapped attribute %#x to %#x\n", ptr->map, *((int32_t*)ptr->data))); } if (err==0) { // add it to the list p_sh = p_head; p_sh2 = NULL; while (p_sh && ptr->map > p_sh->map) { p_sh2 = p_sh; p_sh = p_sh->next; } if (!p_sh2) { // needs to go before first item ptr->next = p_head; p_head = ptr; } else { // it will go after p_sh2 ptr->next = p_sh2->next; p_sh2->next = ptr; } } else { free(ptr); ptr = NULL; } memcpy(&xattrib, &(buffer[bptr]), sizeof(xattrib)); LE16_CPU(xattrib.extended); LE16_CPU(xattrib.zero); LE16_CPU(xattrib.type); LE16_CPU(xattrib.map); bptr += sizeof(xattrib); } if (id2_head) pst_free_id2(id2_head); if (na) pst_free_list(na); pf->x_head = p_head; DEBUG_RET(); return 1; } #define BLOCK_SIZE32 516 // index blocks #define DESC_BLOCK_SIZE32 516 // descriptor blocks #define ITEM_COUNT_OFFSET32 0x1f0 // count byte #define LEVEL_INDICATOR_OFFSET32 0x1f3 // node or leaf #define BACKLINK_OFFSET32 0x1f8 // backlink u1 value #define ITEM_SIZE32 12 #define DESC_SIZE32 16 #define INDEX_COUNT_MAX32 41 // max active items #define DESC_COUNT_MAX32 31 // max active items #define BLOCK_SIZE64 512 // index blocks #define DESC_BLOCK_SIZE64 512 // descriptor blocks #define ITEM_COUNT_OFFSET64 0x1e8 // count byte #define LEVEL_INDICATOR_OFFSET64 0x1eb // node or leaf #define BACKLINK_OFFSET64 0x1f8 // backlink u1 value #define ITEM_SIZE64 24 #define DESC_SIZE64 32 #define INDEX_COUNT_MAX64 20 // max active items #define DESC_COUNT_MAX64 15 // max active items #define BLOCK_SIZE (size_t)((pf->do_read64) ? BLOCK_SIZE64 : BLOCK_SIZE32) #define DESC_BLOCK_SIZE (size_t)((pf->do_read64) ? DESC_BLOCK_SIZE64 : DESC_BLOCK_SIZE32) #define ITEM_COUNT_OFFSET (size_t)((pf->do_read64) ? ITEM_COUNT_OFFSET64 : ITEM_COUNT_OFFSET32) #define LEVEL_INDICATOR_OFFSET (size_t)((pf->do_read64) ? LEVEL_INDICATOR_OFFSET64 : LEVEL_INDICATOR_OFFSET32) #define BACKLINK_OFFSET (size_t)((pf->do_read64) ? BACKLINK_OFFSET64 : BACKLINK_OFFSET32) #define ITEM_SIZE (size_t)((pf->do_read64) ? ITEM_SIZE64 : ITEM_SIZE32) #define DESC_SIZE (size_t)((pf->do_read64) ? DESC_SIZE64 : DESC_SIZE32) #define INDEX_COUNT_MAX (int32_t)((pf->do_read64) ? INDEX_COUNT_MAX64 : INDEX_COUNT_MAX32) #define DESC_COUNT_MAX (int32_t)((pf->do_read64) ? DESC_COUNT_MAX64 : DESC_COUNT_MAX32) static size_t pst_decode_desc(pst_file *pf, pst_descn *desc, char *buf); static size_t pst_decode_desc(pst_file *pf, pst_descn *desc, char *buf) { size_t r; if (pf->do_read64) { DEBUG_INDEX(("Decoding desc64\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_descn), 0x10); memcpy(desc, buf, sizeof(pst_descn)); LE64_CPU(desc->d_id); LE64_CPU(desc->desc_id); LE64_CPU(desc->list_id); LE32_CPU(desc->parent_id); LE32_CPU(desc->u1); r = sizeof(pst_descn); } else { pst_desc32 d32; DEBUG_INDEX(("Decoding desc32\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_desc32), 0x10); memcpy(&d32, buf, sizeof(pst_desc32)); LE32_CPU(d32.d_id); LE32_CPU(d32.desc_id); LE32_CPU(d32.list_id); LE32_CPU(d32.parent_id); desc->d_id = d32.d_id; desc->desc_id = d32.desc_id; desc->list_id = d32.list_id; desc->parent_id = d32.parent_id; desc->u1 = 0; r = sizeof(pst_desc32); } return r; } static size_t pst_decode_table(pst_file *pf, struct pst_table_ptr_structn *table, char *buf); static size_t pst_decode_table(pst_file *pf, struct pst_table_ptr_structn *table, char *buf) { size_t r; if (pf->do_read64) { DEBUG_INDEX(("Decoding table64\n")); DEBUG_HEXDUMPC(buf, sizeof(struct pst_table_ptr_structn), 0x10); memcpy(table, buf, sizeof(struct pst_table_ptr_structn)); LE64_CPU(table->start); LE64_CPU(table->u1); LE64_CPU(table->offset); r =sizeof(struct pst_table_ptr_structn); } else { struct pst_table_ptr_struct32 t32; DEBUG_INDEX(("Decoding table32\n")); DEBUG_HEXDUMPC(buf, sizeof( struct pst_table_ptr_struct32), 0x10); memcpy(&t32, buf, sizeof(struct pst_table_ptr_struct32)); LE32_CPU(t32.start); LE32_CPU(t32.u1); LE32_CPU(t32.offset); table->start = t32.start; table->u1 = t32.u1; table->offset = t32.offset; r = sizeof(struct pst_table_ptr_struct32); } return r; } static size_t pst_decode_index(pst_file *pf, pst_index *index, char *buf); static size_t pst_decode_index(pst_file *pf, pst_index *index, char *buf) { size_t r; if (pf->do_read64) { DEBUG_INDEX(("Decoding index64\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_index), 0x10); memcpy(index, buf, sizeof(pst_index)); LE64_CPU(index->id); LE64_CPU(index->offset); LE16_CPU(index->size); LE16_CPU(index->u0); LE16_CPU(index->u1); r = sizeof(pst_index); } else { pst_index32 index32; DEBUG_INDEX(("Decoding index32\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_index32), 0x10); memcpy(&index32, buf, sizeof(pst_index32)); LE32_CPU(index32.id); LE32_CPU(index32.offset); LE16_CPU(index32.size); LE16_CPU(index32.u1); index->id = index32.id; index->offset = index32.offset; index->size = index32.size; index->u1 = index32.u1; r = sizeof(pst_index32); } return r; } static size_t pst_decode_assoc(pst_file *pf, pst_id2_assoc *assoc, char *buf); static size_t pst_decode_assoc(pst_file *pf, pst_id2_assoc *assoc, char *buf) { size_t r; if (pf->do_read64) { DEBUG_INDEX(("Decoding assoc64\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_id2_assoc), 0x10); memcpy(assoc, buf, sizeof(pst_id2_assoc)); LE32_CPU(assoc->id2); LE64_CPU(assoc->id); LE64_CPU(assoc->table2); r = sizeof(pst_id2_assoc); } else { pst_id2_assoc32 assoc32; DEBUG_INDEX(("Decoding assoc32\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_id2_assoc32), 0x10); memcpy(&assoc32, buf, sizeof(pst_id2_assoc32)); LE32_CPU(assoc32.id2); LE32_CPU(assoc32.id); LE32_CPU(assoc32.table2); assoc->id2 = assoc32.id2; assoc->id = assoc32.id; assoc->table2 = assoc32.table2; r = sizeof(pst_id2_assoc32); } return r; } static size_t pst_decode_type3(pst_file *pf, pst_table3_rec *table3_rec, char *buf); static size_t pst_decode_type3(pst_file *pf, pst_table3_rec *table3_rec, char *buf) { size_t r; if (pf->do_read64) { DEBUG_INDEX(("Decoding table3 64\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_table3_rec), 0x10); memcpy(table3_rec, buf, sizeof(pst_table3_rec)); LE64_CPU(table3_rec->id); r = sizeof(pst_table3_rec); } else { pst_table3_rec32 table3_rec32; DEBUG_INDEX(("Decoding table3 32\n")); DEBUG_HEXDUMPC(buf, sizeof(pst_table3_rec32), 0x10); memcpy(&table3_rec32, buf, sizeof(pst_table3_rec32)); LE32_CPU(table3_rec32.id); table3_rec->id = table3_rec32.id; r = sizeof(pst_table3_rec32); } return r; } int pst_build_id_ptr(pst_file *pf, off_t offset, int32_t depth, uint64_t linku1, uint64_t start_val, uint64_t end_val) { struct pst_table_ptr_structn table, table2; pst_index_ll *i_ptr=NULL; pst_index index; int32_t x, item_count; uint64_t old = start_val; char *buf = NULL, *bptr; DEBUG_ENT("pst_build_id_ptr"); DEBUG_INDEX(("offset %llx depth %i linku1 %llx start %llx end %llx\n", offset, depth, linku1, start_val, end_val)); if (end_val <= start_val) { DEBUG_WARN(("The end value is BEFORE the start value. This function will quit. Soz. [start:%#llx, end:%#llx]\n", start_val, end_val)); DEBUG_RET(); return -1; } DEBUG_INDEX(("Reading index block\n")); if (pst_read_block_size(pf, offset, BLOCK_SIZE, &buf, 0, 0) < BLOCK_SIZE) { DEBUG_WARN(("Failed to read %i bytes\n", BLOCK_SIZE)); if (buf) free(buf); DEBUG_RET(); return -1; } bptr = buf; DEBUG_HEXDUMPC(buf, BLOCK_SIZE, ITEM_SIZE32); item_count = (int32_t)(unsigned)(buf[ITEM_COUNT_OFFSET]); if (item_count > INDEX_COUNT_MAX) { DEBUG_WARN(("Item count %i too large, max is %i\n", item_count, INDEX_COUNT_MAX)); if (buf) free(buf); DEBUG_RET(); return -1; } index.id = pst_getIntAt(pf, buf+BACKLINK_OFFSET); if (index.id != linku1) { DEBUG_WARN(("Backlink %#llx in this node does not match required %#llx\n", index.id, linku1)); if (buf) free(buf); DEBUG_RET(); return -1; } if (buf[LEVEL_INDICATOR_OFFSET] == '\0') { // this node contains leaf pointers x = 0; while (x < item_count) { bptr += pst_decode_index(pf, &index, bptr); x++; if (index.id == 0) break; DEBUG_INDEX(("[%i]%i Item [id = %#llx, offset = %#llx, u1 = %#x, size = %i(%#x)]\n", depth, x, index.id, index.offset, index.u1, index.size, index.size)); // if (index.id & 0x02) DEBUG_INDEX(("two-bit set!!\n")); if ((index.id >= end_val) || (index.id < old)) { DEBUG_WARN(("This item isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } old = index.id; if (x == (int32_t)1) { // first entry if ((start_val) && (index.id != start_val)) { DEBUG_WARN(("This item isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } } i_ptr = (pst_index_ll*) xmalloc(sizeof(pst_index_ll)); i_ptr->id = index.id; i_ptr->offset = index.offset; i_ptr->u1 = index.u1; i_ptr->size = index.size; i_ptr->next = NULL; if (pf->i_tail) pf->i_tail->next = i_ptr; if (!pf->i_head) pf->i_head = i_ptr; pf->i_tail = i_ptr; } } else { // this node contains node pointers x = 0; while (x < item_count) { bptr += pst_decode_table(pf, &table, bptr); x++; if (table.start == 0) break; if (x < item_count) { (void)pst_decode_table(pf, &table2, bptr); } else { table2.start = end_val; } DEBUG_INDEX(("[%i] %i Index Table [start id = %#llx, u1 = %#llx, offset = %#llx, end id = %#llx]\n", depth, x, table.start, table.u1, table.offset, table2.start)); if ((table.start >= end_val) || (table.start < old)) { DEBUG_WARN(("This table isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } old = table.start; if (x == (int32_t)1) { // first entry if ((start_val) && (table.start != start_val)) { DEBUG_WARN(("This table isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } } (void)pst_build_id_ptr(pf, table.offset, depth+1, table.u1, table.start, table2.start); } } if (buf) free (buf); DEBUG_RET(); return 0; } /** this list node type is used for a quick cache of the descriptor tree nodes (rooted at pf->d_head) and for a "lost and found" list. If the parent isn't found yet, put it on the lost and found list and check it each time you read a new item. */ struct cache_list_node { pst_desc_ll *ptr; /** only used for lost and found lists */ uint64_t parent; struct cache_list_node *next; struct cache_list_node *prev; }; static struct cache_list_node *cache_head; static struct cache_list_node *cache_tail; static struct cache_list_node *lostfound_head; static int cache_count; /** add the d_ptr descriptor into the global tree */ static void record_descriptor(pst_file *pf, pst_desc_ll *d_ptr, uint64_t parent_id); static void record_descriptor(pst_file *pf, pst_desc_ll *d_ptr, uint64_t parent_id) { struct cache_list_node *lostfound_ptr = NULL; struct cache_list_node *cache_ptr = NULL; pst_desc_ll *parent = NULL; if (parent_id == 0 || parent_id == d_ptr->id) { // add top level node to the descriptor tree if (parent_id == 0) { DEBUG_INDEX(("No Parent\n")); } else { DEBUG_INDEX(("Record is its own parent. What is this world coming to?\n")); } if (pf->d_tail) pf->d_tail->next = d_ptr; if (!pf->d_head) pf->d_head = d_ptr; d_ptr->prev = pf->d_tail; pf->d_tail = d_ptr; } else { DEBUG_INDEX(("Searching for parent\n")); // check in the cache for the parent cache_ptr = cache_head; while (cache_ptr && (cache_ptr->ptr->id != parent_id)) { cache_ptr = cache_ptr->next; } if (!cache_ptr && (parent = pst_getDptr(pf, parent_id)) == NULL) { // check in the lost/found list lostfound_ptr = lostfound_head; while (lostfound_ptr && (lostfound_ptr->ptr->id != parent_id)) { lostfound_ptr = lostfound_ptr->next; } if (!lostfound_ptr) { DEBUG_WARN(("ERROR -- cannot find parent with id %#llx. Adding to lost/found\n", parent_id)); lostfound_ptr = (struct cache_list_node*) xmalloc(sizeof(struct cache_list_node)); lostfound_ptr->prev = NULL; lostfound_ptr->next = lostfound_head; lostfound_ptr->parent = parent_id; lostfound_ptr->ptr = d_ptr; lostfound_head = lostfound_ptr; } else { parent = lostfound_ptr->ptr; DEBUG_INDEX(("Found parent (%#llx) in Lost and Found\n", parent->id)); } } if (cache_ptr || parent) { if (cache_ptr) // parent is already in the cache parent = cache_ptr->ptr; else { //add the parent to the cache DEBUG_INDEX(("Cache addition\n")); cache_ptr = (struct cache_list_node*) xmalloc(sizeof(struct cache_list_node)); cache_ptr->prev = NULL; cache_ptr->next = cache_head; cache_ptr->ptr = parent; cache_head = cache_ptr; if (!cache_tail) cache_tail = cache_ptr; cache_count++; if (cache_count > 100) { DEBUG_INDEX(("trimming quick cache\n")); //remove one from the end cache_ptr = cache_tail; cache_tail = cache_ptr->prev; free (cache_ptr); cache_count--; } } DEBUG_INDEX(("Found a parent\n")); parent->no_child++; d_ptr->parent = parent; if (parent->child_tail) parent->child_tail->next = d_ptr; if (!parent->child) parent->child = d_ptr; d_ptr->prev = parent->child_tail; parent->child_tail = d_ptr; } } } int pst_build_desc_ptr (pst_file *pf, off_t offset, int32_t depth, uint64_t linku1, uint64_t *high_id, uint64_t start_val, uint64_t end_val) { struct pst_table_ptr_structn table, table2; pst_descn desc_rec; pst_desc_ll *d_ptr=NULL, *parent=NULL; int32_t x, item_count; uint64_t old = start_val; char *buf = NULL, *bptr; struct cache_list_node *cache_ptr = NULL; struct cache_list_node *lostfound_ptr = NULL; struct cache_list_node *lostfound_shd = NULL; struct cache_list_node *lostfound_tmp = NULL; if (depth == 0) { // initialize the linked list and lost/found list. cache_head = NULL; cache_tail = NULL; lostfound_head = NULL; cache_count = 0; } DEBUG_ENT("pst_build_desc_ptr"); DEBUG_INDEX(("offset %llx depth %i linku1 %llx start %llx end %llx\n", offset, depth, linku1, start_val, end_val)); if (end_val <= start_val) { DEBUG_WARN(("The end value is BEFORE the start value. This function will quit. Soz. [start:%#llx, end:%#llx]\n", start_val, end_val)); DEBUG_RET(); return -1; } DEBUG_INDEX(("Reading desc block\n")); if (pst_read_block_size(pf, offset, DESC_BLOCK_SIZE, &buf, 0, 0) < DESC_BLOCK_SIZE) { DEBUG_WARN(("Failed to read %i bytes\n", DESC_BLOCK_SIZE)); if (buf) free(buf); DEBUG_RET(); return -1; } bptr = buf; item_count = (int32_t)(unsigned)(buf[ITEM_COUNT_OFFSET]); desc_rec.d_id = pst_getIntAt(pf, buf+BACKLINK_OFFSET); if (desc_rec.d_id != linku1) { DEBUG_WARN(("Backlink %#llx in this node does not match required %#llx\n", desc_rec.d_id, linku1)); if (buf) free(buf); DEBUG_RET(); return -1; } if (buf[LEVEL_INDICATOR_OFFSET] == '\0') { // this node contains leaf pointers DEBUG_HEXDUMPC(buf, DESC_BLOCK_SIZE, DESC_SIZE32); if (item_count > DESC_COUNT_MAX) { DEBUG_WARN(("Item count %i too large, max is %i\n", item_count, DESC_COUNT_MAX)); if (buf) free(buf); DEBUG_RET(); return -1; } x = 0; while (x < item_count) { bptr += pst_decode_desc(pf, &desc_rec, bptr); x++; if (desc_rec.d_id == 0) break; DEBUG_INDEX(("[%i] Item(%#x) = [d_id = %#llx, desc_id = %#llx, list_id = %#llx, parent_id = %#x]\n", depth, x, desc_rec.d_id, desc_rec.desc_id, desc_rec.list_id, desc_rec.parent_id)); if ((desc_rec.d_id >= end_val) || (desc_rec.d_id < old)) { DEBUG_WARN(("This item isn't right. Must be corruption, or I got it wrong!