Mercurial > libpst
view src/pst2ldif.cpp @ 96:2e3ec9511166
update the release notes
author | Carl Byington <carl@five-ten-sg.com> |
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date | Sun, 14 Sep 2008 11:56:19 -0700 |
parents | 56fa05fd5271 |
children | b7f456946c5b |
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/* Copyright (c) 2004 Carl Byington - 510 Software Group, released under the GPL version 2 or any later version at your choice available at http://www.fsf.org/licenses/gpl.txt Based on readpst.c by David Smith */ using namespace std; // needed for std c++ collections #include <set> extern "C" { #include "define.h" #include "libstrfunc.h" #include "libpst.h" #include "common.h" #include "timeconv.h" #include "lzfu.h" } int32_t usage(); int32_t version(); char *my_stristr(char *haystack, char *needle); char *check_filename(char *fname); const char *single(char *str); const char *folded(char *str); void multi(const char *fmt, char *str); char *rfc2426_escape(char *str); int32_t chr_count(char *str, char x); char *prog_name; pst_file pstfile; char *ldap_base = NULL; // 'o=some.domain.tld, c=US' char *ldap_class = NULL; // 'newPerson' char *ldap_org = NULL; // 'o=some.domain.tld', computed from ldap_base //////////////////////////////////////////////// // define our ordering struct ltstr { bool operator()(const char* s1, const char* s2) const { return strcasecmp(s1, s2) < 0; } }; // define our set typedef set<const char *, ltstr> string_set; // make a static set to hold the cn values static string_set all_strings; //////////////////////////////////////////////// // helper to free all the strings in a set // static void free_strings(string_set &s); static void free_strings(string_set &s) { for (string_set::iterator i=s.begin(); i!=s.end(); i++) { free((void*)*i); } s.clear(); } //////////////////////////////////////////////// // helper to register a string in a string set // static const char* register_string(string_set &s, const char *name); static const char* register_string(string_set &s, const char *name) { string_set::const_iterator i = s.find(name); if (i != s.end()) return *i; char *x = strdup(name); s.insert(x); return x; } //////////////////////////////////////////////// // register a global string // static const char* register_string(const char *name); static const char* register_string(const char *name) { return register_string(all_strings, name); } //////////////////////////////////////////////// // make a unique string // static const char* unique_string(const char *name); static const char* unique_string(const char *name) { int unique = 2; string_set::iterator i = all_strings.find(name); if (i == all_strings.end()) return register_string(name); while (true) { char n[strlen(name)+10]; snprintf(n, sizeof(n), "%s %d", name, unique++); string_set::iterator i = all_strings.find(n); if (i == all_strings.end()) return register_string(n); } } //////////////////////////////////////////////// // remove leading and trailing blanks // static char *trim(char *name); static char *trim(char *name) { char *p; while (*name == ' ') name++; p = name + strlen(name) - 1; while ((p >= name) && (*p == ' ')) *p-- = '\0'; return name; } static void process(pst_desc_ll *d_ptr); static void process(pst_desc_ll *d_ptr) { pst_item *item = NULL; while (d_ptr) { if (d_ptr->desc) { item = pst_parse_item(&pstfile, d_ptr); DEBUG_INFO(("item pointer is %p\n", item)); if (item) { if (item->folder && d_ptr->child && strcasecmp(item->file_as, "Deleted Items")) { //if this is a non-empty folder other than deleted items, we want to recurse into it fprintf(stderr, "entering folder %s\n", item->file_as); process(d_ptr->child); } else if (item->contact && (item->type == PST_TYPE_CONTACT)) { // deal with a contact char cn[1000]; snprintf(cn, sizeof(cn), "%s %s %s %s", single(item->contact->display_name_prefix), single(item->contact->first_name), single(item->contact->surname), single(item->contact->suffix)); if (strcmp(cn, " ")) { // have a valid cn const char *ucn = unique_string(folded(trim(cn))); printf("dn: cn=%s, %s\n", ucn, ldap_base); printf("cn: %s\n", ucn); if (item->contact->first_name) { snprintf(cn, sizeof(cn), "%s %s", single(item->contact->display_name_prefix), single(item->contact->first_name)); printf("givenName: %s\n", trim(cn)); } if (item->contact->surname) { snprintf(cn, sizeof(cn), "%s %s", single(item->contact->surname), single(item->contact->suffix)); printf("sn: %s\n", trim(cn)); } else if (item->contact->company_name) { printf("sn: %s\n", single(item->contact->company_name)); } else printf("sn: %s\n", ucn); // use cn as sn if we cannot find something better if (item->contact->job_title) printf("personalTitle: %s\n", single(item->contact->job_title)); if (item->contact->company_name) printf("company: %s\n", single(item->contact->company_name)); if (item->contact->address1 && *item->contact->address1) printf("mail: %s\n", single(item->contact->address1)); if (item->contact->address2 && *item->contact->address2) printf("mail: %s\n", single(item->contact->address2)); if (item->contact->address3 && *item->contact->address3) printf("mail: %s\n", single(item->contact->address3)); if (item->contact->address1a && *item->contact->address1a) printf("mail: %s\n", single(item->contact->address1a)); if (item->contact->address2a && *item->contact->address2a) printf("mail: %s\n", single(item->contact->address2a)); if (item->contact->address3a && *item->contact->address3a) printf("mail: %s\n", single(item->contact->address3a)); if (item->contact->business_address) { if (item->contact->business_po_box) printf("postalAddress: %s\n", single(item->contact->business_po_box)); if (item->contact->business_street) multi("postalAddress: %s\n", item->contact->business_street); if (item->contact->business_city) printf("l: %s\n", single(item->contact->business_city)); if (item->contact->business_state) printf("st: %s\n", single(item->contact->business_state)); if (item->contact->business_postal_code) printf("postalCode: %s\n", single(item->contact->business_postal_code)); } else if (item->contact->home_address) { if (item->contact->home_po_box) printf("postalAddress: %s\n", single(item->contact->home_po_box)); if (item->contact->home_street) multi("postalAddress: %s\n", item->contact->home_street); if (item->contact->home_city) printf("l: %s\n", single(item->contact->home_city)); if (item->contact->home_state) printf("st: %s\n", single(item->contact->home_state)); if (item->contact->home_postal_code) printf("postalCode: %s\n", single(item->contact->home_postal_code)); } else if (item->contact->other_address) { if (item->contact->other_po_box) printf("postalAddress: %s\n", single(item->contact->other_po_box)); if (item->contact->other_street) multi("postalAddress: %s\n", item->contact->other_street); if (item->contact->other_city) printf("l: %s\n", single(item->contact->other_city)); if (item->contact->other_state) printf("st: %s\n", single(item->contact->other_state)); if (item->contact->other_postal_code) printf("postalCode: %s\n", single(item->contact->other_postal_code)); } if (item->contact->business_fax) printf("facsimileTelephoneNumber: %s\n", single(item->contact->business_fax)); else if (item->contact->home_fax) printf("facsimileTelephoneNumber: %s\n", single(item->contact->home_fax)); if (item->contact->business_phone) printf("telephoneNumber: %s\n", single(item->contact->business_phone)); if (item->contact->home_phone) printf("homePhone: %s\n", single(item->contact->home_phone)); if (item->contact->car_phone) printf("mobile: %s\n", single(item->contact->car_phone)); else if (item->contact->mobile_phone) printf("mobile: %s\n", single(item->contact->mobile_phone)); else if (item->contact->other_phone) printf("mobile: %s\n", single(item->contact->other_phone)); if (item->comment) printf("description: %s\n", single(item->comment)); printf("objectClass: %s\n\n", ldap_class); } } else { DEBUG_INFO(("item is not a contact\n")); } } pst_freeItem(item); } d_ptr = d_ptr->next; } } int main(int argc, char** argv) { pst_desc_ll *d_ptr; char *fname = NULL; char *temp = NULL; //temporary char pointer char c; char *d_log = NULL; prog_name = argv[0]; pst_item *item = NULL; while ((c = getopt(argc, argv, "b:c:d:Vh"))!