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#include "../commonheaders.h"
#define PGP_WIN32 0x600
#include "sdk6/include/pgpEncode.h"
#include "sdk6/include/pgpErrors.h"
#include "sdk6/include/pgpKeys.h"
#include "sdk6/include/pgpOptionList.h"
#include "sdk6/include/pgpUserInterface.h"
#include "sdk6/include/pgpUtilities.h"
#include "sdk6/include/pgpFeatures.h"
#include "pgpw.h"
// pgpsdk.lib pgpsdknl.lib pgpsdkui.lib libcmt.lib
// /delayload:pgpsdk.dll,pgpsdknl.dll,pgpsdkui.dll
PGPContextRef pgpContext;
PGPKeySetRef pgpKeyDB = 0;
LPSTR pszPassphrase = 0;
LPSTR pgpErrMsg = 0;
#define pgpErrMsgLen 512
UINT pgpVer;
void ClearPGPError()
{
*pgpErrMsg = '\0';
}
bool CheckPGPError(PGPError err)
{
if (IsPGPError(err)) {
PGPSize ErrMsgLen = pgpErrMsgLen;
PGPGetErrorString(err, ErrMsgLen, pgpErrMsg);
return 1;
}
else {
*pgpErrMsg = '\0';
return 0;
}
}
#define _pgp_memcpy memmove
/*
void _pgp_memcpy(LPSTR dst, LPSTR src, UINT size)
{
for(UINT i=0;i<size;i++)
dst[i]=src[i];
}
*/
int __cdecl _pgp_init()
{
if (!pgpErrMsg)
pgpErrMsg = (LPSTR) LocalAlloc(LPTR,pgpErrMsgLen);
pgpVer = 0;
__try {
if (CheckPGPError(PGPsdkInit()) || CheckPGPError(PGPsdkUILibInit())) return 0;
PGPNewContext(kPGPsdkAPIVersion, &pgpContext);
}
__except ( EXCEPTION_EXECUTE_HANDLER ) {
return 0;
}
PGPGetSDKVersion(&pgpVer);
int minor = (pgpVer & 0x000FF000 ) >> 12;
switch(PGPMajorVersion(pgpVer)) {
case 2:
pgpVer = 1<<24 | ((minor+1)<<16) | (PGPRevVersion(pgpVer)<<8);
break;
case 3:
pgpVer = 1<<24 | ((minor+5)<<16) | (PGPRevVersion(pgpVer)<<8);
break;
default:
pgpVer = 1<<24 | (minor<<16) | (PGPRevVersion(pgpVer)<<8);
break;
}
return 1;
}
int __cdecl _pgp_done()
{
pgpVer = 0;
__try {
if(pgpErrMsg) LocalFree(pgpErrMsg);
if (pszPassphrase) PGPFreeData(pszPassphrase);
if (pgpKeyDB) PGPFreeKeySet(pgpKeyDB);
PGPFreeContext(pgpContext);
PGPsdkUILibCleanup();
PGPsdkCleanup();
pszPassphrase = pgpErrMsg = 0;
pgpKeyDB = 0;
pgpContext = 0;
}
__except ( EXCEPTION_EXECUTE_HANDLER ) {
return 0;
}
return 1;
}
int __cdecl _pgp_open_keyrings(LPSTR PubRingPath, LPSTR SecRingPath)
{
_pgp_close_keyrings();
PGPError err = PGPOpenDefaultKeyRings(pgpContext, kPGPKeyRingOpenFlags_None, &pgpKeyDB);
if (CheckPGPError(err)) {
return 0;
}
return 1;
}
int __cdecl _pgp_close_keyrings()
{
if (pgpKeyDB) {
PGPFreeKeySet(pgpKeyDB);
pgpKeyDB = 0;
}
return 1;
}
int __cdecl _pgp_get_version()
{
return pgpVer;
}
LPSTR __cdecl _pgp_get_error()
{
return pgpErrMsg;
}
LPSTR __cdecl _pgp_encrypt_keydb(LPCSTR szPlainMsg, PVOID pgpKeyID)
{
PGPKeyID *RemoteKeyID = (PGPKeyID *) pgpKeyID;
LPSTR szEncMsg = 0;
DWORD dwEncMsgLen;