\n")); DEBUG_HEXDUMPC(buf, DESC_BLOCK_SIZE, 16); if (buf) free(buf); DEBUG_RET(); return -1; } old = desc_rec.d_id; if (x == (int32_t)1) { // first entry if (start_val && (desc_rec.d_id != start_val)) { DEBUG_WARN(("This item isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } } // When duplicates found, just update the info.... perhaps this is correct functionality DEBUG_INDEX(("Searching for existing record\n")); if (desc_rec.d_id <= *high_id && (d_ptr = pst_getDptr(pf, desc_rec.d_id))) { DEBUG_INDEX(("Updating Existing Values\n")); d_ptr->list_index = pst_getID(pf, desc_rec.list_id); d_ptr->desc = pst_getID(pf, desc_rec.desc_id); DEBUG_INDEX(("\tdesc = %#llx\tlist_index=%#llx\n", (d_ptr->desc==NULL?0LL:d_ptr->desc->id), (d_ptr->list_index==NULL?0LL:d_ptr->list_index->id))); if (d_ptr->parent && desc_rec.parent_id != d_ptr->parent->id) { DEBUG_INDEX(("WARNING -- Parent of record has changed. Moving it\n")); //hmmm, we must move the record. // first we must remove from current location // change previous record to point next to our next // if no previous, then use parent's child // if no parent then change pf->d_head; // change next's prev to our prev // if no next then change parent's child_tail // if no parent then change pf->d_tail if (d_ptr->prev) d_ptr->prev->next = d_ptr->next; else if (d_ptr->parent) d_ptr->parent->child = d_ptr->next; else pf->d_head = d_ptr->next; if (d_ptr->next) d_ptr->next->prev = d_ptr->prev; else if (d_ptr->parent) d_ptr->parent->child_tail = d_ptr->prev; else pf->d_tail = d_ptr->prev; d_ptr->prev = NULL; d_ptr->next = NULL; d_ptr->parent = NULL; record_descriptor(pf, d_ptr, desc_rec.parent_id); // add to the global tree } } else { if (*high_id < desc_rec.d_id) { DEBUG_INDEX(("Updating New High\n")); *high_id = desc_rec.d_id; } DEBUG_INDEX(("New Record\n")); d_ptr = (pst_desc_ll*) xmalloc(sizeof(pst_desc_ll)); d_ptr->id = desc_rec.d_id; d_ptr->list_index = pst_getID(pf, desc_rec.list_id); d_ptr->desc = pst_getID(pf, desc_rec.desc_id); d_ptr->prev = NULL; d_ptr->next = NULL; d_ptr->parent = NULL; d_ptr->child = NULL; d_ptr->child_tail = NULL; d_ptr->no_child = 0; record_descriptor(pf, d_ptr, desc_rec.parent_id); // add to the global tree } // check here to see if d_ptr is the parent of any of the items in the lost / found list lostfound_ptr = lostfound_head; lostfound_shd = NULL; while (lostfound_ptr) { if (lostfound_ptr->parent == d_ptr->id) { DEBUG_INDEX(("Found a child (%#llx) of the current record. Joining to main structure.\n", lostfound_ptr->ptr->id)); parent = d_ptr; d_ptr = lostfound_ptr->ptr; parent->no_child++; d_ptr->parent = parent; if (parent->child_tail) parent->child_tail->next = d_ptr; if (!parent->child) parent->child = d_ptr; d_ptr->prev = parent->child_tail; parent->child_tail = d_ptr; if (!lostfound_shd) lostfound_head = lostfound_ptr->next; else lostfound_shd->next = lostfound_ptr->next; lostfound_tmp = lostfound_ptr->next; free(lostfound_ptr); lostfound_ptr = lostfound_tmp; } else { lostfound_shd = lostfound_ptr; lostfound_ptr = lostfound_ptr->next; } } } } else { // this node contains node pointers DEBUG_HEXDUMPC(buf, DESC_BLOCK_SIZE, ITEM_SIZE32); if (item_count > INDEX_COUNT_MAX) { DEBUG_WARN(("Item count %i too large, max is %i\n", item_count, INDEX_COUNT_MAX)); if (buf) free(buf); DEBUG_RET(); return -1; } x = 0; while (x < item_count) { bptr += pst_decode_table(pf, &table, bptr); x++; if (table.start == 0) break; if (x < item_count) { (void)pst_decode_table(pf, &table2, bptr); } else { table2.start = end_val; } DEBUG_INDEX(("[%i] %i Descriptor Table [start id = %#llx, u1 = %#llx, offset = %#llx, end id = %#llx]\n", depth, x, table.start, table.u1, table.offset, table2.start)); if ((table.start >= end_val) || (table.start < old)) { DEBUG_WARN(("This table isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } old = table.start; if (x == (int32_t)1) { // first entry if (start_val && (table.start != start_val)) { DEBUG_WARN(("This table isn't right. Must be corruption, or I got it wrong!\n")); if (buf) free(buf); DEBUG_RET(); return -1; } } (void)pst_build_desc_ptr(pf, table.offset, depth+1, table.u1, high_id, table.start, table2.start); } } if (depth == 0) { // free the quick cache while (cache_head) { cache_ptr = cache_head->next; free(cache_head); cache_head = cache_ptr; } // free the lost and found while (lostfound_head) { lostfound_ptr = lostfound_head->next; WARN(("unused lost/found item with parent %lld))", lostfound_head->parent)); free(lostfound_head); lostfound_head = lostfound_ptr; } } if (buf) free(buf); DEBUG_RET(); return 0; } pst_item* pst_parse_item(pst_file *pf, pst_desc_ll *d_ptr) { pst_num_array * list; pst_index2_ll *id2_head = NULL; pst_index_ll *id_ptr = NULL; pst_item *item = NULL; pst_item_attach *attach = NULL; int32_t x; DEBUG_ENT("pst_parse_item"); if (!d_ptr) { DEBUG_WARN(("you cannot pass me a NULL! I don't want it!\n")); DEBUG_RET(); return NULL; } if (!d_ptr->desc) { DEBUG_WARN(("why is d_ptr->desc == NULL? I don't want to do anything else with this record\n")); DEBUG_RET(); return NULL; } if (d_ptr->list_index) { id2_head = pst_build_id2(pf, d_ptr->list_index, NULL); (void)pst_printID2ptr(id2_head); } else { DEBUG_WARN(("Have not been able to fetch any id2 values for this item. Brace yourself!\n")); } list = pst_parse_block(pf, d_ptr->desc->id, id2_head, NULL); if (!list) { DEBUG_WARN(("pst_parse_block() returned an error for d_ptr->desc->id [%#llx]\n", d_ptr->desc->id)); if (id2_head) pst_free_id2(id2_head); DEBUG_RET(); return NULL; } item = (pst_item*) xmalloc(sizeof(pst_item)); memset(item, 0, sizeof(pst_item)); if (pst_process(list, item, NULL)) { DEBUG_WARN(("pst_process() returned non-zero value. That is an error\n")); if (item) pst_freeItem(item); if (list) pst_free_list(list); if (id2_head) pst_free_id2(id2_head); DEBUG_RET(); return NULL; } if (list) pst_free_list(list); list = NULL; //pst_process will free the items in the list if ((id_ptr = pst_getID2(id2_head, (uint64_t)0x671))) { // attachments exist - so we will process them while (item->attach) { attach = item->attach->next; free(item->attach); item->attach = attach; } DEBUG_EMAIL(("ATTACHMENT processing attachment\n")); if ((list = pst_parse_block(pf, id_ptr->id, id2_head, NULL)) == NULL) { DEBUG_WARN(("ERROR error processing main attachment record\n")); if (item) pst_freeItem(item); if (id2_head) pst_free_id2(id2_head); DEBUG_RET(); return NULL; } else { x = 0; while (x < list->count_array) { attach = (pst_item_attach*) xmalloc (sizeof(pst_item_attach)); memset (attach, 0, sizeof(pst_item_attach)); attach->next = item->attach; item->attach = attach; x++; } if (pst_process(list, item, item->attach)) { DEBUG_WARN(("ERROR pst_process() failed with attachments\n")); if (item) pst_freeItem(item); if (list) pst_free_list(list); if (id2_head) pst_free_id2(id2_head); DEBUG_RET(); return NULL; } if (list) pst_free_list(list); list = NULL; // now we will have initial information of each attachment stored in item->attach... // we must now read the secondary record for each based on the id2 val associated with // each attachment attach = item->attach; while (attach) { if ((id_ptr = pst_getID2(id2_head, attach->id2_val))) { // id_ptr is a record describing the attachment // we pass NULL instead of id2_head cause we don't want it to // load all the extra stuff here. if ((list = pst_parse_block(pf, id_ptr->id, NULL, NULL)) == NULL) { DEBUG_WARN(("ERROR error processing an attachment record\n")); attach = attach->next; continue; } if (pst_process(list, item, attach)) { DEBUG_WARN(("ERROR pst_process() failed with an attachment\n")); if (list) pst_free_list(list); list = NULL; attach = attach->next; continue; } if (list) pst_free_list(list); list = NULL; id_ptr = pst_getID2(id2_head, attach->id2_val); if (id_ptr) { // id2_val has been updated to the ID2 value of the datablock containing the // attachment data attach->id_val = id_ptr->id; } else { DEBUG_WARN(("have not located the correct value for the attachment [%#llx]\n", attach->id2_val)); } } else { DEBUG_WARN(("ERROR cannot locate id2 value %#llx\n", attach->id2_val)); } attach = attach->next; } } } if (id2_head) pst_free_id2(id2_head); DEBUG_RET(); return item; } static void freeall(unsigned char *buf, pst_block_offset_pointer *p1, pst_block_offset_pointer *p2, pst_block_offset_pointer *p3, pst_block_offset_pointer *p4, pst_block_offset_pointer *p5, pst_block_offset_pointer *p6, pst_block_offset_pointer *p7); static void freeall(unsigned char *buf, pst_block_offset_pointer *p1, pst_block_offset_pointer *p2, pst_block_offset_pointer *p3, pst_block_offset_pointer *p4, pst_block_offset_pointer *p5, pst_block_offset_pointer *p6, pst_block_offset_pointer *p7) { if (buf) free(buf); if (p1->needfree) free(p1->from); if (p2->needfree) free(p2->from); if (p3->needfree) free(p3->from); if (p4->needfree) free(p4->from); if (p5->needfree) free(p5->from); if (p6->needfree) free(p6->from); if (p7->needfree) free(p7->from); } pst_num_array * pst_parse_block(pst_file *pf, uint64_t block_id, pst_index2_ll *i2_head, pst_num_array *na_head) { unsigned char *buf = NULL; pst_num_array *na_ptr = NULL; pst_block_offset_pointer block_offset1; pst_block_offset_pointer block_offset2; pst_block_offset_pointer block_offset3; pst_block_offset_pointer block_offset4; pst_block_offset_pointer block_offset5; pst_block_offset_pointer block_offset6; pst_block_offset_pointer block_offset7; int32_t x; int num_recs; int count_rec; int32_t num_list; int32_t cur_list; int block_type; uint32_t rec_size = 0; uint32_t ind_ptr; unsigned char* list_start; unsigned char* fr_ptr; unsigned char* to_ptr; unsigned char* ind2_end = NULL; unsigned char* ind2_ptr = NULL; size_t read_size=0; pst_x_attrib_ll *mapptr; struct { uint16_t index_offset; uint16_t type; uint32_t offset; } block_hdr; struct { unsigned char seven_c; unsigned char item_count; uint16_t u1; uint16_t u2; uint16_t u3; uint16_t rec_size; uint32_t b_five_offset; uint32_t ind2_offset; uint16_t u7; uint16_t u8; } seven_c_blk; struct _type_d_rec { uint32_t id; uint32_t u1; } * type_d_rec; struct { uint16_t type; uint16_t ref_type; uint32_t value; } table_rec; //for type 1 (0xBCEC) blocks struct { uint16_t ref_type; uint16_t type; uint16_t ind2_off; uint8_t size; uint8_t slot; } table2_rec; //for type 2 (0x7CEC) blocks pst_table3_rec table3_rec; //for type 3 (0x0101) blocks DEBUG_ENT("pst_parse_block"); if ((read_size = pst_ff_getIDblock_dec(pf, block_id, &buf)) == 0) { WARN(("Error reading block id %#llx\n", block_id)); if (buf) free (buf); DEBUG_RET(); return NULL; } block_offset1.needfree = 0; block_offset2.needfree = 0; block_offset3.needfree = 0; block_offset4.needfree = 0; block_offset5.needfree = 0; block_offset6.needfree = 0; block_offset7.needfree = 0; memcpy(&block_hdr, buf, sizeof(block_hdr)); LE16_CPU(block_hdr.index_offset); LE16_CPU(block_hdr.type); LE32_CPU(block_hdr.offset); DEBUG_EMAIL(("block header (index_offset=%#hx, type=%#hx, offset=%#hx)\n", block_hdr.index_offset, block_hdr.type, block_hdr.offset)); ind_ptr = block_hdr.index_offset; if (block_hdr.type == (uint16_t)0xBCEC) { //type 1 block_type = 1; if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, block_hdr.offset, &block_offset1)) { DEBUG_WARN(("internal error (bc.b5 offset %#x) in reading block id %#x\n", block_hdr.offset, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } memcpy(&table_rec, block_offset1.from, sizeof(table_rec)); LE16_CPU(table_rec.type); LE16_CPU(table_rec.ref_type); LE32_CPU(table_rec.value); DEBUG_EMAIL(("table_rec (type=%#hx, ref_type=%#hx, value=%#x)\n", table_rec.type, table_rec.ref_type, table_rec.value)); if (table_rec.type != (uint16_t)0x02B5) { WARN(("Unknown second block constant - %#hx for id %#llx\n", table_rec.type, block_id)); DEBUG_HEXDUMPC(buf, sizeof(table_rec), 0x10); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, table_rec.value, &block_offset2)) { DEBUG_WARN(("internal error (bc.b5.desc offset) in reading block id %#x\n", table_rec.value, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } list_start = block_offset2.from; to_ptr = block_offset2.to; num_list = (to_ptr - list_start)/sizeof(table_rec); num_recs = 1; // only going to be one object in these blocks } else if (block_hdr.type == (uint16_t)0x7CEC) { //type 2 block_type = 2; if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, block_hdr.offset, &block_offset3)) { DEBUG_WARN(("internal error (7c.7c offset %#x) in reading block id %#x\n", block_hdr.offset, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } fr_ptr = block_offset3.from; //now got pointer to "7C block" memset(&seven_c_blk, 0, sizeof(seven_c_blk)); memcpy(&seven_c_blk, fr_ptr, sizeof(seven_c_blk)); LE16_CPU(seven_c_blk.u1); LE16_CPU(seven_c_blk.u2); LE16_CPU(seven_c_blk.u3); LE16_CPU(seven_c_blk.rec_size); LE32_CPU(seven_c_blk.b_five_offset); LE32_CPU(seven_c_blk.ind2_offset); LE16_CPU(seven_c_blk.u7); LE16_CPU(seven_c_blk.u8); list_start = fr_ptr + sizeof(seven_c_blk); // the list of item numbers start after this record if (seven_c_blk.seven_c != 0x7C) { // this would mean it isn't a 7C block! WARN(("Error. There isn't a 7C where I want to see 7C!\n")); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } rec_size = seven_c_blk.rec_size; num_list = (int32_t)(unsigned)seven_c_blk.item_count; if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, seven_c_blk.b_five_offset, &block_offset4)) { DEBUG_WARN(("internal error (7c.b5 offset %#x) in reading block id %#x\n", seven_c_blk.b_five_offset, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } memcpy(&table_rec, block_offset4.from, sizeof(table_rec)); LE16_CPU(table_rec.type); LE16_CPU(table_rec.ref_type); LE32_CPU(table_rec.value); if (table_rec.type != (uint16_t)0x04B5) { // different constant than a type 1 record WARN(("Unknown second block constant - %#hx for id %#llx\n", table_rec.type, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, table_rec.value, &block_offset5)) { DEBUG_WARN(("internal error (7c.5b.desc offset %#x) in reading block id %#llx\n", table_rec.value, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } num_recs = (block_offset5.to - block_offset5.from) / 6; // this will give the number of records in this block if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, seven_c_blk.ind2_offset, &block_offset6)) { DEBUG_WARN(("internal error (7c.ind2 offset %#x) in reading block id %#x\n", seven_c_blk.ind2_offset, block_id)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } ind2_ptr = block_offset6.from; ind2_end = block_offset6.to; } else if (block_hdr.index_offset == (uint16_t)0x0101) { //type 3 unsigned char *buf2 = NULL; uint16_t n = block_hdr.type; // count uint16_t i; block_type = 3; char *b_ptr = buf + 8; for (i=0; i<n; i++) { b_ptr += pst_decode_type3(pf, &table3_rec, b_ptr); //(void)pst_ff_getIDblock_dec(pf, table3_rec.id, &buf2); //if (buf2) free(buf2); //buf2 = NULL; na_head = pst_parse_block(pf, table3_rec.id, i2_head, na_head); // !! this is still not correct } freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return na_head; } else { WARN(("ERROR: Unknown block constant - %#hx for id %#llx\n", block_hdr.type, block_id)); DEBUG_HEXDUMPC(buf, read_size,0x10); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return NULL; } DEBUG_EMAIL(("Mallocing number of records %i\n", num_recs)); for (count_rec=0; count_rec<num_recs; count_rec++) { na_ptr = (pst_num_array*) xmalloc(sizeof(pst_num_array)); memset(na_ptr, 0, sizeof(pst_num_array)); na_ptr->next = na_head; na_head = na_ptr; // allocate an array of count num_recs to contain sizeof(struct pst_num_item) na_ptr->items = (struct pst_num_item**) xmalloc(sizeof(struct pst_num_item)*num_list); na_ptr->count_item = num_list; na_ptr->orig_count = num_list; na_ptr->count_array = (int32_t)num_recs; // each record will have a record of the total number of records for (x=0; x<num_list; x++) na_ptr->items[x] = NULL; x = 0; DEBUG_EMAIL(("going to read %i (%#x) items\n", na_ptr->count_item, na_ptr->count_item)); fr_ptr = list_start; // initialize fr_ptr to the start of the list. for (cur_list=0; cur_list<num_list; cur_list++) { //we will increase fr_ptr as we progress through index unsigned char* value_pointer = NULL; // needed for block type 2 with values larger than 4 bytes