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RFC1460 - Post Office Protocol - Version 3

王朝other·作者佚名  2008-05-31
窄屏简体版  字體: |||超大  

Network Working Group M. Rose

Request for Comments: 1460 Dover Beach Consulting, Inc.

Obsoletes: 1225 June 1993

Post Office Protocol - Version 3

Status of this Memo

This RFCspecifies an IAB standards track protocol for the Internet

community, and requests discussion and suggestions for improvements.

Please refer to the current edition of the "IAB Official Protocol

Standards" for the standardization state and status of this protocol.

Distribution of this memo is unlimited.

Overview

This memo is a revision to RFC1225, a Draft Standard. It makes the

following changes from that document:

- the RPOP facility is removed;

- the optional APOP facility is added (which is in interoperable,

operational use in at least three implementations);

- a typo was corrected with respect to the interaction of LAST

and RSET;

- section numbers were added; and,

- an acknowledgements section was added.

1. IntrodUCtion

On certain types of smaller nodes in the Internet it is often

impractical to maintain a message transport system (MTS). For

example, a workstation may not have sufficient resources (cycles,

disk space) in order to permit a SMTP server [RFC821] and associated

local mail delivery system to be kept resident and continuously

running.

Similarly, it may be eXPensive (or impossible) to keep a personal

computer interconnected to an IP-style network for long amounts of

time (the node is lacking the resource known as "connectivity").

Despite this, it is often very useful to be able to manage mail on

these smaller nodes, and they often support a user agent (UA) to aid

the tasks of mail handling. To solve this problem, a node which can

support an MTS entity offers a maildrop service to these less endowed

nodes. The Post Office Protocol - Version 3 (POP3) is intended to

permit a workstation to dynamically Access a maildrop on a server

host in a useful fashion. Usually, this means that the POP3 is used

to allow a workstation to retrieve mail that the server is holding

for it.

For the remainder of this memo, the term "client host" refers to a

host making use of the POP3 service, while the term "server host"

refers to a host which offers the POP3 service.

2. A Short Digression

This memo does not specify how a client host enters mail into the

transport system, although a method consistent with the philosophy of

this memo is presented here:

When the user agent on a client host wishes to enter a message

into the transport system, it establishes an SMTP connection to

its relay host (this relay host could be, but need not be, the

POP3 server host for the client host).

If this method is followed, then the client host appears to the MTS

as a user agent, and should NOT be regarded as a "trusted" MTS entity

in any sense whatsoever. This concept, along with the role of the

POP3 as a part of a split-UA model is discussed later in this memo.

3. Basic Operation

Initially, the server host starts the POP3 service by listening on

TCP port 110. When a client host wishes to make use of the service,

it establishes a TCP connection with the server host. When the

connection is established, the POP3 server sends a greeting. The

client and POP3 server then exchange commands and responses

(respectively) until the connection is closed or aborted.

Commands in the POP3 consist of a keyWord possibly followed by an

argument. All commands are terminated by a CRLF pair.

Responses in the POP3 consist of a success indicator and a keyword

possibly followed by additional information. All responses are

terminated by a CRLF pair. There are currently two success

indicators: positive ("+OK") and negative ("-ERR").

Responses to certain commands are multi-line. In these cases, which

are clearly indicated below, after sending the first line of the

response and a CRLF, any additional lines are sent, each terminated

by a CRLF pair. When all lines of the response have been sent, a

final line is sent, consisting of a termination octet (decimal code

046, ".") and a CRLF pair. If any line of the multi-line response

begins with the termination octet, the line is "byte-stuffed" by

pre-pending the termination octet to that line of the response.

Hence a multi-line response is terminated with the five octets

"CRLF.CRLF". When examining a multi-line response, the client checks

to see if the line begins with the termination octet. If so and if

octets other than CRLF follow, the the first octet of the line (the

termination octet) is stripped away. If so and if CRLF immediately

follows the termination character, then the response from the POP

server is ended and the line containing ".CRLF" is not considered

part of the multi-line response.

A POP3 session progresses through a number of states during its

lifetime. Once the TCP connection has been opened and the POP3

server has sent the greeting, the session enters the AUTHORIZATION

state. In this state, the client must identify itself to the POP3

server. Once the client has successfully done this, the server

acquires resources associated with the client's maildrop, and the

session enters the TRANSACTION state. In this state, the client

requests actions on the part of the POP3 server. When the client has

finished its transactions, the session enters the UPDATE state. In

this state, the POP3 server releases any resources acquired during

the TRANSACTION state and says goodbye. The TCP connection is then

closed.

4. The AUTHORIZATION State

Once the TCP connection has been opened by a POP3 client, the POP3

server issues a one line greeting. This can be any string terminated

by CRLF. An example might be:

S. +OK POP3 server ready

Note that this greeting is a POP3 reply. The POP3 server should

always give a positive response as the greeting.

