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/*==LICENSE==*
CyanWorlds.com Engine - MMOG client, server and tools
Copyright (C) 2011 Cyan Worlds, Inc.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Additional permissions under GNU GPL version 3 section 7
If you modify this Program, or any covered work, by linking or
combining it with any of RAD Game Tools Bink SDK, Autodesk 3ds Max SDK,
NVIDIA PhysX SDK, Microsoft DirectX SDK, OpenSSL library, Independent
JPEG Group JPEG library, Microsoft Windows Media SDK, or Apple QuickTime SDK
(or a modified version of those libraries),
containing parts covered by the terms of the Bink SDK EULA, 3ds Max EULA,
PhysX SDK EULA, DirectX SDK EULA, OpenSSL and SSLeay licenses, IJG
JPEG Library README, Windows Media SDK EULA, or QuickTime SDK EULA, the
licensors of this Program grant you additional
permission to convey the resulting work. Corresponding Source for a
non-source form of such a combination shall include the source code for
the parts of OpenSSL and IJG JPEG Library used as well as that of the covered
work.
You can contact Cyan Worlds, Inc. by email legal@cyan.com
or by snail mail at:
Cyan Worlds, Inc.
14617 N Newport Hwy
Mead, WA 99021
*==LICENSE==*/
/*****************************************************************************
*
* $/Plasma20/Sources/Plasma/NucleusLib/pnMail/pnMail.cpp
*
***/
#include "Pch.h"
#pragma hdrstop
/*****************************************************************************
*
* Private
*
***/
enum EMailStep {
kMailStepConnect, // wait for 220, then send "helo" command
kMailStepAuth, // wait for 250, then send "AUTH PLAIN <base64data>"
kMailStepSender, // wait for 235/250, then send "mail from:" command
kMailStepRecipient, // wait for 250, then send "rcpt to:" command
kMailStepStartLetter, // wait for 250, then send "data" command
kMailStepLetter, // wait for 354, then send letter
kMailStepQuit, // wait for 250, then send "quit" command
kMailStepDisconnect, // wait for 221, then disconnect
};
struct MailTransaction {
LINK(MailTransaction) link;
AsyncSocket sock;
const char ** stepTable;
EMailStep step;
unsigned subStep;
EMailError error;
FMailResult callback;
void * param;
char * smtp;
char * sender;
char * recipient;
char * replyTo;
char * subject;
char * bodyEncoding;
char * body;
char * auth;
char buffer[1];
};
static bool MailNotifyProc (
AsyncSocket sock,
EAsyncNotifySocket code,
AsyncNotifySocket * notify,
void ** userState
);
static void __cdecl Send (
AsyncSocket sock,
const char str[],
...
);
/*****************************************************************************
*
* Private data
*
***/
static bool s_shutdown;
static CCritSect s_critsect;
static LISTDECL(MailTransaction, link) s_mail;
//===========================================================================
// Authenticated email sequence
// -> "220 catherine.cyan.com ESMTP\r\n"
// <- "HELO cyan.com\r\n"
// -> "250 catherine.cyan.com\r\n"
// <- "AUTH PLAIN XXXXXXXXX\r\n"
// -> "235 go ahead\r\n"
// <- "MAIL FROM:<UruClient@cyanworlds.com>\r\n"
// -> "250 ok mail from accepted\r\n"
// <- "RCPT TO:<UruCrashReport@cyanworlds.com>\r\n"
// -> "250 ok recipient accepted\r\n"
// <- "DATA\r\n"
// -> "354 ok, go ahead:\r\n"
// -> <message> + "\r\n.\r\n"
// -> "250 message accepted for delivery\r\n"
// <- "QUIT\r\n"
// -> "221 catherine.cyan.com\r\n"
//===========================================================================
static const char * s_waitStrAuth[] = {
"220 ", // kMailStepConnect
"250 ", // kMailStepAuth
"235 ", // kMailStepSender
"250 ", // kMailStepRecipient
"250 ", // kMailStepStartLetter
"354 ", // kMailStepLetter
"250 ", // kMailStepQuit
"221 ", // kMailStepDisconnect
};
//===========================================================================
// Unauthenticated email seqeunce
// -> "220 catherine.cyan.com ESMTP\r\n"
// <- "HELO cyan.com\r\n"
// -> "250 catherine.cyan.com\r\n"
// <- "MAIL FROM:<UruClient@cyanworlds.com>\r\n"
// -> "250 ok mail from accepted\r\n"
// <- "RCPT TO:<UruCrashReport@cyanworlds.com>\r\n"
// -> "250 ok recipient accepted\r\n"
// <- "DATA\r\n"
// -> "354 ok, go ahead:\r\n"
// -> <message> + "\r\n.\r\n"
// -> "250 message accepted for delivery\r\n"
// <- "QUIT\r\n"
// -> "221 catherine.cyan.com\r\n"
//===========================================================================