size_t value_size = 0; if (block_type == 1) { memcpy(&table_rec, fr_ptr, sizeof(table_rec)); LE16_CPU(table_rec.type); LE16_CPU(table_rec.ref_type); //LE32_CPU(table_rec.value); // done later, some may be order invariant fr_ptr += sizeof(table_rec); } else if (block_type == 2) { // we will copy the table2_rec values into a table_rec record so that we can keep the rest of the code memcpy(&table2_rec, fr_ptr, sizeof(table2_rec)); LE16_CPU(table2_rec.ref_type); LE16_CPU(table2_rec.type); LE16_CPU(table2_rec.ind2_off); // table_rec and table2_rec are arranged differently, so assign the values across table_rec.type = table2_rec.type; table_rec.ref_type = table2_rec.ref_type; table_rec.value = 0; if ((ind2_end - ind2_ptr) >= (table2_rec.ind2_off + table2_rec.size)) { size_t n = table2_rec.size; size_t m = sizeof(table_rec.value); if (n <= m) { memcpy(&table_rec.value, ind2_ptr + table2_rec.ind2_off, n); } else { value_pointer = ind2_ptr + table2_rec.ind2_off; value_size = n; } //LE32_CPU(table_rec.value); // done later, some may be order invariant } else { DEBUG_WARN (("Trying to read outside buffer, buffer size %#x, offset %#x, data size %#x\n", read_size, ind2_end-ind2_ptr+table2_rec.ind2_off, table2_rec.size)); } fr_ptr += sizeof(table2_rec); } else { WARN(("Missing code for block_type %i\n", block_type)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); if (na_head) pst_free_list(na_head); DEBUG_RET(); return NULL; } DEBUG_EMAIL(("reading block %i (type=%#x, ref_type=%#x, value=%#x)\n", x, table_rec.type, table_rec.ref_type, table_rec.value)); if (!na_ptr->items[x]) { na_ptr->items[x] = (struct pst_num_item*) xmalloc(sizeof(struct pst_num_item)); } memset(na_ptr->items[x], 0, sizeof(struct pst_num_item)); //init it // check here to see if the id of the attribute is a mapped one mapptr = pf->x_head; while (mapptr && (mapptr->map < table_rec.type)) mapptr = mapptr->next; if (mapptr && (mapptr->map == table_rec.type)) { if (mapptr->mytype == PST_MAP_ATTRIB) { na_ptr->items[x]->id = *((uint32_t*)mapptr->data); DEBUG_EMAIL(("Mapped attrib %#x to %#x\n", table_rec.type, na_ptr->items[x]->id)); } else if (mapptr->mytype == PST_MAP_HEADER) { DEBUG_EMAIL(("Internet Header mapping found %#x\n", table_rec.type)); na_ptr->items[x]->id = (uint32_t)PST_ATTRIB_HEADER; na_ptr->items[x]->extra = mapptr->data; } else { // nothing, should be assertion failure here } } else { na_ptr->items[x]->id = table_rec.type; } na_ptr->items[x]->type = 0; // checked later before it is set /* Reference Types 0x0002 - Signed 16bit value 0x0003 - Signed 32bit value 0x0004 - 4-byte floating point 0x0005 - Floating point double 0x0006 - Signed 64-bit int 0x0007 - Application Time 0x000A - 32-bit error value 0x000B - Boolean (non-zero = true) 0x000D - Embedded Object 0x0014 - 8-byte signed integer (64-bit) 0x001E - Null terminated String 0x001F - Unicode string 0x0040 - Systime - Filetime structure 0x0048 - OLE Guid 0x0102 - Binary data 0x1003 - Array of 32bit values 0x1014 - Array of 64bit values 0x101E - Array of Strings 0x1102 - Array of Binary data */ if (table_rec.ref_type == (uint16_t)0x0002 || table_rec.ref_type == (uint16_t)0x0003 || table_rec.ref_type == (uint16_t)0x000b) { //contains 32 bits of data na_ptr->items[x]->size = sizeof(int32_t); na_ptr->items[x]->type = table_rec.ref_type; na_ptr->items[x]->data = xmalloc(sizeof(int32_t)); memcpy(na_ptr->items[x]->data, &(table_rec.value), sizeof(int32_t)); } else if (table_rec.ref_type == (uint16_t)0x0005 || table_rec.ref_type == (uint16_t)0x000d || table_rec.ref_type == (uint16_t)0x0014 || table_rec.ref_type == (uint16_t)0x001e || table_rec.ref_type == (uint16_t)0x001f || table_rec.ref_type == (uint16_t)0x0040 || table_rec.ref_type == (uint16_t)0x0048 || table_rec.ref_type == (uint16_t)0x0102 || table_rec.ref_type == (uint16_t)0x1003 || table_rec.ref_type == (uint16_t)0x1014 || table_rec.ref_type == (uint16_t)0x101e || table_rec.ref_type == (uint16_t)0x1102) { //contains index reference to data LE32_CPU(table_rec.value); if (value_pointer) { // in a type 2 block, with a value that is more than 4 bytes // directly stored in this block. na_ptr->items[x]->size = value_size; na_ptr->items[x]->type = table_rec.ref_type; na_ptr->items[x]->data = xmalloc(value_size); memcpy(na_ptr->items[x]->data, value_pointer, value_size); } else if (pst_getBlockOffsetPointer(pf, i2_head, buf, read_size, ind_ptr, table_rec.value, &block_offset7)) { if ((table_rec.value & 0xf) == (uint32_t)0xf) { DEBUG_WARN(("failed to get block offset for table_rec.value of %#x to be read later.\n", table_rec.value)); na_ptr->items[x]->size = 0; na_ptr->items[x]->data = NULL; na_ptr->items[x]->type = table_rec.value; } else { if (table_rec.value) { DEBUG_WARN(("failed to get block offset for table_rec.value of %#x\n", table_rec.value)); } na_ptr->count_item --; //we will be skipping a row continue; } } else { value_size = block_offset7.to - block_offset7.from; na_ptr->items[x]->size = value_size; na_ptr->items[x]->type = table_rec.ref_type; na_ptr->items[x]->data = xmalloc(value_size+1); memcpy(na_ptr->items[x]->data, block_offset7.from, value_size); na_ptr->items[x]->data[value_size] = '\0'; // it might be a string, null terminate it. } if (table_rec.ref_type == (uint16_t)0xd) { // there is still more to do for the type of 0xD embedded objects type_d_rec = (struct _type_d_rec*) na_ptr->items[x]->data; LE32_CPU(type_d_rec->id); na_ptr->items[x]->size = pst_ff_getID2block(pf, type_d_rec->id, i2_head, &(na_ptr->items[x]->data)); if (!na_ptr->items[x]->size){ DEBUG_WARN(("not able to read the ID2 data. Setting to be read later. %#x\n", type_d_rec->id)); na_ptr->items[x]->type = type_d_rec->id; // fetch before freeing data, alias pointer free(na_ptr->items[x]->data); na_ptr->items[x]->data = NULL; } } if (table_rec.ref_type == (uint16_t)0x1f) { // there is more to do for the type 0x1f unicode strings static vbuf *strbuf = NULL; static vbuf *unibuf = NULL; if (!strbuf) strbuf=vballoc((size_t)1024); if (!unibuf) unibuf=vballoc((size_t)1024); // splint barfed on the following lines //VBUF_STATIC(strbuf, 1024); //VBUF_STATIC(unibuf, 1024); //need UTF-16 zero-termination vbset(strbuf, na_ptr->items[x]->data, na_ptr->items[x]->size); vbappend(strbuf, "\0\0", (size_t)2); DEBUG_INDEX(("Iconv in:\n")); DEBUG_HEXDUMPC(strbuf->b, strbuf->dlen, 0x10); (void)vb_utf16to8(unibuf, strbuf->b, strbuf->dlen); free(na_ptr->items[x]->data); na_ptr->items[x]->size = unibuf->dlen; na_ptr->items[x]->data = xmalloc(unibuf->dlen); memcpy(na_ptr->items[x]->data, unibuf->b, unibuf->dlen); DEBUG_INDEX(("Iconv out:\n")); DEBUG_HEXDUMPC(na_ptr->items[x]->data, na_ptr->items[x]->size, 0x10); } if (na_ptr->items[x]->type == 0) na_ptr->items[x]->type = table_rec.ref_type; } else { WARN(("ERROR Unknown ref_type %#hx\n", table_rec.ref_type)); freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); if (na_head) pst_free_list(na_head); DEBUG_RET(); return NULL; } x++; } DEBUG_EMAIL(("increasing ind2_ptr by %i [%#x] bytes. Was %#x, Now %#x\n", rec_size, rec_size, ind2_ptr, ind2_ptr+rec_size)); ind2_ptr += rec_size; } freeall(buf, &block_offset1, &block_offset2, &block_offset3, &block_offset4, &block_offset5, &block_offset6, &block_offset7); DEBUG_RET(); return na_head; } // This version of free does NULL check first #define SAFE_FREE(x) {if (x) free(x);} // check if item->email is NULL, and init if so #define MALLOC_EMAIL(x) { if (!x->email) { x->email = (pst_item_email*) xmalloc(sizeof(pst_item_email)); memset(x->email, 0, sizeof(pst_item_email) );} } #define MALLOC_FOLDER(x) { if (!x->folder) { x->folder = (pst_item_folder*) xmalloc(sizeof(pst_item_folder)); memset(x->folder, 0, sizeof(pst_item_folder) );} } #define MALLOC_CONTACT(x) { if (!x->contact) { x->contact = (pst_item_contact*) xmalloc(sizeof(pst_item_contact)); memset(x->contact, 0, sizeof(pst_item_contact) );} } #define MALLOC_MESSAGESTORE(x) { if (!x->message_store) { x->message_store = (pst_item_message_store*) xmalloc(sizeof(pst_item_message_store)); memset(x->message_store, 0, sizeof(pst_item_message_store));} } #define MALLOC_JOURNAL(x) { if (!x->journal) { x->journal = (pst_item_journal*) xmalloc(sizeof(pst_item_journal)); memset(x->journal, 0, sizeof(pst_item_journal) );} } #define MALLOC_APPOINTMENT(x) { if (!x->appointment) { x->appointment = (pst_item_appointment*) xmalloc(sizeof(pst_item_appointment)); memset(x->appointment, 0, sizeof(pst_item_appointment) );} } // malloc space and copy the current item's data null terminated #define LIST_COPY(targ, type) { \ targ = type realloc(targ, list->items[x]->size+1); \ memcpy(targ, list->items[x]->data, list->items[x]->size); \ memset(((char*)targ)+list->items[x]->size, 0, (size_t)1); \ } // malloc space and copy the current item's data and size #define LIST_COPY_SIZE(targ, type, mysize) { \ mysize = list->items[x]->size; \ if (mysize) { \ targ = type realloc(targ, mysize); \ memcpy(targ, list->items[x]->data, mysize); \ } \ else { \ SAFE_FREE(targ); \ targ = NULL; \ } \ } #define NULL_CHECK(x) { if (!x) { DEBUG_EMAIL(("NULL_CHECK: Null Found\n")); break;} } #define MOVE_NEXT(targ) { \ if (next){\ if (!targ) {\ DEBUG_EMAIL(("MOVE_NEXT: Target is NULL. Will stop processing this option\n"));\ break;\ }\ targ = targ->next;\ if (!targ) {\ DEBUG_EMAIL(("MOVE_NEXT: Target is NULL after next. Will stop processing this option\n"));\ break;\ }\ next=0;\ }\ } int pst_process(pst_num_array *list , pst_item *item, pst_item_attach *attach) { int32_t x, t; int next = 0; pst_item_extra_field *ef; DEBUG_ENT("pst_process"); if (!item) { DEBUG_EMAIL(("item cannot be NULL.\n")); DEBUG_RET(); return -1; } while (list) { x = 0; while (x < list->count_item) { // check here to see if the id is one that is mapped. DEBUG_EMAIL(("#%d - id: %#x type: %#x length: %#x\n", x, list->items[x]->id, list->items[x]->type, list->items[x]->size)); switch (list->items[x]->id) { case PST_ATTRIB_HEADER: // CUSTOM attribute for saying the Extra Headers DEBUG_EMAIL(("Extra Field - ")); ef = (pst_item_extra_field*) xmalloc(sizeof(pst_item_extra_field)); memset(ef, 0, sizeof(pst_item_extra_field)); ef->field_name = (char*) xmalloc(strlen(list->items[x]->extra)+1); strcpy(ef->field_name, list->items[x]->extra); LIST_COPY(ef->value, (char*)); ef->next = item->extra_fields; item->extra_fields = ef; DEBUG_EMAIL(("\"%s\" = \"%s\"\n", ef->field_name, ef->value)); break; case 0x0002: // PR_ALTERNATE_RECIPIENT_ALLOWED // If set to true, the sender allows this email to be autoforwarded DEBUG_EMAIL(("AutoForward allowed - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->autoforward = 1; } else { DEBUG_EMAIL(("False\n")); item->email->autoforward = -1; } break; case 0x0003: // Extended Attributes table DEBUG_EMAIL(("Extended Attributes Table - NOT PROCESSED\n")); break; case 0x0017: // PR_IMPORTANCE // How important the sender deems it to be // 0 - Low // 1 - Normal // 2 - High DEBUG_EMAIL(("Importance Level - ")); MALLOC_EMAIL(item); memcpy(&(item->email->importance), list->items[x]->data, sizeof(item->email->importance)); LE32_CPU(item->email->importance); t = item->email->importance; DEBUG_EMAIL(("%s [%i]\n", ((int)t==0?"Low":((int)t==1?"Normal":"High")), t)); break; case 0x001A: // PR_MESSAGE_CLASS Ascii type of messages - NOT FOLDERS // must be case insensitive DEBUG_EMAIL(("IPM.x - ")); LIST_COPY(item->ascii_type, (char*)); if (pst_strincmp("IPM.Note", item->ascii_type, 8) == 0) // the string begins with IPM.Note... item->type = PST_TYPE_NOTE; else if (pst_stricmp("IPM", item->ascii_type) == 0) // the whole string is just IPM item->type = PST_TYPE_NOTE; else if (pst_strincmp("IPM.Contact", item->ascii_type, 11) == 0) // the string begins with IPM.Contact... item->type = PST_TYPE_CONTACT; else if (pst_strincmp("REPORT.IPM.Note", item->ascii_type, 15) == 0) // the string begins with the above item->type = PST_TYPE_REPORT; else if (pst_strincmp("IPM.Activity", item->ascii_type, 12) == 0) item->type = PST_TYPE_JOURNAL; else if (pst_strincmp("IPM.Appointment", item->ascii_type, 15) == 0) item->type = PST_TYPE_APPOINTMENT; else item->type = PST_TYPE_OTHER; DEBUG_EMAIL(("%s\n", item->ascii_type)); break; case 0x0023: // PR_ORIGINATOR_DELIVERY_REPORT_REQUESTED // set if the sender wants a delivery report from all recipients DEBUG_EMAIL(("Global Delivery Report - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->delivery_report = 1; } else { DEBUG_EMAIL(("False\n")); item->email->delivery_report = 0; } break; case 0x0026: // PR_PRIORITY // Priority of a message // -1 NonUrgent // 0 Normal // 1 Urgent DEBUG_EMAIL(("Priority - ")); MALLOC_EMAIL(item); memcpy(&(item->email->priority), list->items[x]->data, sizeof(item->email->priority)); LE32_CPU(item->email->priority); t = item->email->priority; DEBUG_EMAIL(("%s [%i]\n", (t<0?"NonUrgent":(t==0?"Normal":"Urgent")), t)); break; case 0x0029:// PR_READ_RECEIPT_REQUESTED DEBUG_EMAIL(("Read Receipt - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->read_receipt = 1; } else { DEBUG_EMAIL(("False\n")); item->email->read_receipt = 0; } break; case 0x002B: // PR_RECIPIENT_REASSIGNMENT_PROHIBITED DEBUG_EMAIL(("Reassignment Prohibited (Private) - ")); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->private_member = 1; } else { DEBUG_EMAIL(("False\n")); item->private_member = 0; } break; case 0x002E: // PR_ORIGINAL_SENSITIVITY // the sensitivity of the message before being replied to or forwarded // 0 - None // 1 - Personal // 2 - Private // 3 - Company Confidential DEBUG_EMAIL(("Original Sensitivity - ")); MALLOC_EMAIL(item); memcpy(&(item->email->orig_sensitivity), list->items[x]->data, sizeof(item->email->orig_sensitivity)); LE32_CPU(item->email->orig_sensitivity); t = item->email->orig_sensitivity; DEBUG_EMAIL(("%s [%i]\n", ((int)t==0?"None":((int)t==1?"Personal": ((int)t==2?"Private":"Company Confidential"))), t)); break; case 0x0036: // PR_SENSITIVITY // sender's opinion of the sensitivity of an email // 0 - None // 1 - Personal // 2 - Private // 3 - Company Confidiential DEBUG_EMAIL(("Sensitivity - ")); MALLOC_EMAIL(item); memcpy(&(item->email->sensitivity), list->items[x]->data, sizeof(item->email->sensitivity)); LE32_CPU(item->email->sensitivity); t = item->email->sensitivity; DEBUG_EMAIL(("%s [%i]\n", ((int)t==0?"None":((int)t==1?"Personal": ((int)t==2?"Private":"Company Confidential"))), t)); break; case 0x0037: // PR_SUBJECT raw subject DEBUG_EMAIL(("Raw Subject - ")); MALLOC_EMAIL(item); item->email->subject = (pst_item_email_subject*) realloc(item->email->subject, sizeof(pst_item_email_subject)); memset(item->email->subject, 0, sizeof(pst_item_email_subject)); DEBUG_EMAIL((" [size = %i] ", list->items[x]->size)); if (list->items[x]->size > 0) { if (isprint(list->items[x]->data[0])) { // then there are no control bytes at the front item->email->subject->off1 = 0; item->email->subject->off2 = 0; item->email->subject->subj = realloc(item->email->subject->subj, list->items[x]->size+1); memset(item->email->subject->subj, 0, list->items[x]->size+1); memcpy(item->email->subject->subj, list->items[x]->data, list->items[x]->size); } else { DEBUG_EMAIL(("Raw Subject has control codes\n")); // there might be some control bytes in the first and second bytes item->email->subject->off1 = (int)(unsigned)list->items[x]->data[0]; item->email->subject->off2 = (int)(unsigned)list->items[x]->data[1]; item->email->subject->subj = realloc(item->email->subject->subj, list->items[x]->size-1); memset(item->email->subject->subj, 0, list->items[x]->size-1); memcpy(item->email->subject->subj, &(list->items[x]->data[2]), list->items[x]->size-2); } DEBUG_EMAIL(("%s\n", item->email->subject->subj)); } else { // obviously outlook has decided not to be straight with this one. item->email->subject->off1 = 0; item->email->subject->off2 = 0; item->email->subject = NULL; DEBUG_EMAIL(("NULL subject detected\n")); } break; case 0x0039: // PR_CLIENT_SUBMIT_TIME Date Email Sent/Created DEBUG_EMAIL(("Date sent - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sent_date, (FILETIME*)); LE32_CPU(item->email->sent_date->dwLowDateTime); LE32_CPU(item->email->sent_date->dwHighDateTime); DEBUG_EMAIL(("%s", fileTimeToAscii(item->email->sent_date))); break; case 0x003B: // PR_SENT_REPRESENTING_SEARCH_KEY Sender address 1 DEBUG_EMAIL(("Sent on behalf of address 1 - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->outlook_sender, (char*)); DEBUG_EMAIL(("%s\n", item->email->outlook_sender)); break; case 0x003F: // PR_RECEIVED_BY_ENTRYID Structure containing Recipient DEBUG_EMAIL(("Recipient Structure 1 -- NOT HANDLED\n")); break; case 0x0040: // PR_RECEIVED_BY_NAME Name of Recipient Structure DEBUG_EMAIL(("Received By Name 1 -- NOT HANDLED\n")); break; case 0x0041: // PR_SENT_REPRESENTING_ENTRYID Structure containing Sender DEBUG_EMAIL(("Sent on behalf of Structure 1 -- NOT HANDLED\n")); break; case 0x0042: // PR_SENT_REPRESENTING_NAME Name of Sender Structure DEBUG_EMAIL(("Sent on behalf of Structure Name - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->outlook_sender_name, (char*)); DEBUG_EMAIL(("%s\n", item->email->outlook_sender_name)); break; case 0x0043: // PR_RCVD_REPRESENTING_ENTRYID Recipient Structure 2 DEBUG_EMAIL(("Received on behalf of Structure -- NOT HANDLED\n")); break; case 0x0044: // PR_RCVD_REPRESENTING_NAME Name of Recipient Structure 2 DEBUG_EMAIL(("Received on behalf of Structure Name -- NOT HANDLED\n")); break; case 0x004F: // PR_REPLY_RECIPIENT_ENTRIES Reply-To Structure DEBUG_EMAIL(("Reply-To Structure -- NOT HANDLED\n")); break; case 0x0050: // PR_REPLY_RECIPIENT_NAMES Name of Reply-To Structure DEBUG_EMAIL(("Name of Reply-To Structure -")); MALLOC_EMAIL(item); LIST_COPY(item->email->reply_to, (char*)); DEBUG_EMAIL(("%s\n", item->email->reply_to)); break; case 0x0051: // PR_RECEIVED_BY_SEARCH_KEY Recipient Address 1 DEBUG_EMAIL(("Recipient's Address 1 (Search Key) - ")); MALLOC_EMAIL(item); LIST_COPY (item->email->outlook_recipient, (char*)); DEBUG_EMAIL(("%s\n", item->email->outlook_recipient)); break; case 0x0052: // PR_RCVD_REPRESENTING_SEARCH_KEY Recipient Address 2 DEBUG_EMAIL(("Received on behalf of Address (Search Key) - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->outlook_recipient2, (char*)); DEBUG_EMAIL(("%s\n", item->email->outlook_recipient2)); break; case 0x0057: // PR_MESSAGE_TO_ME // this user is listed explicitly in the TO address DEBUG_EMAIL(("My address in TO field - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->message_to_me = 1; } else { DEBUG_EMAIL(("False\n")); item->email->message_to_me = 0; } break; case 0x0058: // PR_MESSAGE_CC_ME // this user is listed explicitly in the CC address DEBUG_EMAIL(("My address in CC field - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->message_cc_me = 1; } else { DEBUG_EMAIL(("False\n")); item->email->message_cc_me = 0; } break; case 0x0059: //PR_MESSAGE_RECIP_ME // this user appears in TO, CC or BCC address list DEBUG_EMAIL(("Message addressed to me - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->message_recip_me = 1; } else { DEBUG_EMAIL(("False\n")); item->email->message_recip_me = 0; } break; case 0x0063: // PR_RESPONSE_REQUESTED DEBUG_EMAIL(("Response requested - ")); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->response_requested = 1; } else { DEBUG_EMAIL(("False\n")); item->response_requested = 0; } break; case 0x0064: // PR_SENT_REPRESENTING_ADDRTYPE Access method for Sender Address DEBUG_EMAIL(("Sent on behalf of address type - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sender_access, (char*)); DEBUG_EMAIL(("%s\n", item->email->sender_access)); break; case 0x0065: // PR_SENT_REPRESENTING_EMAIL_ADDRESS Sender Address DEBUG_EMAIL(("Sent on behalf of Address - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sender_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->sender_address)); break; case 0x0070: // PR_CONVERSATION_TOPIC Processed Subject DEBUG_EMAIL(("Processed Subject (Conversation Topic) - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->proc_subject, (char*)); DEBUG_EMAIL(("%s\n", item->email->proc_subject)); break; case 0x0071: // PR_CONVERSATION_INDEX Date 2 DEBUG_EMAIL(("Conversation Index - ")); MALLOC_EMAIL(item); memcpy(&(item->email->conv_index), list->items[x]->data, sizeof(item->email->conv_index)); DEBUG_EMAIL(("%i\n", item->email->conv_index)); break; case 0x0075: // PR_RECEIVED_BY_ADDRTYPE Recipient Access Method DEBUG_EMAIL(("Received by Address type - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->recip_access, (char*)); DEBUG_EMAIL(("%s\n", item->email->recip_access)); break; case 0x0076: // PR_RECEIVED_BY_EMAIL_ADDRESS Recipient Address DEBUG_EMAIL(("Received by Address - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->recip_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->recip_address)); break; case 0x0077: // PR_RCVD_REPRESENTING_ADDRTYPE Recipient Access Method 2 DEBUG_EMAIL(("Received on behalf of Address type - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->recip2_access, (char*)); DEBUG_EMAIL(("%s\n", item->email->recip2_access)); break; case 0x0078: // PR_RCVD_REPRESENTING_EMAIL_ADDRESS Recipient Address 2 DEBUG_EMAIL(("Received on behalf of Address -")); MALLOC_EMAIL(item); LIST_COPY(item->email->recip2_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->recip2_address)); break; case 0x007D: // PR_TRANSPORT_MESSAGE_HEADERS Internet Header DEBUG_EMAIL(("Internet Header - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->header, (char*)); DEBUG_EMAIL(("%s\n", item->email->header)); DEBUG_EMAIL(("NOT PRINTED\n")); break; case 0x0C17: // PR_REPLY_REQUESTED DEBUG_EMAIL(("Reply Requested - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->reply_requested = 1; } else { DEBUG_EMAIL(("False\n")); item->email->reply_requested = 0; } break; case 0x0C19: // PR_SENDER_ENTRYID Sender Structure 2 DEBUG_EMAIL(("Sender Structure 2 -- NOT HANDLED\n")); break; case 0x0C1A: // PR_SENDER_NAME Name of Sender Structure 2 DEBUG_EMAIL(("Name of Sender Structure 2 -- NOT HANDLED\n")); break; case 0x0C1D: // PR_SENDER_SEARCH_KEY Name of Sender Address 2 DEBUG_EMAIL(("Name of Sender Address 2 (Sender search key) - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->outlook_sender2, (char*)); DEBUG_EMAIL(("%s\n", item->email->outlook_sender2)); break; case 0x0C1E: // PR_SENDER_ADDRTYPE Sender Address 2 access method DEBUG_EMAIL(("Sender Address type - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sender2_access, (char*)); DEBUG_EMAIL(("%s\n", item->email->sender2_access)); break; case 0x0C1F: // PR_SENDER_EMAIL_ADDRESS Sender Address 2 DEBUG_EMAIL(("Sender Address - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sender2_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->sender2_address)); break; case 0x0E01: // PR_DELETE_AFTER_SUBMIT // I am not too sure how this works DEBUG_EMAIL(("Delete after submit - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->delete_after_submit = 1; } else { DEBUG_EMAIL(("False\n")); item->email->delete_after_submit = 0; } break; case 0x0E03: // PR_DISPLAY_CC CC Addresses DEBUG_EMAIL(("Display CC Addresses - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->cc_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->cc_address)); break; case 0x0E04: // PR_DISPLAY_TO Address Sent-To DEBUG_EMAIL(("Display Sent-To Address - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sentto_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->sentto_address)); break; case 0x0E06: // PR_MESSAGE_DELIVERY_TIME Date 3 - Email Arrival Date DEBUG_EMAIL(("Date 3 (Delivery Time) - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->arrival_date, (FILETIME*)); DEBUG_EMAIL(("%s", fileTimeToAscii(item->email->arrival_date))); break; case 0x0E07: // PR_MESSAGE_FLAGS Email Flag // 0x01 - Read // 0x02 - Unmodified // 0x04 - Submit // 0x08 - Unsent // 0x10 - Has Attachments // 0x20 - From Me // 0x40 - Associated // 0x80 - Resend // 0x100 - RN Pending // 0x200 - NRN Pending DEBUG_EMAIL(("Message Flags - ")); MALLOC_EMAIL(item); memcpy(&(item->email->flag), list->items[x]->data, sizeof(item->email->flag)); LE32_CPU(item->email->flag); DEBUG_EMAIL(("%i\n", item->email->flag)); break; case 0x0E08: // PR_MESSAGE_SIZE Total size of a message object DEBUG_EMAIL(("Message Size - ")); memcpy(&(item->message_size), list->items[x]->data, sizeof(item->message_size)); LE32_CPU(item->message_size); DEBUG_EMAIL(("%i [%#x]\n", item->message_size, item->message_size)); break; case 0x0E0A: // PR_SENTMAIL_ENTRYID // folder that this message is sent to after submission DEBUG_EMAIL(("Sentmail EntryID - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->sentmail_folder, (pst_entryid*)); LE32_CPU(item->email->sentmail_folder->id); DEBUG_EMAIL(("[id = %#x]\n", item->email->sentmail_folder->id)); break; case 0x0E1F: // PR_RTF_IN_SYNC // True means that the rtf version is same as text body // False means rtf version is more up-to-date than text body // if this value doesn't exist, text body is more up-to-date than rtf and // cannot update to the rtf DEBUG_EMAIL(("Compressed RTF in Sync - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->rtf_in_sync = 1; } else { DEBUG_EMAIL(("False\n")); item->email->rtf_in_sync = 0; } break; case 0x0E20: // PR_ATTACH_SIZE binary Attachment data in record DEBUG_EMAIL(("Attachment Size - ")); NULL_CHECK(attach); MOVE_NEXT(attach); memcpy(&(attach->size), list->items[x]->data, sizeof(attach->size)); DEBUG_EMAIL(("%i\n", attach->size)); break; case 0x0FF9: // PR_RECORD_KEY Record Header 1 DEBUG_EMAIL(("Record Key 1 - ")); LIST_COPY(item->record_key, (char*)); item->record_key_size = list->items[x]->size; DEBUG_EMAIL_HEXPRINT(item->record_key, item->record_key_size); DEBUG_EMAIL(("\n")); break; case 0x1000: // PR_BODY Plain Text body DEBUG_EMAIL(("Plain Text body - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->body, (char*)); //DEBUG_EMAIL("%s\n", item->email->body); DEBUG_EMAIL(("NOT PRINTED\n")); break; case 0x1006: // PR_RTF_SYNC_BODY_CRC DEBUG_EMAIL(("RTF Sync Body CRC - ")); MALLOC_EMAIL(item); memcpy(&(item->email->rtf_body_crc), list->items[x]->data, sizeof(item->email->rtf_body_crc)); LE32_CPU(item->email->rtf_body_crc); DEBUG_EMAIL(("%#x\n", item->email->rtf_body_crc)); break; case 0x1007: // PR_RTF_SYNC_BODY_COUNT // a count of the *significant* charcters in the rtf body. Doesn't count // whitespace and other ignorable characters DEBUG_EMAIL(("RTF Sync Body character count - ")); MALLOC_EMAIL(item); memcpy(&(item->email->rtf_body_char_count), list->items[x]->data, sizeof(item->email->rtf_body_char_count)); LE32_CPU(item->email->rtf_body_char_count); DEBUG_EMAIL(("%i [%#x]\n", item->email->rtf_body_char_count, item->email->rtf_body_char_count)); break; case 0x1008: // PR_RTF_SYNC_BODY_TAG // the first couple of lines of RTF body so that after modification, then beginning can // once again be found DEBUG_EMAIL(("RTF Sync body tag - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->rtf_body_tag, (char*)); DEBUG_EMAIL(("%s\n", item->email->rtf_body_tag)); break; case 0x1009: // PR_RTF_COMPRESSED // some compression algorithm has been applied to this. At present // it is unknown DEBUG_EMAIL(("RTF Compressed body - ")); MALLOC_EMAIL(item); LIST_COPY_SIZE(item->email->rtf_compressed, (char*), item->email->rtf_compressed_size); DEBUG_EMAIL(("NOT PRINTED\n")); break; case 0x1010: // PR_RTF_SYNC_PREFIX_COUNT // a count of the ignored characters before the first significant character DEBUG_EMAIL(("RTF whitespace prefix count - ")); MALLOC_EMAIL(item); memcpy(&(item->email->rtf_ws_prefix_count), list->items[x]->data, sizeof(item->email->rtf_ws_prefix_count)); DEBUG_EMAIL(("%i\n", item->email->rtf_ws_prefix_count)); break; case 0x1011: // PR_RTF_SYNC_TRAILING_COUNT // a count of the ignored characters after the last significant character DEBUG_EMAIL(("RTF whitespace tailing count - ")); MALLOC_EMAIL(item); memcpy(&(item->email->rtf_ws_trailing_count), list->items[x]->data, sizeof(item->email->rtf_ws_trailing_count)); DEBUG_EMAIL(("%i\n", item->email->rtf_ws_trailing_count)); break; case 0x1013: // HTML body DEBUG_EMAIL(("HTML body - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->htmlbody, (char*)); // DEBUG_EMAIL(("%s\n", item->email->htmlbody)); DEBUG_EMAIL(("NOT PRINTED\n")); break; case 0x1035: // Message ID DEBUG_EMAIL(("Message ID - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->messageid, (char*)); DEBUG_EMAIL(("%s\n", item->email->messageid)); break; case 0x1042: // in-reply-to DEBUG_EMAIL(("In-Reply-To - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->in_reply_to, (char*)); DEBUG_EMAIL(("%s\n", item->email->in_reply_to)); break; case 0x1046: // Return Path DEBUG_EMAIL(("Return Path - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->return_path_address, (char*)); DEBUG_EMAIL(("%s\n", item->email->return_path_address)); break; case 0x3001: // PR_DISPLAY_NAME File As DEBUG_EMAIL(("Display Name - ")); LIST_COPY(item->file_as, (char*)); DEBUG_EMAIL(("%s\n", item->file_as)); break; case 0x3002: // PR_ADDRTYPE DEBUG_EMAIL(("Address Type - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address1_transport, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address1_transport)); break; case 0x3003: // PR_EMAIL_ADDRESS // Contact's email address DEBUG_EMAIL(("Contact Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address1, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address1)); break; case 0x3004: // PR_COMMENT Comment for item - usually folders DEBUG_EMAIL(("Comment - ")); LIST_COPY(item->comment, (char*)); DEBUG_EMAIL(("%s\n", item->comment)); break; case 0x3007: // PR_CREATION_TIME Date 4 - Creation Date? DEBUG_EMAIL(("Date 4 (Item Creation Date) - ")); LIST_COPY(item->create_date, (FILETIME*)); DEBUG_EMAIL(("%s", fileTimeToAscii(item->create_date))); break; case 0x3008: // PR_LAST_MODIFICATION_TIME Date 5 - Modify Date DEBUG_EMAIL(("Date 5 (Modify Date) - ")); LIST_COPY(item->modify_date, (FILETIME*)); DEBUG_EMAIL(("%s", fileTimeToAscii(item->modify_date))); break; case 0x300B: // PR_SEARCH_KEY Record Header 2 DEBUG_EMAIL(("Record Search 2 -- NOT HANDLED\n")); break; case 0x35DF: // PR_VALID_FOLDER_MASK // States which folders are valid for this message store // FOLDER_IPM_SUBTREE_VALID 0x1 // FOLDER_IPM_INBOX_VALID 0x2 // FOLDER_IPM_OUTBOX_VALID 0x4 // FOLDER_IPM_WASTEBOX_VALID 0x8 // FOLDER_IPM_SENTMAIL_VALID 0x10 // FOLDER_VIEWS_VALID 0x20 // FOLDER_COMMON_VIEWS_VALID 0x40 // FOLDER_FINDER_VALID 0x80 DEBUG_EMAIL(("Valid Folder Mask - ")); MALLOC_MESSAGESTORE(item); memcpy(&(item->message_store->valid_mask), list->items[x]->data, sizeof(int)); LE32_CPU(item->message_store->valid_mask); DEBUG_EMAIL(("%i\n", item->message_store->valid_mask)); break; case 0x35E0: // PR_IPM_SUBTREE_ENTRYID Top of Personal Folder Record DEBUG_EMAIL(("Top of Personal Folder Record - ")); MALLOC_MESSAGESTORE(item); LIST_COPY(item->message_store->top_of_personal_folder, (pst_entryid*)); LE32_CPU(item->message_store->top_of_personal_folder->id); DEBUG_EMAIL(("[id = %#x]\n", item->message_store->top_of_personal_folder->id)); break; case 0x35E3: // PR_IPM_WASTEBASKET_ENTRYID