= -1) { switch (c) { case 'b': ldap_base = optarg; temp = strchr(ldap_base, ','); if (temp) { *temp = '\0'; ldap_org = strdup(ldap_base+2); // assume first 2 chars are o= *temp = ','; } break; case 'c': ldap_class = optarg; break; case 'd': d_log = optarg; break; case 'h': usage(); exit(0); break; case 'V': version(); exit(0); break; default: usage(); exit(1); break; } } if ((argc > optind) && (ldap_base) && (ldap_class) && (ldap_org)) { fname = argv[optind]; } else { usage(); exit(2); } #ifdef DEBUG_ALL // force a log file if (!d_log) d_log = "pst2ldif.log"; #endif DEBUG_INIT(d_log); DEBUG_REGISTER_CLOSE(); DEBUG_ENT("main"); RET_DERROR(pst_open(&pstfile, fname), 1, ("Error opening File\n")); RET_DERROR(pst_load_index(&pstfile), 2, ("Index Error\n")); pst_load_extended_attributes(&pstfile); d_ptr = pstfile.d_head; // first record is main record item = (pst_item*)pst_parse_item(&pstfile, d_ptr); if (!item || !item->message_store) { DEBUG_RET(); DIE(("main: Could not get root record\n")); } d_ptr = pst_getTopOfFolders(&pstfile, item); if (!d_ptr) { DEBUG_RET(); DIE(("Top of folders record not found. Cannot continue\n")); } pst_freeItem(item); // write the ldap header printf("dn: %s\n", ldap_base); printf("o: %s\n", ldap_org); printf("objectClass: organization\n\n"); printf("dn: cn=root, %s\n", ldap_base); printf("cn: root\n"); printf("objectClass: %s\n\n", ldap_class); process(d_ptr->child); // do the children of TOPF pst_close(&pstfile); DEBUG_RET(); free_strings(all_strings); return 0; } int usage() { version(); printf("Usage: %s [OPTIONS] {PST FILENAME}\n", prog_name); printf("OPTIONS:\n"); printf("\t-h\t- Help. This screen\n"); printf("\t-V\t- Version. Display program version\n"); printf("\t-b ldapbase\t- set the ldap base value\n"); printf("\t-c class \t- set the class of the ldap objects\n"); return 0; } int version() { printf("pst2ldif v%s\n", VERSION); #if BYTE_ORDER == BIG_ENDIAN printf("Big Endian implementation being used.\n"); #elif BYTE_ORDER == LITTLE_ENDIAN printf("Little Endian implementation being used.\n"); #else # error "Byte order not supported by this library" #endif #ifdef __GNUC__ printf("GCC %d.%d : %s %s\n", __GNUC__, __GNUC_MINOR__, __DATE__, __TIME__); #endif return 0; } // my_stristr varies from strstr in that its searches are case-insensitive char * my_stristr(char *haystack, char *needle) { char *x=haystack, *y=needle, *z = NULL; if (haystack == NULL || needle == NULL) return NULL; while (*y != '\0' && *x != '\0') { if (tolower(*y) == tolower(*x)) { // move y on one y++; if (z == NULL) { z = x; // store first position in haystack where a match is made } } else { y = needle; // reset y to the beginning of the needle z = NULL; // reset the haystack storage point } x++; // advance the search in the haystack } return z; } char *check_filename(char *fname) { char *t = fname; if (t == NULL) { return fname; } while ((t = strpbrk(t, "/\\:"))) { // while there are characters in the second string that we don't want *t = '_'; //replace them with an underscore } return fname; } const char *single(char *str) { if (!str) return ""; char *ret = rfc2426_escape(str); char *n = strchr(ret, '\n'); if (n) *n = '\0'; return ret; } const char *folded(char *str) { if (!str) return ""; char *ret = rfc2426_escape(str); char *n = ret; while ((n = strchr(n, '\n'))) { *n = ' '; } n = ret; while ((n = strchr(n, ','))) { *n = ' '; } return ret; } void multi(const char *fmt, char *str) { if (!str) return; char *ret = rfc2426_escape(str); char *n = ret; while ((n = strchr(ret, '\n'))) { *n = '\0'; printf(fmt, ret); ret = n+1; } if (*ret) printf(fmt, ret); } char *rfc2426_escape(char *str) { static char* buf = NULL; char *ret, *a, *b; int x = 0, y, z; if (str == NULL) ret = str; else { // calculate space required to escape all the following characters y = chr_count(str, '\\') + chr_count(str, ';'); z = 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 buf = (char*) realloc(buf, x); a = str; b = buf; while (*a != '\0') { switch(*a) { case '\\': case ';' : *(b++)='\\'; *b=*a; break; case '\r': // skip cr b--; break; default: *b=*a; } b++; a++; } *b = '\0'; // NUL-terminate the string (buf) ret = buf; } } return ret; } int chr_count(char *str, char x) { int r = 0; while (*str != '\0') { if (*str == x) r++; str++; } return r; }