static const char * s_waitStrNoAuth[] = {
"220 ", // kMailStepConnect
nil, // kMailStepAuth
"250 ", // kMailStepSender
"250 ", // kMailStepRecipient
"250 ", // kMailStepStartLetter
"354 ", // kMailStepLetter
"250 ", // kMailStepQuit
"221 ", // kMailStepDisconnect
};
/*****************************************************************************
*
* Internal functions
*
***/
//===========================================================================
static bool AdvanceStep (
MailTransaction * transaction,
AsyncSocket sock
) {
switch (transaction->step) {
case kMailStepConnect: {
const char * host = transaction->sender;
const char * separator = StrChr(host, '@');
if (separator)
host = separator + 1;
Send(sock, "helo ", host, "\r\n", nil);
transaction->step = kMailStepSender;
if (transaction->auth[0])
transaction->step = kMailStepAuth;
}
break;
case kMailStepAuth:
Send(sock, "AUTH PLAIN ", transaction->auth, "\r\n", nil);
transaction->step = kMailStepSender;
break;
case kMailStepSender:
Send(sock, "mail from:<", transaction->sender, ">\r\n", nil);
transaction->step = kMailStepRecipient;
break;
case kMailStepRecipient: {
const char * start = transaction->recipient + transaction->subStep;
while (*start == ' ')
++start;
const char * term = StrChr(start, ';');
if (term) {
char * buffer = ALLOCA(char, term + 1 - start);
StrCopy(buffer, start, term + 1 - start);
Send(sock, "rcpt to:<", buffer, ">\r\n", nil);
transaction->subStep = term + 1 - transaction->recipient;
}
else {
Send(sock, "rcpt to:<", start, ">\r\n", nil);
transaction->step = kMailStepStartLetter;
transaction->subStep = 0;
}
}
break;
case kMailStepStartLetter:
Send(sock, "data\r\n", nil);
transaction->step = kMailStepLetter;
break;
case kMailStepLetter:
if (transaction->replyTo[0]) {
Send(
sock,
"Reply-to: ",
transaction->replyTo,
"\r\n",
nil
);
}
if (transaction->bodyEncoding) {
Send(
sock,
"From: ",
transaction->sender,
"\r\nTo: ",
transaction->recipient,
"\r\nSubject: ",
transaction->subject,
"\r\nContent-Type: text/plain; charset=",
transaction->bodyEncoding,
"\r\n\r\n",
transaction->body,
"\r\n.\r\n",
nil
);
}
else {
Send(
sock,
"From: ",
transaction->sender,
"\r\nTo: ",
transaction->recipient,
"\r\nSubject: ",
transaction->subject,
"\r\n\r\n",
transaction->body,
"\r\n.\r\n",
nil
);
}
transaction->step = kMailStepQuit;
break;
case kMailStepQuit:
Send(sock, "quit\r\n", nil);
transaction->step = kMailStepDisconnect;
break;
case kMailStepDisconnect:
return false;
DEFAULT_FATAL(transaction->step);
}
return true;
}
//===========================================================================
static bool NotifyRead (
AsyncSocket sock,
AsyncNotifySocketRead * read,
MailTransaction * transaction
) {
// Parse available lines looking for an acknowledgement of last command
const char * compareStr = transaction->stepTable[transaction->step];
unsigned compareLen = StrLen(compareStr);
unsigned offset = 0;
for (;;) {
const char * source = (const char *)&read->buffer[offset];
// Search for an end-of-line marker
const char * eol = StrChr(source, '\n', read->bytes - offset);
if (!eol)
break;
offset += (eol + 1 - source);
// Search for an acknowledgement
if (!StrCmp(source, compareStr, compareLen)) {
read->bytesProcessed = offset;
return AdvanceStep(transaction, sock);
}
// An error was received; log it and bail
LogMsg(
kLogError,
"Mail: step %u error '%.*s'",
transaction->step,
eol - source - 1,
source
);
transaction->error = kMailErrServerError;
return false;
}
// We did not find an acknowledgement, so skip past fully-received lines
// and wait for more data to arrive
read->bytesProcessed = offset;
return true;
}
//===========================================================================
static void DestroyTransaction (MailTransaction * transaction) {
// Remove transaction from list so that it can
// be safely deleted outside the critical section
s_critsect.Enter();
{
s_mail.Unlink(transaction);
}
s_critsect.Leave();
// Perform callback if requested
if (transaction->callback) {
transaction->callback(
transaction->param,
transaction->error
);
}
DEL(transaction);
}
//===========================================================================
static void MailLookupProc (
void * param,
const wchar * ,
unsigned addrCount,
const NetAddress addrs[]
) {
// If no address was found, cancel the transaction