Deleted Items Folder Record DEBUG_EMAIL(("Deleted Items Folder record - ")); MALLOC_MESSAGESTORE(item); LIST_COPY(item->message_store->deleted_items_folder, (pst_entryid*)); LE32_CPU(item->message_store->deleted_items_folder->id); DEBUG_EMAIL(("[id = %#x]\n", item->message_store->deleted_items_folder->id)); break; case 0x35E7: // PR_FINDER_ENTRYID Search Root Record DEBUG_EMAIL(("Search Root record - ")); MALLOC_MESSAGESTORE(item); LIST_COPY(item->message_store->search_root_folder, (pst_entryid*)); LE32_CPU(item->message_store->search_root_folder->id); DEBUG_EMAIL(("[id = %#x]\n", item->message_store->search_root_folder->id)); break; case 0x3602: // PR_CONTENT_COUNT Number of emails stored in a folder DEBUG_EMAIL(("Folder Email Count - ")); MALLOC_FOLDER(item); memcpy(&(item->folder->email_count), list->items[x]->data, sizeof(item->folder->email_count)); LE32_CPU(item->folder->email_count); DEBUG_EMAIL(("%i\n", item->folder->email_count)); break; case 0x3603: // PR_CONTENT_UNREAD Number of unread emails DEBUG_EMAIL(("Unread Email Count - ")); MALLOC_FOLDER(item); memcpy(&(item->folder->unseen_email_count), list->items[x]->data, sizeof(item->folder->unseen_email_count)); LE32_CPU(item->folder->unseen_email_count); DEBUG_EMAIL(("%i\n", item->folder->unseen_email_count)); break; case 0x360A: // PR_SUBFOLDERS Has children DEBUG_EMAIL(("Has Subfolders - ")); MALLOC_FOLDER(item); if (*(int32_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->folder->subfolder = 1; } else { DEBUG_EMAIL(("False\n")); item->folder->subfolder = 0; } break; case 0x3613: // PR_CONTAINER_CLASS IPF.x DEBUG_EMAIL(("IPF.x - ")); LIST_COPY(item->ascii_type, (char*)); if (strncmp("IPF.Note", item->ascii_type, 8) == 0) item->type = PST_TYPE_NOTE; else if (strncmp("IPF.Contact", item->ascii_type, 11) == 0) item->type = PST_TYPE_CONTACT; else if (strncmp("IPF.Journal", item->ascii_type, 11) == 0) item->type = PST_TYPE_JOURNAL; else if (strncmp("IPF.Appointment", item->ascii_type, 15) == 0) item->type = PST_TYPE_APPOINTMENT; else if (strncmp("IPF.StickyNote", item->ascii_type, 14) == 0) item->type = PST_TYPE_STICKYNOTE; else if (strncmp("IPF.Task", item->ascii_type, 8) == 0) item->type = PST_TYPE_TASK; else item->type = PST_TYPE_OTHER; DEBUG_EMAIL(("%s [%i]\n", item->ascii_type, item->type)); break; case 0x3617: // PR_ASSOC_CONTENT_COUNT // associated content are items that are attached to this folder // but are hidden from users DEBUG_EMAIL(("Associate Content count - ")); MALLOC_FOLDER(item); memcpy(&(item->folder->assoc_count), list->items[x]->data, sizeof(item->folder->assoc_count)); LE32_CPU(item->folder->assoc_count); DEBUG_EMAIL(("%i [%#x]\n", item->folder->assoc_count, item->folder->assoc_count)); break; case 0x3701: // PR_ATTACH_DATA_OBJ binary data of attachment DEBUG_EMAIL(("Binary Data [Size %i] - ", list->items[x]->size)); NULL_CHECK(attach); MOVE_NEXT(attach); if (!list->items[x]->data) { //special case attach->id2_val = list->items[x]->type; DEBUG_EMAIL(("Seen a Reference. The data hasn't been loaded yet. [%#llx][%#x]\n", attach->id2_val, list->items[x]->type)); } else { LIST_COPY(attach->data, (char*)); attach->size = list->items[x]->size; DEBUG_EMAIL(("NOT PRINTED\n")); } break; case 0x3704: // PR_ATTACH_FILENAME Attachment filename (8.3) DEBUG_EMAIL(("Attachment Filename - ")); NULL_CHECK(attach); MOVE_NEXT(attach); LIST_COPY(attach->filename1, (char*)); DEBUG_EMAIL(("%s\n", attach->filename1)); break; case 0x3705: // PR_ATTACH_METHOD // 0 - No Attachment // 1 - Attach by Value // 2 - Attach by reference // 3 - Attach by ref resolve // 4 - Attach by ref only // 5 - Embedded Message // 6 - OLE DEBUG_EMAIL(("Attachment method - ")); NULL_CHECK(attach); MOVE_NEXT(attach); memcpy(&(attach->method), list->items[x]->data, sizeof(attach->method)); LE32_CPU(attach->method); t = attach->method; DEBUG_EMAIL(("%s [%i]\n", (t==0?"No Attachment": (t==1?"Attach By Value": (t==2?"Attach By Reference": (t==3?"Attach by Ref. Resolve": (t==4?"Attach by Ref. Only": (t==5?"Embedded Message":"OLE")))))),t)); break; case 0x3707: // PR_ATTACH_LONG_FILENAME Attachment filename (long?) DEBUG_EMAIL(("Attachment Filename long - ")); NULL_CHECK(attach); MOVE_NEXT(attach); LIST_COPY(attach->filename2, (char*)); DEBUG_EMAIL(("%s\n", attach->filename2)); break; case 0x370B: // PR_RENDERING_POSITION // position in characters that the attachment appears in the plain text body DEBUG_EMAIL(("Attachment Position - ")); NULL_CHECK(attach); MOVE_NEXT(attach); memcpy(&(attach->position), list->items[x]->data, sizeof(attach->position)); LE32_CPU(attach->position); DEBUG_EMAIL(("%i [%#x]\n", attach->position)); break; case 0x370E: // PR_ATTACH_MIME_TAG Mime type of encoding DEBUG_EMAIL(("Attachment mime encoding - ")); NULL_CHECK(attach); MOVE_NEXT(attach); LIST_COPY(attach->mimetype, (char*)); DEBUG_EMAIL(("%s\n", attach->mimetype)); break; case 0x3710: // PR_ATTACH_MIME_SEQUENCE // sequence number for mime parts. Includes body DEBUG_EMAIL(("Attachment Mime Sequence - ")); NULL_CHECK(attach); MOVE_NEXT(attach); memcpy(&(attach->sequence), list->items[x]->data, sizeof(attach->sequence)); LE32_CPU(attach->sequence); DEBUG_EMAIL(("%i\n", attach->sequence)); break; case 0x3A00: // PR_ACCOUNT DEBUG_EMAIL(("Contact's Account name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->account_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->account_name)); break; case 0x3A01: // PR_ALTERNATE_RECIPIENT DEBUG_EMAIL(("Contact Alternate Recipient - NOT PROCESSED\n")); break; case 0x3A02: // PR_CALLBACK_TELEPHONE_NUMBER DEBUG_EMAIL(("Callback telephone number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->callback_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->callback_phone)); break; case 0x3A03: // PR_CONVERSION_PROHIBITED DEBUG_EMAIL(("Message Conversion Prohibited - ")); MALLOC_EMAIL(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->email->conversion_prohib = 1; } else { DEBUG_EMAIL(("False\n")); item->email->conversion_prohib = 0; } break; case 0x3A05: // PR_GENERATION suffix DEBUG_EMAIL(("Contacts Suffix - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->suffix, (char*)); DEBUG_EMAIL(("%s\n", item->contact->suffix)); break; case 0x3A06: // PR_GIVEN_NAME Contact's first name DEBUG_EMAIL(("Contacts First Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->first_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->first_name)); break; case 0x3A07: // PR_GOVERNMENT_ID_NUMBER DEBUG_EMAIL(("Contacts Government ID Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->gov_id, (char*)); DEBUG_EMAIL(("%s\n", item->contact->gov_id)); break; case 0x3A08: // PR_BUSINESS_TELEPHONE_NUMBER DEBUG_EMAIL(("Business Telephone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_phone)); break; case 0x3A09: // PR_HOME_TELEPHONE_NUMBER DEBUG_EMAIL(("Home Telephone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_phone)); break; case 0x3A0A: // PR_INITIALS Contact's Initials DEBUG_EMAIL(("Contacts Initials - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->initials, (char*)); DEBUG_EMAIL(("%s\n", item->contact->initials)); break; case 0x3A0B: // PR_KEYWORD DEBUG_EMAIL(("Keyword - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->keyword, (char*)); DEBUG_EMAIL(("%s\n", item->contact->keyword)); break; case 0x3A0C: // PR_LANGUAGE DEBUG_EMAIL(("Contact's Language - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->language, (char*)); DEBUG_EMAIL(("%s\n", item->contact->language)); break; case 0x3A0D: // PR_LOCATION DEBUG_EMAIL(("Contact's Location - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->location, (char*)); DEBUG_EMAIL(("%s\n", item->contact->location)); break; case 0x3A0E: // PR_MAIL_PERMISSION - Can the recipient receive and send email DEBUG_EMAIL(("Mail Permission - ")); MALLOC_CONTACT(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->contact->mail_permission = 1; } else { DEBUG_EMAIL(("False\n")); item->contact->mail_permission = 0; } break; case 0x3A0F: // PR_MHS_COMMON_NAME DEBUG_EMAIL(("MHS Common Name - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->common_name, (char*)); DEBUG_EMAIL(("%s\n", item->email->common_name)); break; case 0x3A10: // PR_ORGANIZATIONAL_ID_NUMBER DEBUG_EMAIL(("Organizational ID # - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->org_id, (char*)); DEBUG_EMAIL(("%s\n", item->contact->org_id)); break; case 0x3A11: // PR_SURNAME Contact's Surname DEBUG_EMAIL(("Contacts Surname - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->surname, (char*)); DEBUG_EMAIL(("%s\n", item->contact->surname)); break; case 0x3A12: // PR_ORIGINAL_ENTRY_ID DEBUG_EMAIL(("Original Entry ID - NOT PROCESSED\n")); break; case 0x3A13: // PR_ORIGINAL_DISPLAY_NAME DEBUG_EMAIL(("Original Display Name - NOT PROCESSED\n")); break; case 0x3A14: // PR_ORIGINAL_SEARCH_KEY DEBUG_EMAIL(("Original Search Key - NOT PROCESSED\n")); break; case 0x3A15: // PR_POSTAL_ADDRESS DEBUG_EMAIL(("Default Postal Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->def_postal_address, (char*)); DEBUG_EMAIL(("%s\n", item->contact->def_postal_address)); break; case 0x3A16: // PR_COMPANY_NAME DEBUG_EMAIL(("Company Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->company_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->company_name)); break; case 0x3A17: // PR_TITLE - Job Title DEBUG_EMAIL(("Job Title - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->job_title, (char*)); DEBUG_EMAIL(("%s\n", item->contact->job_title)); break; case 0x3A18: // PR_DEPARTMENT_NAME DEBUG_EMAIL(("Department Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->department, (char*)); DEBUG_EMAIL(("%s\n", item->contact->department)); break; case 0x3A19: // PR_OFFICE_LOCATION DEBUG_EMAIL(("Office Location - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->office_loc, (char*)); DEBUG_EMAIL(("%s\n", item->contact->office_loc)); break; case 0x3A1A: // PR_PRIMARY_TELEPHONE_NUMBER DEBUG_EMAIL(("Primary Telephone - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->primary_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->primary_phone)); break; case 0x3A1B: // PR_BUSINESS2_TELEPHONE_NUMBER DEBUG_EMAIL(("Business Phone Number 2 - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_phone2, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_phone2)); break; case 0x3A1C: // PR_MOBILE_TELEPHONE_NUMBER DEBUG_EMAIL(("Mobile Phone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->mobile_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->mobile_phone)); break; case 0x3A1D: // PR_RADIO_TELEPHONE_NUMBER DEBUG_EMAIL(("Radio Phone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->radio_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->radio_phone)); break; case 0x3A1E: // PR_CAR_TELEPHONE_NUMBER DEBUG_EMAIL(("Car Phone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->car_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->car_phone)); break; case 0x3A1F: // PR_OTHER_TELEPHONE_NUMBER DEBUG_EMAIL(("Other Phone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_phone)); break; case 0x3A20: // PR_TRANSMITTABLE_DISPLAY_NAME DEBUG_EMAIL(("Transmittable Display Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->transmittable_display_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->transmittable_display_name)); break; case 0x3A21: // PR_PAGER_TELEPHONE_NUMBER DEBUG_EMAIL(("Pager Phone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->pager_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->pager_phone)); break; case 0x3A22: // PR_USER_CERTIFICATE DEBUG_EMAIL(("User Certificate - NOT PROCESSED")); break; case 0x3A23: // PR_PRIMARY_FAX_NUMBER DEBUG_EMAIL(("Primary Fax Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->primary_fax, (char*)); DEBUG_EMAIL(("%s\n", item->contact->primary_fax)); break; case 0x3A24: // PR_BUSINESS_FAX_NUMBER DEBUG_EMAIL(("Business Fax Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_fax, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_fax)); break; case 0x3A25: // PR_HOME_FAX_NUMBER DEBUG_EMAIL(("Home Fax Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_fax, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_fax)); break; case 0x3A26: // PR_BUSINESS_ADDRESS_COUNTRY DEBUG_EMAIL(("Business Address Country - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_country, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_country)); break; case 0x3A27: // PR_BUSINESS_ADDRESS_CITY DEBUG_EMAIL(("Business Address City - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_city, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_city)); break; case 0x3A28: // PR_BUSINESS_ADDRESS_STATE_OR_PROVINCE DEBUG_EMAIL(("Business Address State - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_state, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_state)); break; case 0x3A29: // PR_BUSINESS_ADDRESS_STREET DEBUG_EMAIL(("Business Address Street - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_street, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_street)); break; case 0x3A2A: // PR_BUSINESS_POSTAL_CODE DEBUG_EMAIL(("Business Postal Code - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_postal_code, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_postal_code)); break; case 0x3A2B: // PR_BUSINESS_PO_BOX DEBUG_EMAIL(("Business PO Box - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_po_box, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_po_box)); break; case 0x3A2C: // PR_TELEX_NUMBER DEBUG_EMAIL(("Telex Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->telex, (char*)); DEBUG_EMAIL(("%s\n", item->contact->telex)); break; case 0x3A2D: // PR_ISDN_NUMBER DEBUG_EMAIL(("ISDN Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->isdn_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->isdn_phone)); break; case 0x3A2E: // PR_ASSISTANT_TELEPHONE_NUMBER DEBUG_EMAIL(("Assistant Phone Number - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->assistant_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->assistant_phone)); break; case 0x3A2F: // PR_HOME2_TELEPHONE_NUMBER DEBUG_EMAIL(("Home Phone 2 - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_phone2, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_phone2)); break; case 0x3A30: // PR_ASSISTANT DEBUG_EMAIL(("Assistant's Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->assistant_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->assistant_name)); break; case 0x3A40: // PR_SEND_RICH_INFO DEBUG_EMAIL(("Can receive Rich Text - ")); MALLOC_CONTACT(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->contact->rich_text = 1; } else { DEBUG_EMAIL(("False\n")); item->contact->rich_text = 0; } break; case 0x3A41: // PR_WEDDING_ANNIVERSARY DEBUG_EMAIL(("Wedding Anniversary - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->wedding_anniversary, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii(item->contact->wedding_anniversary))); break; case 0x3A42: // PR_BIRTHDAY DEBUG_EMAIL(("Birthday - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->birthday, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii(item->contact->birthday))); break; case 0x3A43: // PR_HOBBIES DEBUG_EMAIL(("Hobbies - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->hobbies, (char*)); DEBUG_EMAIL(("%s\n", item->contact->hobbies)); break; case 0x3A44: // PR_MIDDLE_NAME DEBUG_EMAIL(("Middle Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->middle_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->middle_name)); break; case 0x3A45: // PR_DISPLAY_NAME_PREFIX