ClearPGPError();
if (!pgpKeyDB)
return 0;
PGPFilterRef IDFilter;
PGPNewKeyIDFilter(pgpContext, RemoteKeyID, &IDFilter);
PGPKeySetRef PublicKey;
PGPFilterKeySet(pgpKeyDB, IDFilter, &PublicKey);
PGPError err = PGPEncode(pgpContext,
PGPOInputBuffer(pgpContext, szPlainMsg, lstrlen(szPlainMsg)),
PGPOArmorOutput(pgpContext, TRUE),
PGPOAllocatedOutputBuffer(pgpContext, (LPVOID *)&szEncMsg, 16384, (PGPUInt32 *)&dwEncMsgLen),
PGPOEncryptToKeySet(pgpContext, PublicKey),
PGPOVersionString(pgpContext, szVersionStr),
PGPOLastOption(pgpContext));
PGPFreeKeySet(PublicKey);
PGPFreeFilter(IDFilter);
if (CheckPGPError(err))
return 0;
LPSTR szMsg = (LPSTR) LocalAlloc(LPTR,dwEncMsgLen+1);
_pgp_memcpy(szMsg, szEncMsg, dwEncMsgLen);
szMsg[dwEncMsgLen] = 0;
PGPFreeData((LPVOID)szEncMsg);
return szMsg;
}
LPSTR __cdecl _pgp_decrypt_keydb(LPCSTR szEncMsg)
{
LPSTR szPlainMsg = 0;
DWORD dwPlainMsgLen;
ClearPGPError();
if (!pgpKeyDB)
return 0;
int iTry = 0;
do {
if (!pszPassphrase &&
PGPPassphraseDialog(pgpContext,
PGPOUIOutputPassphrase(pgpContext, &pszPassphrase),
PGPOLastOption(pgpContext)) == kPGPError_UserAbort) {
iTry = 3;
break;
}
PGPError err = PGPDecode(pgpContext,
PGPOInputBuffer(pgpContext, szEncMsg, lstrlen(szEncMsg)),
PGPOAllocatedOutputBuffer(pgpContext, (LPVOID *)&szPlainMsg, 16384, (PGPUInt32 *)&dwPlainMsgLen),
PGPOKeySetRef(pgpContext, pgpKeyDB),
PGPOPassphrase(pgpContext, pszPassphrase),
PGPOLastOption(pgpContext));
if (CheckPGPError(err))
iTry = 3;
else
if (!dwPlainMsgLen) {
PGPFreeData(pszPassphrase);
pszPassphrase = 0;
iTry++;
}
} while(!dwPlainMsgLen && iTry<3);
if(iTry == 3) return 0;
LPSTR szMsg = (LPSTR) LocalAlloc(LPTR,dwPlainMsgLen+1);
_pgp_memcpy(szMsg, szPlainMsg, dwPlainMsgLen);
szMsg[dwPlainMsgLen] = 0;
PGPFreeData((LPVOID)szPlainMsg);
return szMsg;
}
PGPError _pgp_import_key(PGPKeySetRef *keySet, LPCSTR pgpKey)
{
return PGPImportKeySet( pgpContext,
keySet,
PGPOInputBuffer( pgpContext,
pgpKey,
lstrlen(pgpKey) ),
PGPOLastOption( pgpContext ) );
}
LPSTR __cdecl _pgp_encrypt_key(LPCSTR szPlainMsg, LPCSTR pgpKey)
{
LPSTR szEncMsg = 0;
DWORD dwEncMsgLen;
PGPUInt32 dwKeys;
PGPKeySetRef PublicKey;
if (CheckPGPError(_pgp_import_key(&PublicKey,pgpKey)))
return 0;
PGPCountKeys(PublicKey, &dwKeys);
if(dwKeys==0) {
PGPFreeKeySet(PublicKey);
return 0;
}
PGPError err = PGPEncode(pgpContext,
PGPOInputBuffer(pgpContext, szPlainMsg, lstrlen(szPlainMsg)),
PGPOArmorOutput(pgpContext, TRUE),
PGPOAllocatedOutputBuffer(pgpContext, (LPVOID *)&szEncMsg, 16384, (PGPUInt32 *)&dwEncMsgLen),
PGPOEncryptToKeySet(pgpContext, PublicKey),
PGPOVersionString(pgpContext, szVersionStr),