MailTransaction * transaction = (MailTransaction *) param;
if (!addrCount) {
LogMsg(kLogError,"Mail: failed to resolve %s", transaction->smtp);
transaction->error = kMailErrDnsFailed;
DestroyTransaction(transaction);
return;
}
// Initiate a connection
AsyncCancelId cancelId;
AsyncSocketConnect(
&cancelId,
addrs[0],
MailNotifyProc,
transaction
);
}
//===========================================================================
static bool MailNotifyProc (
AsyncSocket sock,
EAsyncNotifySocket code,
AsyncNotifySocket * notify,
void ** userState
) {
switch (code) {
case kNotifySocketConnectFailed: {
MailTransaction * transaction = (MailTransaction *)notify->param;
LogMsg(kLogError, "Mail: unable to connect to %s", transaction->smtp);
transaction->error = kMailErrConnectFailed;
DestroyTransaction(transaction);
}
break;
case kNotifySocketConnectSuccess: {
MailTransaction * transaction = (MailTransaction *) notify->param;
*userState = notify->param;
transaction->sock = sock;
}
break;
case kNotifySocketRead: {
MailTransaction * transaction = (MailTransaction *) *userState;
return NotifyRead(sock, (AsyncNotifySocketRead *) notify, transaction);
}
break;
case kNotifySocketDisconnect: {
MailTransaction * transaction = (MailTransaction *) *userState;
if ((transaction->step != kMailStepDisconnect) && !transaction->error) {
transaction->error = kMailErrDisconnected;
LogMsg(kLogError, "Mail: unexpected disconnection from %s", transaction->smtp);
}
DestroyTransaction(transaction);
AsyncSocketDelete(sock);
}
break;
}
return !s_shutdown;
}
//===========================================================================
static void __cdecl Send (
AsyncSocket sock,
const char str[],
...
) {
// Count bytes
unsigned bytes = 1;
{
va_list argList;
va_start(argList, str);
for (const char * source = str; source; source = va_arg(argList, const char *))
bytes += StrLen(source);
va_end(argList);
}
// Allocate string buffer
char * packed;
const unsigned kStackBufSize = 8 * 1024;
if (bytes > kStackBufSize)
packed = (char *) ALLOC(bytes);
else
packed = (char *) _alloca(bytes);
// Pack the string
{
va_list argList;
va_start(argList, str);
char * dest = packed;
for (const char * source = str; source; source = va_arg(argList, const char *))
dest += StrCopyLen(dest, source, packed + bytes - dest);
va_end(argList);
}
// Send the string
AsyncSocketSend(sock, packed, bytes - 1);
// Free the string
if (bytes > kStackBufSize)
FREE(packed);
}
//===========================================================================
static void IMail (
const char * stepTable[],
const char smtp[],
const char sender[],
const char recipient[],
const char replyTo[],
const char subject[],
const char body[],
const char auth[],
EMailEncoding bodyEncoding,
FMailResult callback,
void * param
) {
static const char * utf8 = "\"utf-8\"";
const char * encodingStr;
if (bodyEncoding == kMailEncodeUtf8)
encodingStr = utf8;
else
encodingStr = "";
// Calculate string lengths
unsigned lenSmtp = StrLen(smtp);
unsigned lenSender = StrLen(sender);
unsigned lenRecipient = StrLen(recipient);
unsigned lenReplyTo = StrLen(replyTo);
unsigned lenSubject = StrLen(subject);
unsigned lenBodyEncoding = StrLen(encodingStr);
unsigned lenBody = StrLen(body);
unsigned lenAuth = StrLen(auth);
// Calculate the required buffer size for all strings
unsigned bytes = (
lenSmtp + 1 +
lenSender + 1 +
lenRecipient + 1 +
lenReplyTo + 1 +
lenSubject + 1 +
lenBody + 1 +
lenAuth + 1
) * sizeof(char);
if (lenBodyEncoding)
bytes += (lenBodyEncoding + 1) * sizeof(char);
// Create a transaction record
MailTransaction * transaction = new(
ALLOC(offsetof(MailTransaction, buffer) + bytes)
) MailTransaction;
transaction->stepTable = stepTable;
transaction->sock = nil;
transaction->step = kMailStepConnect;
transaction->subStep = 0;
transaction->error = kMailSuccess;
transaction->callback = callback;
transaction->param = param;
unsigned offset = 0;
transaction->smtp = transaction->buffer + offset;
offset += StrCopyLen(transaction->smtp, smtp, lenSmtp + 1) + 1;
transaction->sender = transaction->buffer + offset;
offset += StrCopyLen(transaction->sender, sender, lenSender + 1) + 1;
transaction->recipient = transaction->buffer + offset;
offset += StrCopyLen(transaction->recipient, recipient, lenRecipient + 1) + 1;
transaction->replyTo = transaction->buffer + offset;
offset += StrCopyLen(transaction->replyTo, replyTo, lenReplyTo + 1) + 1;