DEBUG_EMAIL(("Display Name Prefix (Title) - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->display_name_prefix, (char*)); DEBUG_EMAIL(("%s\n", item->contact->display_name_prefix)); break; case 0x3A46: // PR_PROFESSION DEBUG_EMAIL(("Profession - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->profession, (char*)); DEBUG_EMAIL(("%s\n", item->contact->profession)); break; case 0x3A47: // PR_PREFERRED_BY_NAME DEBUG_EMAIL(("Preferred By Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->pref_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->pref_name)); break; case 0x3A48: // PR_SPOUSE_NAME DEBUG_EMAIL(("Spouse's Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->spouse_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->spouse_name)); break; case 0x3A49: // PR_COMPUTER_NETWORK_NAME DEBUG_EMAIL(("Computer Network Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->computer_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->computer_name)); break; case 0x3A4A: // PR_CUSTOMER_ID DEBUG_EMAIL(("Customer ID - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->customer_id, (char*)); DEBUG_EMAIL(("%s\n", item->contact->customer_id)); break; case 0x3A4B: // PR_TTYTDD_PHONE_NUMBER DEBUG_EMAIL(("TTY/TDD Phone - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->ttytdd_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->ttytdd_phone)); break; case 0x3A4C: // PR_FTP_SITE DEBUG_EMAIL(("Ftp Site - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->ftp_site, (char*)); DEBUG_EMAIL(("%s\n", item->contact->ftp_site)); break; case 0x3A4D: // PR_GENDER DEBUG_EMAIL(("Gender - ")); MALLOC_CONTACT(item); memcpy(&item->contact->gender, list->items[x]->data, sizeof(int16_t)); LE16_CPU(item->contact->gender); switch(item->contact->gender) { case 0: DEBUG_EMAIL(("Unspecified\n")); break; case 1: DEBUG_EMAIL(("Female\n")); break; case 2: DEBUG_EMAIL(("Male\n")); break; default: DEBUG_EMAIL(("Error processing\n")); } break; case 0x3A4E: // PR_MANAGER_NAME DEBUG_EMAIL(("Manager's Name - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->manager_name, (char*)); DEBUG_EMAIL(("%s\n", item->contact->manager_name)); break; case 0x3A4F: // PR_NICKNAME DEBUG_EMAIL(("Nickname - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->nickname, (char*)); DEBUG_EMAIL(("%s\n", item->contact->nickname)); break; case 0x3A50: // PR_PERSONAL_HOME_PAGE DEBUG_EMAIL(("Personal Home Page - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->personal_homepage, (char*)); DEBUG_EMAIL(("%s\n", item->contact->personal_homepage)); break; case 0x3A51: // PR_BUSINESS_HOME_PAGE DEBUG_EMAIL(("Business Home Page - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_homepage, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_homepage)); break; case 0x3A57: // PR_COMPANY_MAIN_PHONE_NUMBER DEBUG_EMAIL(("Company Main Phone - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->company_main_phone, (char*)); DEBUG_EMAIL(("%s\n", item->contact->company_main_phone)); break; case 0x3A58: // PR_CHILDRENS_NAMES DEBUG_EMAIL(("Children's Names - NOT PROCESSED\n")); break; case 0x3A59: // PR_HOME_ADDRESS_CITY DEBUG_EMAIL(("Home Address City - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_city, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_city)); break; case 0x3A5A: // PR_HOME_ADDRESS_COUNTRY DEBUG_EMAIL(("Home Address Country - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_country, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_country)); break; case 0x3A5B: // PR_HOME_ADDRESS_POSTAL_CODE DEBUG_EMAIL(("Home Address Postal Code - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_postal_code, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_postal_code)); break; case 0x3A5C: // PR_HOME_ADDRESS_STATE_OR_PROVINCE DEBUG_EMAIL(("Home Address State or Province - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_state, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_state)); break; case 0x3A5D: // PR_HOME_ADDRESS_STREET DEBUG_EMAIL(("Home Address Street - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_street, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_street)); break; case 0x3A5E: // PR_HOME_ADDRESS_POST_OFFICE_BOX DEBUG_EMAIL(("Home Address Post Office Box - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_po_box, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_po_box)); break; case 0x3A5F: // PR_OTHER_ADDRESS_CITY DEBUG_EMAIL(("Other Address City - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_city, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_city)); break; case 0x3A60: // PR_OTHER_ADDRESS_COUNTRY DEBUG_EMAIL(("Other Address Country - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_country, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_country)); break; case 0x3A61: // PR_OTHER_ADDRESS_POSTAL_CODE DEBUG_EMAIL(("Other Address Postal Code - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_postal_code, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_postal_code)); break; case 0x3A62: // PR_OTHER_ADDRESS_STATE_OR_PROVINCE DEBUG_EMAIL(("Other Address State - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_state, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_state)); break; case 0x3A63: // PR_OTHER_ADDRESS_STREET DEBUG_EMAIL(("Other Address Street - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_street, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_street)); break; case 0x3A64: // PR_OTHER_ADDRESS_POST_OFFICE_BOX DEBUG_EMAIL(("Other Address Post Office box - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_po_box, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_po_box)); break; case 0x65E3: // Entry ID? DEBUG_EMAIL(("Entry ID - ")); item->record_key = (char*) xmalloc(16+1); memcpy(item->record_key, &(list->items[x]->data[1]), 16); //skip first byte item->record_key[16]='\0'; item->record_key_size=16; DEBUG_EMAIL_HEXPRINT((char*)item->record_key, 16); break; case 0x67F2: // ID2 value of the attachments proper record DEBUG_EMAIL(("Attachment ID2 value - ")); if (attach) { uint32_t tempid; MOVE_NEXT(attach); memcpy(&(tempid), list->items[x]->data, sizeof(tempid)); LE32_CPU(tempid); attach->id2_val = tempid; DEBUG_EMAIL(("%#llx\n", attach->id2_val)); } else { DEBUG_EMAIL(("NOT AN ATTACHMENT: %#x\n", list->items[x]->id)); } break; case 0x67FF: // Extra Property Identifier (Password CheckSum) DEBUG_EMAIL(("Password checksum [0x67FF] - ")); MALLOC_MESSAGESTORE(item); memcpy(&(item->message_store->pwd_chksum), list->items[x]->data, sizeof(item->message_store->pwd_chksum)); DEBUG_EMAIL(("%#x\n", item->message_store->pwd_chksum)); break; case 0x6F02: // Secure HTML Body DEBUG_EMAIL(("Secure HTML Body - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->encrypted_htmlbody, (char*)); item->email->encrypted_htmlbody_size = list->items[x]->size; DEBUG_EMAIL(("Not Printed\n")); break; case 0x6F04: // Secure Text Body DEBUG_EMAIL(("Secure Text Body - ")); MALLOC_EMAIL(item); LIST_COPY(item->email->encrypted_body, (char*)); item->email->encrypted_body_size = list->items[x]->size; DEBUG_EMAIL(("Not Printed\n")); break; case 0x7C07: // top of folders ENTRYID DEBUG_EMAIL(("Top of folders RecID [0x7c07] - ")); MALLOC_MESSAGESTORE(item); item->message_store->top_of_folder = (pst_entryid*) xmalloc(sizeof(pst_entryid)); memcpy(item->message_store->top_of_folder, list->items[x]->data, sizeof(pst_entryid)); LE32_CPU(item->message_store->top_of_folder->u1); LE32_CPU(item->message_store->top_of_folder->id); DEBUG_EMAIL_HEXPRINT((char*)item->message_store->top_of_folder->entryid, 16); break; case 0x8005: // Contact's Fullname DEBUG_EMAIL(("Contact Fullname - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->fullname, (char*)); DEBUG_EMAIL(("%s\n", item->contact->fullname)); break; case 0x801A: // Full Home Address DEBUG_EMAIL(("Home Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->home_address, (char*)); DEBUG_EMAIL(("%s\n", item->contact->home_address)); break; case 0x801B: // Full Business Address DEBUG_EMAIL(("Business Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->business_address, (char*)); DEBUG_EMAIL(("%s\n", item->contact->business_address)); break; case 0x801C: // Full Other Address DEBUG_EMAIL(("Other Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->other_address, (char*)); DEBUG_EMAIL(("%s\n", item->contact->other_address)); break; case 0x8082: // Email Address 1 Transport DEBUG_EMAIL(("Email Address 1 Transport - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address1_transport, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address1_transport)); break; case 0x8083: // Email Address 1 Address DEBUG_EMAIL(("Email Address 1 Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address1, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address1)); break; case 0x8084: // Email Address 1 Description DEBUG_EMAIL(("Email Address 1 Description - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address1_desc, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address1_desc)); break; case 0x8085: // Email Address 1 Record DEBUG_EMAIL(("Email Address 1 Record - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address1a, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address1a)); break; case 0x8092: // Email Address 2 Transport DEBUG_EMAIL(("Email Address 2 Transport - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address2_transport, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address2_transport)); break; case 0x8093: // Email Address 2 Address DEBUG_EMAIL(("Email Address 2 Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address2, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address2)); break; case 0x8094: // Email Address 2 Description DEBUG_EMAIL (("Email Address 2 Description - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address2_desc, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address2_desc)); break; case 0x8095: // Email Address 2 Record DEBUG_EMAIL(("Email Address 2 Record - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address2a, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address2a)); break; case 0x80A2: // Email Address 3 Transport DEBUG_EMAIL (("Email Address 3 Transport - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address3_transport, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address3_transport)); break; case 0x80A3: // Email Address 3 Address DEBUG_EMAIL(("Email Address 3 Address - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address3, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address3)); break; case 0x80A4: // Email Address 3 Description DEBUG_EMAIL(("Email Address 3 Description - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address3_desc, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address3_desc)); break; case 0x80A5: // Email Address 3 Record DEBUG_EMAIL(("Email Address 3 Record - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->address3a, (char*)); DEBUG_EMAIL(("|%s|\n", item->contact->address3a)); break; case 0x80D8: // Internet Free/Busy DEBUG_EMAIL(("Internet Free/Busy - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->free_busy_address, (char*)); DEBUG_EMAIL(("%s\n", item->contact->free_busy_address)); break; case 0x8205: // Show on Free/Busy as // 0: Free // 1: Tentative // 2: Busy // 3: Out Of Office DEBUG_EMAIL(("Appointment shows as - ")); MALLOC_APPOINTMENT(item); memcpy(&(item->appointment->showas), list->items[x]->data, sizeof(item->appointment->showas)); LE32_CPU(item->appointment->showas); switch (item->appointment->showas) { case PST_FREEBUSY_FREE: DEBUG_EMAIL(("Free\n")); break; case PST_FREEBUSY_TENTATIVE: DEBUG_EMAIL(("Tentative\n")); break; case PST_FREEBUSY_BUSY: DEBUG_EMAIL(("Busy\n")); break; case PST_FREEBUSY_OUT_OF_OFFICE: DEBUG_EMAIL(("Out Of Office\n")); break; default: DEBUG_EMAIL(("Unknown Value: %d\n", item->appointment->showas)); break; } break; case 0x8208: // Location of an appointment DEBUG_EMAIL(("Appointment Location - ")); MALLOC_APPOINTMENT(item); LIST_COPY(item->appointment->location, (char*)); DEBUG_EMAIL(("%s\n", item->appointment->location)); break; case 0x8214: // Label for an appointment DEBUG_EMAIL(("Label for appointment - ")); MALLOC_APPOINTMENT(item); memcpy(&(item->appointment->label), list->items[x]->data, sizeof(item->appointment->label)); LE32_CPU(item->appointment->label); switch (item->appointment->label) { case PST_APP_LABEL_NONE: DEBUG_EMAIL(("None\n")); break; case PST_APP_LABEL_IMPORTANT: DEBUG_EMAIL(("Important\n")); break; case PST_APP_LABEL_BUSINESS: DEBUG_EMAIL(("Business\n")); break; case PST_APP_LABEL_PERSONAL: DEBUG_EMAIL(("Personal\n")); break; case PST_APP_LABEL_VACATION: DEBUG_EMAIL(("Vacation\n")); break; case PST_APP_LABEL_MUST_ATTEND: DEBUG_EMAIL(("Must Attend\n")); break; case PST_APP_LABEL_TRAVEL_REQ: DEBUG_EMAIL(("Travel Required\n")); break; case PST_APP_LABEL_NEEDS_PREP: DEBUG_EMAIL(("Needs Preparation\n")); break; case PST_APP_LABEL_BIRTHDAY: DEBUG_EMAIL(("Birthday\n")); break; case PST_APP_LABEL_ANNIVERSARY: DEBUG_EMAIL(("Anniversary\n")); break; case PST_APP_LABEL_PHONE_CALL: DEBUG_EMAIL(("Phone Call\n")); break; } break; case 0x8215: // All day appointment flag DEBUG_EMAIL(("All day flag - ")); MALLOC_APPOINTMENT(item); if (*(int16_t*)list->items[x]->data != 0) { DEBUG_EMAIL(("True\n")); item->appointment->all_day = 1; } else { DEBUG_EMAIL(("False\n")); item->appointment->all_day = 0; } break; case 0x8234: // TimeZone as String DEBUG_EMAIL(("TimeZone of times - ")); MALLOC_APPOINTMENT(item); LIST_COPY(item->appointment->timezonestring, (char*)); DEBUG_EMAIL(("%s\n", item->appointment->timezonestring)); break; case 0x8235: // Appointment start time DEBUG_EMAIL(("Appointment Start Time - ")); MALLOC_APPOINTMENT(item); LIST_COPY(item->appointment->start, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii((FILETIME*)item->appointment->start))); break; case 0x8236: // Appointment end time DEBUG_EMAIL(("Appointment End Time - ")); MALLOC_APPOINTMENT(item); LIST_COPY(item->appointment->end, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii((FILETIME*)item->appointment->start))); break; case 0x8516: // Journal time start DEBUG_EMAIL(("Duplicate Time Start - ")); DEBUG_EMAIL(("%s\n", fileTimeToAscii((FILETIME*)list->items[x]->data))); break; case 0x8517: // Journal time end DEBUG_EMAIL(("Duplicate Time End - ")); DEBUG_EMAIL(("%s\n", fileTimeToAscii((FILETIME*)list->items[x]->data))); break; case 0x8530: // Followup DEBUG_EMAIL(("Followup String - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->followup, (char*)); DEBUG_EMAIL(("%s\n", item->contact->followup)); break; case 0x8534: // Mileage DEBUG_EMAIL(("Mileage - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->mileage, (char*)); DEBUG_EMAIL(("%s\n", item->contact->mileage)); break; case 0x8535: // Billing Information DEBUG_EMAIL(("Billing Information - ")); MALLOC_CONTACT(item); LIST_COPY(item->contact->billing_information, (char*)); DEBUG_EMAIL(("%s\n", item->contact->billing_information)); break; case 0x8554: // Outlook Version DEBUG_EMAIL(("Outlook Version - ")); LIST_COPY(item->outlook_version, (char*)); DEBUG_EMAIL(("%s\n", item->outlook_version)); break; case 0x8560: // Appointment Reminder Time DEBUG_EMAIL(("Appointment Reminder Time - ")); MALLOC_APPOINTMENT(item); LIST_COPY(item->appointment->reminder, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii(item->appointment->reminder))); break; case 0x8700: // Journal Type DEBUG_EMAIL(("Journal Entry Type - ")); MALLOC_JOURNAL(item); LIST_COPY(item->journal->type, (char*)); DEBUG_EMAIL(("%s\n", item->journal->type)); break; case 0x8706: // Journal Start date/time DEBUG_EMAIL(("Start Timestamp - ")); MALLOC_JOURNAL(item); LIST_COPY(item->journal->start, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii(item->journal->start))); break; case 0x8708: // Journal End date/time DEBUG_EMAIL(("End Timestamp - ")); MALLOC_JOURNAL(item); LIST_COPY(item->journal->end, (FILETIME*)); DEBUG_EMAIL(("%s\n", fileTimeToAscii(item->journal->end))); break; case 0x8712: // Title? DEBUG_EMAIL(("Journal Entry Type - ")); MALLOC_JOURNAL(item); LIST_COPY(item->journal->type, (char*)); DEBUG_EMAIL(("%s\n", item->journal->type)); break; default: DEBUG_EMAIL(("unknown type %#x\n", list->items[x]->id)); /* Reference Types 2 - 0x0002 - Signed 16bit value 3 - 0x0003 - Signed 32bit value 11 - 0x000B - Boolean (non-zero = true) 13 - 0x000D - Embedded Object 30 - 0x001E - Null terminated String 31 - 0x001F - Unicode string 64 - 0x0040 - Systime - Filetime structure 72 - 0x0048 - OLE Guid 258 - 0x0102 - Binary data - 0x1003 - Array of 32bit values - 0x101E - Array of Strings - 0x1102 - Array of Binary data */ // DEBUG_EMAIL(("Unknown id [%#x, size=%#x]\n", list->items[x]->id, list->items[x]->size)); if (list->items[x]->type == (uint32_t)0x02) { DEBUG_EMAIL(("Unknown 16bit int = %hi\n", *(int16_t*)list->items[x]->data)); } else if (list->items[x]->type == (uint32_t)0x03) { DEBUG_EMAIL(("Unknown 32bit int = %i\n", *(int32_t*)list->items[x]->data)); } else if (list->items[x]->type == (uint32_t)0x0b) { DEBUG_EMAIL(("Unknown 16bit boolean = %s [%hi]\n", (*((int16_t*)list->items[x]->data)!