The POP3 session is now in the AUTHORIZATION state. The client must

now issue the USER command. If the POP3 server responds with a

positive success indicator ("+OK"), then the client may issue either

the PASS command to complete the authorization, or the QUIT command

to terminate the POP3 session. If the POP3 server responds with a

negative success indicator ("-ERR") to the USER command, then the

client may either issue a new USER command or may issue the QUIT

command.

When the client issues the PASS command, the POP3 server uses the

argument pair from the USER and PASS commands to determine if the

client should be given access to the appropriate maildrop. If so,

the POP3 server then acquires an exclusive-access lock on the

maildrop. If the lock is successfully acquired, the POP3 server

parses the maildrop into individual messages (read note below),

determines the last message (if any) present in the maildrop that was

referenced by the RETR command, and responds with a positive success

indicator. The POP3 session now enters the TRANSACTION state. If

the lock can not be acquired or the client should is denied access to

the appropriate maildrop or the maildrop can't be parsed for some

reason, the POP3 server responds with a negative success indicator.

(If a lock was acquired but the POP3 server intends to respond with a

negative success indicator, the POP3 server must release the lock

prior to rejecting the command.) At this point, the client may

either issue a new USER command and start again, or the client may

issue the QUIT command.

NOTE: Minimal implementations of the POP3 need only be

able to break a maildrop into its component messages;

they need NOT be able to parse individual messages.

More advanced implementations may wish to have this

capability, for reasons discussed later.

After the POP3 server has parsed the maildrop into individual

messages, it assigns a message-id to each message, and notes the size

of the message in octets. The first message in the maildrop is

assigned a message-id of "1", the second is assigned "2", and so on,

so that the n'th message in a maildrop is assigned a message-id of

"n". In POP3 commands and responses, all message-id's and message

sizes are expressed in base-10 (i.e., decimal).

It sets the "highest number accessed" to be that of the last message

referenced by the RETR command.

Here are summaries for the three POP3 commands discussed thus far:

USER name

Arguments: a server specific user-id (required)

Restrictions: may only be given in the AUTHORIZATION

state after the POP3 greeting or after an

unsuccessful USER or PASS command

Possible Responses:

+OK name is welcome here

-ERR never heard of name

Examples:

C: USER mrose

S: +OK mrose is a real hoopy frood

...

C: USER frated

S: -ERR sorry, frated doesn't get his mail here

PASS string

Arguments: a server/user-id specific password (required)

Restrictions: may only be given in the AUTHORIZATION

state after a successful USER command

Possible Responses:

+OK maildrop locked and ready

-ERR invalid password

-ERR unable to lock maildrop

Examples:

C: USER mrose

S: +OK mrose is a real hoopy frood

C: PASS secret

S: +OK mrose's maildrop has 2 messages

(320 octets)

...

C: USER mrose

S: +OK mrose is a real hoopy frood

C: PASS secret

S: -ERR unable to lock mrose's maildrop, file

already locked

QUIT

Arguments: none

Restrictions: none

Possible Responses:

+OK

Examples:

C: QUIT

S: +OK dewey POP3 server signing off

5. The TRANSACTION State

Once the client has successfully identified itself to the POP3 server

and the POP3 server has locked and burst the appropriate maildrop,

the POP3 session is now in the TRANSACTION state. The client may now

issue any of the following POP3 commands repeatedly. After each

command, the POP3 server issues a response. Eventually, the client

issues the QUIT command and the POP3 session enters the UPDATE state.

Here are the POP3 commands valid in the TRANSACTION state:

STAT

Arguments: none

Restrictions: may only be given in the TRANSACTION state.

Discussion:

The POP3 server issues a positive response with a line

containing information for the maildrop. This line is

called a "drop listing" for that maildrop.

In order to simplify parsing, all POP3 servers are

required to use a certain format for drop listings.

The first octets present must indicate the number of

messages in the maildrop. Following this is the size

of the maildrop in octets. This memo makes no

requirement on what follows the maildrop size.

Minimal implementations should just end that line of

the response with a CRLF pair. More advanced

implementations may include other information.

NOTE: This memo STRONGLY discourages

implementations from supplying additional

information in the drop listing. Other,

optional, facilities are discussed later on

which permit the client to parse the messages

in the maildrop.

Note that messages marked as deleted are not counted in

either total.

Possible Responses:

+OK nn mm

Examples:

C: STAT

S: +OK 2 320

LIST [msg]

Arguments: a message-id (optionally) If a message-id is

given, it may NOT refer to a message marked as

deleted.

Restrictions: may only be given in the TRANSACTION state.

Discussion:

If an argument was given and the POP3 server issues a

positive response with a line containing information

for that message. This line is called a "scan listing"

for that message.

If no argument was given and the POP3 server issues a

positive response, then the response given is

multi-line. After the initial +OK, for each message

in the maildrop, the POP3 server responds with a line

containing information for that message. This line

is called a "scan listing" for that message.

In order to simplify parsing, all POP3 servers are

required to use a certain format for scan listings.