transaction->subject = transaction->buffer + offset;
offset += StrCopyLen(transaction->subject, subject, lenSubject + 1) + 1;
if (lenBodyEncoding) {
transaction->bodyEncoding = transaction->buffer + offset;
offset += StrCopyLen(transaction->bodyEncoding, encodingStr, lenBodyEncoding + 1) + 1;
}
else {
transaction->bodyEncoding = nil;
}
transaction->body = transaction->buffer + offset;
offset += StrCopyLen(transaction->body, body, lenBody + 1) + 1;
transaction->auth = transaction->buffer + offset;
offset += StrCopyLen(transaction->auth, auth, lenAuth + 1) + 1;
ASSERT(offset == bytes);
// Start the transaction with a dns lookup
const unsigned kSmtpPort = 25;
wchar smtpName[256];
StrToUnicode(smtpName, smtp, arrsize(smtpName));
// Add transaction to global list
bool shutdown;
s_critsect.Enter();
{
shutdown = s_shutdown;
s_mail.Link(transaction);
}
s_critsect.Leave();
if (shutdown) {
DestroyTransaction(transaction);
}
else {
NetAddress addr;
if (NetAddressFromString(&addr, smtpName, kSmtpPort)) {
AsyncCancelId cancelId;
AsyncSocketConnect(
&cancelId,
addr,
MailNotifyProc,
transaction
);
}
else {
AsyncCancelId cancelId;
AsyncAddressLookupName(
&cancelId,
MailLookupProc,
smtpName,
kSmtpPort,
transaction
);
}
}
}
/****************************************************************************
*
* Exported functions
*
***/
//===========================================================================
void MailEncodePassword (
const char username[],
const char password[],
ARRAY(char) * emailAuth
) {
// base64_encode("\0#{user}\0#{secret}")
emailAuth->Reserve(512);
emailAuth->Push(0);
emailAuth->Add(username, StrBytes(username));
emailAuth->Add(password, StrBytes(password));
unsigned srcChars = emailAuth->Bytes();
// Allocate space for encoded data
unsigned dstChars = Base64EncodeSize(srcChars);
char * dstData = emailAuth->New(dstChars);
// Encode data and move it back to the front of the array
dstChars = Base64Encode(
srcChars,
(const byte *) emailAuth->Ptr(),
dstChars,
dstData
);
emailAuth->Move(
0,
srcChars,
dstChars
);
emailAuth->SetCountFewer(dstChars);
}
//===========================================================================
void Mail (
const char smtp[],
const char sender[],
const char recipient[], // multiple recipients separated by semicolons
const char subject[],
const char body[],
const char username[],
const char password[],
const char replyTo[],
EMailEncoding bodyEncoding,
FMailResult callback,
void * param
) {
s_shutdown = false;
// Get email authorization
const char * auth;
const char ** stepTable;
ARRAY(char) authBuffer;
if (!password || !*password) {
// No password is specified, use non-authenticated email
auth = "";
stepTable = s_waitStrNoAuth;
}
else if (!username || !*username) {
// No username specified, user is providing the base64 encoded secret
auth = password;
stepTable = s_waitStrAuth;
}
else {
MailEncodePassword(username, password, &authBuffer);
auth = authBuffer.Ptr();
stepTable = s_waitStrAuth;
}
IMail(
stepTable,
smtp,
sender,
recipient,
replyTo ? replyTo : "",
subject,
body,
auth,
bodyEncoding,
callback,
param
);
}
//===========================================================================
void MailStop () {
s_critsect.Enter();
{
s_shutdown = true;
MailTransaction * transaction = s_mail.Head();
for (; transaction; transaction = s_mail.Next(transaction)) {
if (transaction->sock)
AsyncSocketDisconnect(transaction->sock, true);
transaction->error = kMailErrClientCanceled;
}
}
s_critsect.Leave();
AsyncAddressLookupCancel(
MailLookupProc,
0 // cancel all
);
AsyncSocketConnectCancel(
MailNotifyProc,
0 // cancel all
);
}
//===========================================================================
bool MailQueued () {
bool queued;
s_critsect.Enter();
queued = s_mail.Head() != nil;
s_critsect.Leave();
return queued;
}
//============================================================================
const wchar * MailErrorToString (EMailError error) {
switch (error) {
case kMailSuccess: return L"kMailSuccess";
case kMailErrDnsFailed: return L"kMailErrDnsFailed";
case kMailErrConnectFailed: return L"kMailErrConnectFailed";
case kMailErrDisconnected: return L"kMailErrDisconnected";
case kMailErrClientCanceled: return L"kMailErrClientCanceled";
case kMailErrServerError: return L"kMailErrServerError";
DEFAULT_FATAL(error);
}
}