=0?"True":"False"), *((int16_t*)list->items[x]->data))); } else if (list->items[x]->type == (uint32_t)0x1e) { DEBUG_EMAIL(("Unknown String Data = \"%s\" [%#x]\n", list->items[x]->data, list->items[x]->type)); } else if (list->items[x]->type == (uint32_t)0x40) { DEBUG_EMAIL(("Unknown Date = \"%s\" [%#x]\n", fileTimeToAscii((FILETIME*)list->items[x]->data), list->items[x]->type)); } else if (list->items[x]->type == (uint32_t)0x102) { DEBUG_EMAIL(("Unknown Binary Data [size = %#x]\n", list->items[x]->size)); DEBUG_HEXDUMP(list->items[x]->data, list->items[x]->size); } else if (list->items[x]->type == (uint32_t)0x101E) { DEBUG_EMAIL(("Unknown Array of Strings [%#x]\n", list->items[x]->type)); } else { DEBUG_EMAIL(("Unknown Not Printable [%#x]\n", list->items[x]->type)); } if (list->items[x]->data) { free(list->items[x]->data); list->items[x]->data = NULL; } } x++; } x = 0; list = list->next; next = 1; } DEBUG_RET(); return 0; } void pst_free_list(pst_num_array *list) { pst_num_array *l; DEBUG_ENT("pst_free_list"); while (list) { if (list->items) { int32_t x; for (x=0; x < list->orig_count; x++) { if (list->items[x]) { if (list->items[x]->data) free(list->items[x]->data); free(list->items[x]); } } free(list->items); } l = list; list = list->next; free (l); } DEBUG_RET(); } void pst_free_id2(pst_index2_ll * head) { pst_index2_ll *t; DEBUG_ENT("pst_free_id2"); while (head) { t = head->next; free (head); head = t; } DEBUG_RET(); } void pst_free_id (pst_index_ll *head) { pst_index_ll *t; DEBUG_ENT("pst_free_id"); while (head) { t = head->next; free(head); head = t; } DEBUG_RET(); } void pst_free_desc (pst_desc_ll *head) { pst_desc_ll *t; DEBUG_ENT("pst_free_desc"); while (head) { while (head->child) { head = head->child; } // point t to the next item t = head->next; if (!t && head->parent) { t = head->parent; t->child = NULL; // set the child to NULL so we don't come back here again! } if (head) free(head); else DIE(("head is NULL")); head = t; } DEBUG_RET(); } void pst_free_xattrib(pst_x_attrib_ll *x) { pst_x_attrib_ll *t; DEBUG_ENT("pst_free_xattrib"); while (x) { if (x->data) free(x->data); t = x->next; free(x); x = t; } DEBUG_RET(); } pst_index2_ll * pst_build_id2(pst_file *pf, pst_index_ll* list, pst_index2_ll* head_ptr) { pst_block_header block_head; pst_index2_ll *head = NULL, *tail = NULL; uint16_t x = 0; char *b_ptr = NULL; char *buf = NULL; pst_id2_assoc id2_rec; pst_index_ll *i_ptr = NULL; pst_index2_ll *i2_ptr = NULL; DEBUG_ENT("pst_build_id2"); if (head_ptr) { head = head_ptr; while (head_ptr) head_ptr = (tail = head_ptr)->next; } if (pst_read_block_size(pf, list->offset, list->size, &buf, PST_NO_ENC, 0) < list->size) { //an error occured in block read WARN(("block read error occured. offset = %#llx, size = %#llx\n", list->offset, list->size)); if (buf) free(buf); DEBUG_RET(); return NULL; } DEBUG_HEXDUMPC(buf, list->size, 16); memcpy(&block_head, buf, sizeof(block_head)); LE16_CPU(block_head.type); LE16_CPU(block_head.count); if (block_head.type != (uint16_t)0x0002) { // some sort of constant? WARN(("Unknown constant [%#hx] at start of id2 values [offset %#llx].\n", block_head.type, list->offset)); if (buf) free(buf); DEBUG_RET(); return NULL; } DEBUG_INDEX(("ID %#llx is likely to be a description record. Count is %i (offset %#llx)\n", list->id, block_head.count, list->offset)); x = 0; b_ptr = buf + ((pf->do_read64) ? 0x08 : 0x04); while (x < block_head.count) { b_ptr += pst_decode_assoc(pf, &id2_rec, b_ptr); DEBUG_INDEX(("\tid2 = %#x, id = %#llx, table2 = %#llx\n", id2_rec.id2, id2_rec.id, id2_rec.table2)); if ((i_ptr = pst_getID(pf, id2_rec.id)) == NULL) { DEBUG_WARN(("\t\t%#llx - Not Found\n", id2_rec.id)); } else { DEBUG_INDEX(("\t\t%#llx - Offset %#llx, u1 %#llx, Size %lli(%#llx)\n", i_ptr->id, i_ptr->offset, i_ptr->u1, i_ptr->size, i_ptr->size)); // add it to the linked list i2_ptr = (pst_index2_ll*) xmalloc(sizeof(pst_index2_ll)); i2_ptr->id2 = id2_rec.id2; i2_ptr->id = i_ptr; i2_ptr->next = NULL; if (!head) head = i2_ptr; if (tail) tail->next = i2_ptr; tail = i2_ptr; if (id2_rec.table2 != 0) { if ((i_ptr = pst_getID(pf, id2_rec.table2)) == NULL) { DEBUG_WARN(("\tTable2 [%#x] not found\n", id2_rec.table2)); } else { DEBUG_INDEX(("\tGoing deeper for table2 [%#x]\n", id2_rec.table2)); if ((i2_ptr = pst_build_id2(pf, i_ptr, head))) { // DEBUG_INDEX(("pst_build_id2(): \t\tAdding new list onto end of current\n")); // if (!head) // head = i2_ptr; // if (tail) // tail->next = i2_ptr; // while (i2_ptr->next) // i2_ptr = i2_ptr->next; // tail = i2_ptr; } // need to re-establish tail DEBUG_INDEX(("Returned from depth\n")); if (tail) { while (tail->next) tail = tail->next; } } } } x++; } if (buf) free (buf); DEBUG_RET(); return head; } void pst_freeItem(pst_item *item) { pst_item_attach *t; pst_item_extra_field *et; DEBUG_ENT("pst_freeItem"); if (item) { if (item->email) { SAFE_FREE(item->email->arrival_date); SAFE_FREE(item->email->body); SAFE_FREE(item->email->cc_address); SAFE_FREE(item->email->common_name); SAFE_FREE(item->email->encrypted_body); SAFE_FREE(item->email->encrypted_htmlbody); SAFE_FREE(item->email->header); SAFE_FREE(item->email->htmlbody); SAFE_FREE(item->email->in_reply_to); SAFE_FREE(item->email->messageid); SAFE_FREE(item->email->outlook_recipient); SAFE_FREE(item->email->outlook_recipient2); SAFE_FREE(item->email->outlook_sender); SAFE_FREE(item->email->outlook_sender_name); SAFE_FREE(item->email->outlook_sender2); SAFE_FREE(item->email->proc_subject); SAFE_FREE(item->email->recip_access); SAFE_FREE(item->email->recip_address); SAFE_FREE(item->email->recip2_access); SAFE_FREE(item->email->recip2_address); SAFE_FREE(item->email->reply_to); SAFE_FREE(item->email->rtf_body_tag); SAFE_FREE(item->email->rtf_compressed); SAFE_FREE(item->email->return_path_address); SAFE_FREE(item->email->sender_access); SAFE_FREE(item->email->sender_address); SAFE_FREE(item->email->sender2_access); SAFE_FREE(item->email->sender2_address); SAFE_FREE(item->email->sent_date); SAFE_FREE(item->email->sentmail_folder); SAFE_FREE(item->email->sentto_address); if (item->email->subject) SAFE_FREE(item->email->subject->subj); SAFE_FREE(item->email->subject); free(item->email); } if (item->folder) { free(item->folder); } if (item->message_store) { SAFE_FREE(item->message_store->deleted_items_folder); SAFE_FREE(item->message_store->search_root_folder); SAFE_FREE(item->message_store->top_of_personal_folder); SAFE_FREE(item->message_store->top_of_folder); free(item->message_store); } if (item->contact) { SAFE_FREE(item->contact->access_method); SAFE_FREE(item->contact->account_name); SAFE_FREE(item->contact->address1); SAFE_FREE(item->contact->address1a); SAFE_FREE(item->contact->address1_desc); SAFE_FREE(item->contact->address1_transport); SAFE_FREE(item->contact->address2); SAFE_FREE(item->contact->address2a); SAFE_FREE(item->contact->address2_desc); SAFE_FREE(item->contact->address2_transport); SAFE_FREE(item->contact->address3); SAFE_FREE(item->contact->address3a); SAFE_FREE(item->contact->address3_desc); SAFE_FREE(item->contact->address3_transport); SAFE_FREE(item->contact->assistant_name); SAFE_FREE(item->contact->assistant_phone); SAFE_FREE(item->contact->billing_information); SAFE_FREE(item->contact->birthday); SAFE_FREE(item->contact->business_address); SAFE_FREE(item->contact->business_city); SAFE_FREE(item->contact->business_country); SAFE_FREE(item->contact->business_fax); SAFE_FREE(item->contact->business_homepage); SAFE_FREE(item->contact->business_phone); SAFE_FREE(item->contact->business_phone2); SAFE_FREE(item->contact->business_po_box); SAFE_FREE(item->contact->business_postal_code); SAFE_FREE(item->contact->business_state); SAFE_FREE(item->contact->business_street); SAFE_FREE(item->contact->callback_phone); SAFE_FREE(item->contact->car_phone); SAFE_FREE(item->contact->company_main_phone); SAFE_FREE(item->contact->company_name); SAFE_FREE(item->contact->computer_name); SAFE_FREE(item->contact->customer_id); SAFE_FREE(item->contact->def_postal_address); SAFE_FREE(item->contact->department); SAFE_FREE(item->contact->display_name_prefix); SAFE_FREE(item->contact->first_name); SAFE_FREE(item->contact->followup); SAFE_FREE(item->contact->free_busy_address); SAFE_FREE(item->contact->ftp_site); SAFE_FREE(item->contact->fullname); SAFE_FREE(item->contact->gov_id); SAFE_FREE(item->contact->hobbies); SAFE_FREE(item->contact->home_address); SAFE_FREE(item->contact->home_city); SAFE_FREE(item->contact->home_country); SAFE_FREE(item->contact->home_fax); SAFE_FREE(item->contact->home_po_box); SAFE_FREE(item->contact->home_phone); SAFE_FREE(item->contact->home_phone2); SAFE_FREE(item->contact->home_postal_code); SAFE_FREE(item->contact->home_state); SAFE_FREE(item->contact->home_street); SAFE_FREE(item->contact->initials); SAFE_FREE(item->contact->isdn_phone); SAFE_FREE(item->contact->job_title); SAFE_FREE(item->contact->keyword); SAFE_FREE(item->contact->language); SAFE_FREE(item->contact->location); SAFE_FREE(item->contact->manager_name); SAFE_FREE(item->contact->middle_name); SAFE_FREE(item->contact->mileage); SAFE_FREE(item->contact->mobile_phone); SAFE_FREE(item->contact->nickname); SAFE_FREE(item->contact->office_loc); SAFE_FREE(item->contact->org_id); SAFE_FREE(item->contact->other_address); SAFE_FREE(item->contact->other_city); SAFE_FREE(item->contact->other_country); SAFE_FREE(item->contact->other_phone); SAFE_FREE(item->contact->other_po_box); SAFE_FREE(item->contact->other_postal_code); SAFE_FREE(item->contact->other_state); SAFE_FREE(item->contact->other_street); SAFE_FREE(item->contact->pager_phone); SAFE_FREE(item->contact->personal_homepage); SAFE_FREE(item->contact->pref_name); SAFE_FREE(item->contact->primary_fax); SAFE_FREE(item->contact->primary_phone); SAFE_FREE(item->contact->profession); SAFE_FREE(item->contact->radio_phone); SAFE_FREE(item->contact->spouse_name); SAFE_FREE(item->contact->suffix); SAFE_FREE(item->contact->surname); SAFE_FREE(item->contact->telex); SAFE_FREE(item->contact->transmittable_display_name); SAFE_FREE(item->contact->ttytdd_phone); SAFE_FREE(item->contact->wedding_anniversary); free(item->contact); } while (item->attach) { SAFE_FREE(item->attach->filename1); SAFE_FREE(item->attach->filename2); SAFE_FREE(item->attach->mimetype); SAFE_FREE(item->attach->data); t = item->attach->next; free(item->attach); item->attach = t; } while (item->extra_fields) { SAFE_FREE(item->extra_fields->field_name); SAFE_FREE(item->extra_fields->value); et = item->extra_fields->next; free(item->extra_fields); item->extra_fields = et; } if (item->journal) { SAFE_FREE(item->journal->end); SAFE_FREE(item->journal->start); SAFE_FREE(item->journal->type); free(item->journal); } if (item->appointment) { SAFE_FREE(item->appointment->location); SAFE_FREE(item->appointment->reminder); SAFE_FREE(item->appointment->start); SAFE_FREE(item->appointment->end); SAFE_FREE(item->appointment->timezonestring); free(item->appointment); } SAFE_FREE(item->ascii_type); SAFE_FREE(item->comment); SAFE_FREE(item->create_date); SAFE_FREE(item->file_as); SAFE_FREE(item->modify_date); SAFE_FREE(item->outlook_version); SAFE_FREE(item->record_key); free(item); } DEBUG_RET(); } /** * The offset might be zero, in which case we have no data, so return a pair of null pointers. * Or, the offset might end in 0xf, so it is an id2 pointer, in which case we read the id2 block. * Otherwise, the offset>>4 is an index into the table of offsets in the buffer. */ int pst_getBlockOffsetPointer(pst_file *pf, pst_index2_ll *i2_head, unsigned char *buf, size_t read_size, uint32_t i_offset, uint32_t offset, pst_block_offset_pointer *p) { size_t size; pst_block_offset block_offset; DEBUG_ENT("pst_getBlockOffsetPointer"); if (p->needfree) free(p->from); p->from = NULL; p->needfree = 0; if (!offset) { p->from = p->to = NULL; } else if ((offset & 0xf) == (uint32_t)0xf) { DEBUG_WARN(("Found id2 %#x value. Will follow it\n", offset)); size = pst_ff_getID2block(pf, offset, i2_head, &(p->from)); if (size) { p->to = p->from + size; p->needfree = 1; } else { p->from = p->to = NULL; } } else if (pst_getBlockOffset(buf, read_size, i_offset, offset, &block_offset)) { p->from = p->to = NULL; } else { p->from = buf + block_offset.from; p->to = buf + block_offset.to; } DEBUG_RET(); return (p->from) ? 0 : 1; } int pst_getBlockOffset(unsigned char *buf, size_t read_size, uint32_t i_offset, uint32_t offset, pst_block_offset *p) { uint32_t low = offset & 0xf; uint32_t of1 = offset >> 4; DEBUG_ENT("pst_getBlockOffset"); if (!p || !buf || !i_offset || low || (i_offset+2+of1+sizeof(*p) > read_size)) { DEBUG_WARN(("p is NULL or buf is NULL or offset is 0 or offset has low bits or beyond read size (%p, %p, %#x, %i, %i)\n", p, buf, offset, read_size, i_offset)); DEBUG_RET(); return -1; } memcpy(&(p->from), &(buf[(i_offset+2)+of1]), sizeof(p->from)); memcpy(&(p->to), &(buf[(i_offset+2)+of1+sizeof(p->from)]), sizeof(p->to)); LE16_CPU(p->from); LE16_CPU(p->to); DEBUG_WARN(("get block offset finds from=%i(%#x), to=%i(%#x)\n", p->from, p->from, p->to, p->to)); if (p->from > p->to) { DEBUG_WARN(("get block offset from > to")); return -1; } DEBUG_RET(); return 0; } pst_index_ll* pst_getID(pst_file* pf, uint64_t id) { pst_index_ll *ptr = NULL; DEBUG_ENT("pst_getID"); if (id == 0) { DEBUG_RET(); return NULL; } //if (id & 1) DEBUG_INDEX(("have odd id bit %#llx\n", id)); //if (id & 2) DEBUG_INDEX(("have two id bit %#llx\n", id)); id -= (id & 1); DEBUG_INDEX(("Trying to find %#llx\n", id)); if (!ptr) ptr = pf->i_head; while (ptr && (ptr->id != id)) { ptr = ptr->next; } if (ptr) {DEBUG_INDEX(("Found Value %#llx\n", id)); } else {DEBUG_INDEX(("ERROR: Value %#llx not found\n", id)); } DEBUG_RET(); return ptr; } pst_index_ll * pst_getID2(pst_index2_ll *ptr, uint64_t id) { DEBUG_ENT("pst_getID2"); DEBUG_INDEX(("Head = %p\n", ptr)); DEBUG_INDEX(("Trying to find %#x\n", id)); while (ptr && (ptr->id2 != id)) { ptr = ptr->next; } if (ptr) { if (ptr->id) {DEBUG_INDEX(("Found value %#llx\n", ptr->id->id)); } else {DEBUG_INDEX(("Found value, though it is NULL!