PGPOLastOption(pgpContext));
PGPFreeKeySet(PublicKey);
if (CheckPGPError(err))
return 0;
LPSTR szMsg = (LPSTR) LocalAlloc(LPTR,dwEncMsgLen+1);
_pgp_memcpy(szMsg, szEncMsg, dwEncMsgLen);
szMsg[dwEncMsgLen] = 0;
PGPFreeData((LPVOID)szEncMsg);
return szMsg;
}
LPSTR __cdecl _pgp_decrypt_key(LPCSTR szEncMsg, LPCSTR pgpKey)
{
LPSTR szPlainMsg = 0;
DWORD dwPlainMsgLen;
PGPUInt32 dwKeys;
PGPKeySetRef PrivateKeyDB;
if (CheckPGPError(_pgp_import_key(&PrivateKeyDB,pgpKey)))
return 0;
PGPCountKeys(PrivateKeyDB, &dwKeys);
if(dwKeys==0) {
PGPFreeKeySet(PrivateKeyDB);
return 0;
}
int iTry = 0;
do {
if (!pszPassphrase &&
PGPPassphraseDialog(pgpContext,
PGPOUIOutputPassphrase(pgpContext, &pszPassphrase),
PGPOLastOption(pgpContext)) == kPGPError_UserAbort) {
iTry = 3;
break;
}
PGPError err = PGPDecode(pgpContext,
PGPOInputBuffer(pgpContext, szEncMsg, lstrlen(szEncMsg)),
PGPOAllocatedOutputBuffer(pgpContext, (LPVOID *)&szPlainMsg, 16384, (PGPUInt32 *)&dwPlainMsgLen),
PGPOKeySetRef(pgpContext, PrivateKeyDB),
PGPOPassphrase(pgpContext, pszPassphrase),
PGPOLastOption(pgpContext));
if (CheckPGPError(err))
iTry = 3;
else
if (!dwPlainMsgLen) {
PGPFreeData(pszPassphrase);
pszPassphrase = 0;
iTry++;
}
} while(!dwPlainMsgLen && iTry<3);
PGPFreeKeySet(PrivateKeyDB);
if(iTry == 3) return 0;
LPSTR szMsg = (LPSTR) LocalAlloc(LPTR,dwPlainMsgLen+1);
_pgp_memcpy(szMsg, szPlainMsg, dwPlainMsgLen);
szMsg[dwPlainMsgLen] = 0;
PGPFreeData((LPVOID)szPlainMsg);
return szMsg;
}
int __cdecl _pgp_size_keyid()
{
return sizeof(PGPKeyID);
}
PVOID __cdecl _pgp_select_keyid(HWND hDlg,LPSTR szKeyID)
{
PGPKeySetRef ContactKeyDB;
PGPError err;
err = PGPRecipientDialog(pgpContext, pgpKeyDB, TRUE, &ContactKeyDB,
PGPOUIParentWindowHandle(pgpContext, hDlg),
PGPOUIWindowTitle(pgpContext, "Select Contact's Key"),
PGPOLastOption(pgpContext));
if (err == kPGPError_UserAbort)
return 0;
PGPUInt32 dwKeys;
PGPCountKeys(ContactKeyDB, &dwKeys);
if (!dwKeys) {
return 0;
} else if (dwKeys > 1)
MessageBox(hDlg, "You selected more than one key. Only the first key will be used.", szModuleName, MB_ICONINFORMATION);
static PGPKeyID KeyID;
PGPKeyListRef ContactKeyList;
PGPOrderKeySet(ContactKeyDB, kPGPKeyIDOrdering, &ContactKeyList);
PGPKeyIterRef KeyIterRef;
PGPNewKeyIter(ContactKeyList, &KeyIterRef);
PGPKeyRef ContactKey;
PGPKeyIterNext(KeyIterRef, &ContactKey);
PGPGetKeyIDFromKey(ContactKey, &KeyID);
PGPGetKeyIDString(&KeyID, kPGPKeyIDString_Abbreviated, szKeyID);
PGPFreeKeyList(ContactKeyList);
PGPFreeKeyIter(KeyIterRef);
PGPFreeKeySet(ContactKeyDB);
return (PVOID)&KeyID;
}
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