\n"));} DEBUG_RET(); return ptr->id; } DEBUG_INDEX(("ERROR Not Found\n")); DEBUG_RET(); return NULL; } /** * find the id in the descriptor tree rooted at pf->d_head * * @param pf global pst file pointer * @param id the id we are looking for * * @return pointer to the pst_desc_ll node in the descriptor tree */ pst_desc_ll* pst_getDptr(pst_file *pf, uint64_t id) { pst_desc_ll *ptr = pf->d_head; DEBUG_ENT("pst_getDptr"); while (ptr && (ptr->id != id)) { if (ptr->child) { ptr = ptr->child; continue; } while (!ptr->next && ptr->parent) { ptr = ptr->parent; } ptr = ptr->next; } DEBUG_RET(); return ptr; // will be NULL or record we are looking for } int32_t pst_printDptr(pst_file *pf) { pst_desc_ll *ptr = pf->d_head; int32_t depth = 0; char spaces[100]; DEBUG_ENT("pst_printDptr"); memset(spaces, ' ', 99); spaces[99] = '\0'; while (ptr) { DEBUG_INDEX(("%s%#x [%i] desc=%#x, list=%#x\n", &(spaces[(99-depth<0?0:99-depth)]), ptr->id, ptr->no_child, (ptr->desc==NULL?0:ptr->desc->id), (ptr->list_index==NULL?0:ptr->list_index->id))); if (ptr->child) { depth++; ptr = ptr->child; continue; } while (!ptr->next && ptr->parent) { depth--; ptr = ptr->parent; } ptr = ptr->next; } DEBUG_RET(); return 0; } int32_t pst_printIDptr(pst_file* pf) { pst_index_ll *ptr = pf->i_head; DEBUG_ENT("pst_printIDptr"); while (ptr) { DEBUG_INDEX(("%#x offset=%#x size=%#x\n", ptr->id, ptr->offset, ptr->size)); ptr = ptr->next; } DEBUG_RET(); return 0; } int32_t pst_printID2ptr(pst_index2_ll *ptr) { DEBUG_ENT("pst_printID2ptr"); while (ptr) { DEBUG_INDEX(("%#x id=%#x\n", ptr->id2, (ptr->id!=NULL?ptr->id->id:0))); ptr = ptr->next; } DEBUG_RET(); return 0; } // when the first byte of the block being read is 01, then we can assume // that it is a list of further ids to read and we will follow those ids // recursively calling this function until we have all the data // we could do decryption of the encrypted PST files here size_t pst_read_block_size(pst_file *pf, off_t offset, size_t size, char **buf, int32_t do_enc, unsigned char is_index) { off_t fpos; uint32_t x; int16_t count, y; char *buf2 = NULL, *buf3 = NULL; unsigned char fdepth; pst_index_ll *ptr = NULL; size_t rsize, z; DEBUG_ENT("pst_read_block_size"); DEBUG_READ(("Reading block from %#x, %i bytes\n", offset, size)); fpos = ftell(pf->fp); (void)fseek(pf->fp, offset, SEEK_SET); if (*buf) { DEBUG_READ(("Freeing old memory\n")); free(*buf); } *buf = (void*) xmalloc(size+1); //plus one so that we can NUL terminate it later rsize = fread(*buf, (size_t)1, size, pf->fp); if (rsize != size) { DEBUG_WARN(("Didn't read all that I could. fread returned less [%i instead of %i]\n", rsize, size)); if (feof(pf->fp)) { DEBUG_WARN(("We tried to read past the end of the file at [offset %#x, size %#x]\n", offset, size)); } else if (ferror(pf->fp)) { DEBUG_WARN(("Error is set on file stream.\n")); } else { DEBUG_WARN(("I can't tell why it failed\n")); } size = rsize; } // DEBUG_HEXDUMP(*buf, size); /* if (is_index) { DEBUG_READ(("pst_read_block_size: ODD_BLOCK should be here\n")); DEBUG_READ(("\t: byte 0-1: %#x %#x\n", (*buf)[0], (*buf)[1])); }*/ if ((*buf)[0] == 0x01 && (*buf)[1] != 0x00 && is_index) { //don't do this recursion if we should be at a leaf node memcpy(&count, &((*buf)[2]), sizeof(int16_t)); LE16_CPU(count); memcpy(&fdepth, &((*buf)[1]), sizeof(fdepth)); DEBUG_READ(("Seen indexes to blocks. Depth is %i\n", fdepth)); // do fancy stuff! :) DEBUG_READ(("There are %i ids\n", count)); // if first 2 blocks are 01 01 then index to blocks size = 0; y = 0; while (y < count) { memcpy(&x, &(*buf)[0x08+(y*4)], sizeof(uint32_t)); LE32_CPU(x); if ((ptr = pst_getID(pf, x)) == NULL) { WARN(("Error. Cannot find ID [%#x] during multi-block read\n", x)); buf3 = (char*) realloc(buf3, size+1); buf3[size] = '\0'; *buf = buf3; (void)fseek(pf->fp, fpos, SEEK_SET); DEBUG_RET(); return size; } if ((z = pst_read_block_size(pf, ptr->offset, ptr->size, &buf2, do_enc, fdepth-1)) < ptr->size) { buf3 = (char*) realloc(buf3, size+1); buf3[size] = '\0'; *buf = buf3; (void)fseek(pf->fp, fpos, SEEK_SET); DEBUG_RET(); return size; } DEBUG_READ(("Melding newley retrieved block with bigger one. New size is %i\n", size+z)); buf3 = (char*) realloc(buf3, size+z+1); //plus one so that we can null terminate it later DEBUG_READ(("Doing copy. Start pos is %i, length is %i\n", size, z)); memcpy(&(buf3[size]), buf2, z); size += z; y++; } free(*buf); if (buf2) free(buf2); if (!buf3) { // this can happen if count == 0. We should create an empty buffer so we don't // confuse any clients buf3 = (char*) xmalloc((size_t)1); } *buf = buf3; } else if (do_enc && pf->encryption) { (void)pst_decrypt(*buf, size, pf->encryption); } else { // nothing to do } (*buf)[size] = '\0'; //should be byte after last one read (void)fseek(pf->fp, fpos, SEEK_SET); DEBUG_RET(); return size; } int pst_decrypt(unsigned char *buf, size_t size, unsigned char type) { size_t x = 0; unsigned char y; DEBUG_ENT("pst_decrypt"); if (!buf) { DEBUG_RET(); return -1; } if (type == PST_COMP_ENCRYPT) { x = 0; while (x < size) { y = buf[x]; DEBUG_DECRYPT(("Transposing %#hhx to %#hhx [%#x]\n", buf[x], comp_enc[y], y)); buf[x] = comp_enc[y]; // transpose from encrypt array x++; } } else { WARN(("Unknown encryption: %i. Cannot decrypt\n", type)); DEBUG_RET(); return -1; } DEBUG_RET(); return 0; } uint64_t pst_getIntAt(pst_file *pf, char *buf) { uint64_t buf64; uint32_t buf32; if (pf->do_read64) { memcpy(&buf64, buf, sizeof(buf64)); LE64_CPU(buf64); return buf64; } else { memcpy(&buf32, buf, sizeof(buf32)); LE32_CPU(buf32); return buf32; } } uint64_t pst_getIntAtPos(pst_file *pf, off_t pos ) { uint64_t buf64; uint32_t buf32; if (pf->do_read64) { (void)pst_getAtPos(pf->fp, pos, &buf64, sizeof(buf64)); LE64_CPU(buf64); return buf64; } else { (void)pst_getAtPos(pf->fp, pos, &buf32, sizeof(buf32)); LE32_CPU(buf32); return buf32; } } int pst_getAtPos(FILE *fp, off_t pos, void* buf, size_t size) { DEBUG_ENT("pst_getAtPos"); if (fseek(fp, pos, SEEK_SET) == -1) { DEBUG_RET(); return 1; } if (fread(buf, (size_t)1, size, fp) < size) { DEBUG_RET(); return 2; } DEBUG_RET(); return 0; } int pst_get (FILE *fp, void *buf, size_t size) { DEBUG_ENT("pst_get"); if (fread(buf, (size_t)1, size, fp) < size) { DEBUG_RET(); return 1; } DEBUG_RET(); return 0; } size_t pst_ff_getIDblock_dec(pst_file *pf, uint64_t id, unsigned char **b) { size_t r; int noenc = (int)(id & 2); // disable encryption DEBUG_ENT("pst_ff_getIDblock_dec"); DEBUG_INDEX(("for id %#x\n", id)); r = pst_ff_getIDblock(pf, id, b); if ((pf->encryption) && !(noenc)) { (void)pst_decrypt(*b, r, pf->encryption); } DEBUG_HEXDUMPC(*b, r, 16); DEBUG_RET(); return r; } size_t pst_ff_getIDblock(pst_file *pf, uint64_t id, unsigned char** b) { pst_index_ll *rec; size_t rsize = 0; DEBUG_ENT("pst_ff_getIDblock"); if ((rec = pst_getID(pf, id)) == NULL) { DEBUG_INDEX(("Cannot find ID %#llx\n", id)); DEBUG_RET(); return 0; } (void)fseek(pf->fp, rec->offset, SEEK_SET); if (*b) { DEBUG_INDEX(("freeing old memory in b\n")); free(*b); } DEBUG_INDEX(("id = %#llx, record size = %#x, offset = %#x\n", id, rec->size, rec->offset)); *b = (char*) xmalloc(rec->size+1); rsize = fread(*b, (size_t)1, rec->size, pf->fp); if (rsize != rec->size) { DEBUG_WARN(("Didn't read all the size. fread returned less [%i instead of %i]\n", rsize, rec->size)); if (feof(pf->fp)) { DEBUG_WARN(("We tried to read past the end of the file [offset %#x, size %#x]\n", rec->offset, rec->size)); } else if (ferror(pf->fp)) { DEBUG_WARN(("Some error occured on the file stream\n")); } else { DEBUG_WARN(("No error has been set on the file stream\n")); } } DEBUG_RET(); return rsize; } #define PST_PTR_BLOCK_SIZE 0x120 size_t pst_ff_getID2block(pst_file *pf, uint64_t id2, pst_index2_ll *id2_head, unsigned char** buf) { pst_index_ll* ptr; // size_t ret; struct holder h = {buf, NULL, 0, "", 0}; DEBUG_ENT("pst_ff_getID2block"); ptr = pst_getID2(id2_head, id2); if (!ptr) { DEBUG_INDEX(("Cannot find id2 value %#x\n", id2)); DEBUG_RET(); return 0; } DEBUG_RET(); return pst_ff_getID2data(pf, ptr, &h); } size_t pst_ff_getID2data(pst_file *pf, pst_index_ll *ptr, struct holder *h) { size_t ret; unsigned char *b = NULL, *t; DEBUG_ENT("pst_ff_getID2data"); if (!(ptr->id & 0x02)) { ret = pst_ff_getIDblock_dec(pf, ptr->id, &b); if (h->buf) { *(h->buf) = b; } else if ((h->base64 == 1) && h->fp) { t = base64_encode(b, ret); if (t) { (void)pst_fwrite(t, (size_t)1, strlen(t), h->fp); free(t); // caught by valgrind } free(b); } else if (h->fp) { (void)pst_fwrite(b, (size_t)1, ret, h->fp); free(b); } else { // h-> does not specify any output } } else { // here we will assume it is a block that points to others DEBUG_READ(("Assuming it is a multi-block record because of it's id\n")); ret = pst_ff_compile_ID(pf, ptr->id, h, (size_t)0); } if (h->buf && *h->buf) (*(h->buf))[ret]='\0'; DEBUG_RET(); return ret; } size_t pst_ff_compile_ID(pst_file *pf, uint64_t id, struct holder *h, size_t size) { size_t z, a; uint16_t count, y; uint32_t x, b; unsigned char * buf3 = NULL, *buf2 = NULL, *t; unsigned char fdepth; DEBUG_ENT("pst_ff_compile_ID"); a = pst_ff_getIDblock(pf, id, &buf3); if (!a) { if (buf3) free(buf3); return 0; } if ((buf3[0] != 0x1)) { // if bit 8 is set) { // if ((buf3)[0] != 0x1 && (buf3)[1] > 4) { DEBUG_WARN(("WARNING: buffer doesn't start with 0x1, but I expected it to or doesn't have it's two-bit set!\n")); DEBUG_WARN(("Treating as normal buffer\n")); if (pf->encryption) (void)pst_decrypt(buf3, a, pf->encryption); if (h->buf) *(h->buf) = buf3; else if (h->base64 == 1 && h->fp) { t = base64_encode(buf3, a); if (t) { (void)pst_fwrite(t, (size_t)1, strlen(t), h->fp); free(t); // caught by valgrind } free(buf3); } else if (h->fp) { (void)pst_fwrite(buf3, (size_t)1, a, h->fp); free(buf3); } else { // h-> does not specify any output } DEBUG_RET(); return a; } memcpy (&count, &(buf3[2]), sizeof(int16_t)); LE16_CPU(count); memcpy (&fdepth, &(buf3[1]), sizeof(char)); DEBUG_READ(("Seen index to blocks. Depth is %i\n", fdepth)); DEBUG_READ(("There are %i ids here\n", count)); y = 0; while (y < count) { memcpy(&x, &buf3[0x08+(y*4)], sizeof(int32_t)); LE32_CPU(x); if (fdepth == 0x1) { if ((z = pst_ff_getIDblock(pf, x, &buf2)) == 0) { DEBUG_WARN(("call to getIDblock returned zero %i\n", z)); if (buf2) free(buf2); free(buf3); return z; } if (pf->encryption) (void)pst_decrypt(buf2, z, pf->encryption); if (h->buf) { *(h->buf) = realloc(*(h->buf), size+z+1); DEBUG_READ(("appending read data of size %i onto main buffer from pos %i\n", z, size)); memcpy(&((*(h->buf))[size]), buf2, z); } else if ((h->base64 == 1) && h->fp) { // include any byte left over from the last one encoding buf2 = (char*)realloc(buf2, z+h->base64_extra); memmove(buf2+h->base64_extra, buf2, z); memcpy(buf2, h->base64_extra_chars, h->base64_extra); z += h->base64_extra; b = z % 3; // find out how many bytes will be left over after the encoding. // and save them memcpy(h->base64_extra_chars, &(buf2[z-b]), b); h->base64_extra = b; t = base64_encode(buf2, z-b); if (t) { DEBUG_READ(("writing %i bytes to file as base64 [%i]. Currently %i\n", z, strlen(t), size)); (void)pst_fwrite(t, (size_t)1, strlen(t), h->fp); free(t); // caught by valgrind } } else if (h->fp) { DEBUG_READ(("writing %i bytes to file. Currently %i\n", z, size)); (void)pst_fwrite(buf2, (size_t)1, z, h->fp); } else { // h-> does not specify any output } size += z; y++; } else { if ((z = pst_ff_compile_ID(pf, x, h, size)) == 0) { DEBUG_WARN(("recursive called returned zero %i\n", z)); free(buf3); DEBUG_RET(); return z; } size = z; y++; } } free(buf3); if (buf2) free(buf2); DEBUG_RET(); return size; } #ifdef _MSC_VER char * fileTimeToAscii(const FILETIME* filetime) { time_t t; DEBUG_ENT("fileTimeToAscii"); t = fileTimeToUnixTime(filetime, 0); if (t == -1) DEBUG_WARN(("ERROR time_t varible that was produced, is -1\n")); DEBUG_RET(); return ctime(&t); } time_t fileTimeToUnixTime(const FILETIME* filetime, DWORD *x) { SYSTEMTIME s; struct tm t; DEBUG_ENT("fileTimeToUnixTime"); memset (&t, 0, sizeof(struct tm)); FileTimeToSystemTime(filetime, &s); t.tm_year = s.wYear-1900; // this is what is required t.tm_mon = s.wMonth-1; // also required! It made me a bit confused t.tm_mday = s.wDay; t.tm_hour = s.wHour; t.tm_min = s.wMinute; t.tm_sec = s.wSecond; DEBUG_RET(); return mktime(&t); } struct tm * fileTimeToStructTM (const FILETIME *filetime) { time_t t1; t1 = fileTimeToUnixTime(filetime, 0); return gmtime(&t1); } #endif //_MSC_VER int pst_stricmp(char *a, char *b) { // compare strings case-insensitive. // returns -1 if a < b, 0 if a==b, 1 if a > b while(*a != '\0' && *b != '\0' && toupper(*a)==toupper(*b)) { a++; b++; } if (toupper(*a) == toupper(*b)) return 0; else if (toupper(*a) < toupper(*b)) return -1; else return 1; } int pst_strincmp(char *a, char *b, size_t x) { // compare upto x chars in string a and b case-insensitively // returns -1 if a < b, 0 if a==b, 1 if a > b size_t y = 0; while (*a != '\0' && *b != '\0' && y < x && toupper(*a)==toupper(*b)) { a++; b++; y++; } // if we have reached the end of either string, or a and b still match if (*a == '\0' || *b == '\0' || toupper(*a)==toupper(*b)) return 0; else if (toupper(*a) < toupper(*b)) return -1; else return 1; } size_t pst_fwrite(const void*ptr, size_t size, size_t nmemb, FILE*stream) { size_t r; DEBUG_ENT("pst_fwrite"); if (ptr) r = fwrite(ptr, size, nmemb, stream); else { r = 0; DEBUG_WARN(("An attempt to write a NULL Pointer was made\n")); } DEBUG_RET(); return r; } char * pst_wide_to_single(char *wt, size_t size) { // returns the first byte of each wide char. the size is the number of bytes in source char *x, *y; DEBUG_ENT("pst_wide_to_single"); x = xmalloc((size/2)+1); y = x; while (size != 0 && *wt != '\0') { *y = *wt; wt+=2; size -= 2; y++; } *y = '\0'; DEBUG_RET(); return x; } char *pst_rfc2426_escape(char *str) { static char* buf = NULL; static size_t buflen = 0; char *ret, *a, *b; size_t x = 0; int y, z; DEBUG_ENT("rfc2426_escape"); if (!str) ret = str; else { // calculate space required to escape all the following characters y = pst_chr_count(str, ',') + pst_chr_count(str, '\\') + pst_chr_count(str, ';') + pst_chr_count(str, '\n'); z = pst_chr_count(str, '\r'); if (y == 0 && z == 0) // there isn't any extra space required ret = str; else { x = strlen(str) + y - z + 1; // don't forget room for the NUL if (x > buflen) { buf = (char*) realloc(buf, x); buflen = x; } a = str; b = buf; while (*a != '\0') { switch (*a) { case ',' : case '\\': case ';' : *(b++) = '\\'; *b = *a; break; case '\n': // newlines are encoded as "\n" *(b++) = '\\'; *b = 'n'; break; case '\r': // skip cr b--; break; default: *b=*a; } b++; a++; } *b = '\0'; // NUL-terminate the string (buf) ret = buf; } } DEBUG_RET(); return ret; } int pst_chr_count(char *str, char x) { int r = 0; while (*str) { if (*str == x) r++; str++; } return r; } char *pst_rfc2425_datetime_format(FILETIME *ft) { static char buffer[30]; struct tm *stm = NULL; DEBUG_ENT("rfc2425_datetime_format"); stm = fileTimeToStructTM(ft); if (strftime(buffer, sizeof(buffer), "%Y-%m-%dT%H:%M:%SZ", stm)==0) { DEBUG_INFO(("Problem occured formatting date\n")); } DEBUG_RET(); return buffer; } char *pst_rfc2445_datetime_format(FILETIME *ft) { static char buffer[30]; struct tm *stm = NULL; DEBUG_ENT("rfc2445_datetime_format"); stm = fileTimeToStructTM(ft); if (strftime(buffer, sizeof(buffer), "%Y%m%dT%H%M%SZ", stm)==0) { DEBUG_INFO(("Problem occured formatting date\n")); } DEBUG_RET(); return buffer; }