The first octets present must be the message-id of

the message. Following the message-id is the size of

the message in octets. This memo makes no requirement

on what follows the message size in the scan listing.

Minimal implementations should just end that line of

the response with a CRLF pair. More advanced

implementations may include other information, as

parsed from the message.

NOTE: This memo STRONGLY discourages

implementations from supplying additional

information in the scan listing. Other, optional,

facilities are discussed later on which permit

the client to parse the messages in the maildrop.

Note that messages marked as deleted are not listed.

Possible Responses:

+OK scan listing follows

-ERR no such message

Examples:

C: LIST

S: +OK 2 messages (320 octets)

S: 1 120

S: 2 200

S: .

...

C: LIST 2

S: +OK 2 200

...

C: LIST 3

S: -ERR no such message, only 2 messages in

maildrop

RETR msg

Arguments: a message-id (required) This message-id may

NOT refer to a message marked as deleted.

Restrictions: may only be given in the TRANSACTION state.

Discussion:

If the POP3 server issues a positive response, then the

response given is multi-line. After the initial +OK,

the POP3 server sends the message corresponding to the

given message-id, being careful to byte-stuff the

termination character (as with all multi-line

responses).

If the number associated with this message is higher

than the "highest number accessed" in the maildrop, the

POP3 server updates the "highest number accessed" to

the number associated with this message.

Possible Responses:

+OK message follows

-ERR no such message

Examples:

C: RETR 1

S: +OK 120 octets

S: <the POP3 server sends the entire message here>

S: .

DELE msg

Arguments: a message-id (required) This message-id

may NOT refer to a message marked as deleted.

Restrictions: may only be given in the TRANSACTION state.

Discussion:

The POP3 server marks the message as deleted. Any

future reference to the message-id associated with the

message in a POP3 command generates an error. The POP3

server does not actually delete the message until the

POP3 session enters the UPDATE state.

If the number associated with this message is higher

than the "highest number accessed" in the maildrop,

the POP3 server updates the "highest number accessed"

to the number associated with this message.

Possible Responses:

+OK message deleted

-ERR no such message

Examples:

C: DELE 1

S: +OK message 1 deleted

...

C: DELE 2

S: -ERR message 2 already deleted

NOOP

Arguments: none

Restrictions: may only be given in the TRANSACTION state.

Discussion:

The POP3 server does nothing, it merely replies with a

positive response.

Possible Responses:

+OK

Examples:

C: NOOP

S: +OK

LAST

Arguments: none

Restrictions: may only be issued in the TRANSACTION state.

Discussion:

The POP3 server issues a positive response with a line

containing the highest message number which accessed.

Zero is returned in case no message in the maildrop has

been accessed during previous transactions. A client

may thereafter infer that messages, if any, numbered

greater than the response to the LAST command are

messages not yet accessed by the client.

Possible Response:

+OK nn

Examples:

C: STAT

S: +OK 4 320

C: LAST

S: +OK 1

C: RETR 3

S: +OK 120 octets

S: <the POP3 server sends the entire message

here>

S: .

C: LAST

S: +OK 3

C: DELE 2

S: +OK message 2 deleted

C: LAST

S: +OK 3

C: RSET

S: +OK

C: LAST

S: +OK 0

RSET

Arguments: none

Restrictions: may only be given in the TRANSACTION

state.

Discussion:

If any messages have been marked as deleted by the POP3

server, they are unmarked. The POP3 server then

replies with a positive response. In addition, the

"highest number accessed" is also reset to zero.

Possible Responses:

+OK

Examples:

C: RSET

S: +OK maildrop has 2 messages (320 octets)

6. The UPDATE State

When the client issues the QUIT command from the TRANSACTION state,

the POP3 session enters the UPDATE state. (Note that if the client

issues the QUIT command from the AUTHORIZATION state, the POP3

session terminates but does NOT enter the UPDATE state.)

QUIT

Arguments: none

Restrictions: none

Discussion:

The POP3 server removes all messages marked as deleted

from the maildrop. It then releases the

exclusive-access lock on the maildrop and replies as

to the success of these operations. The TCP

connection is then closed.

Possible Responses:

+OK

Examples:

C: QUIT

S: +OK dewey POP3 server signing off (maildrop

empty)

...

C: QUIT

S: +OK dewey POP3 server signing off (2 messages

left)

...

7. Optional POP3 Commands

The POP3 commands discussed above must be supported by all minimal

implementations of POP3 servers.

The optional POP3 commands described below permit a POP3 client

greater freedom in message handling, while preserving a simple POP3

server implementation.

NOTE: This memo STRONGLY encourages implementations to

support these commands in lieu of developing augmented

drop and scan listings. In short, the philosophy of

this memo is to put intelligence in the part of the

POP3 client and not the POP3 server.

TOP msg n

Arguments: a message-id (required) and a number. This

message-id may NOT refer to a message marked as

deleted.

Restrictions: may only be given in the TRANSACTION state.

Discussion:

If the POP3 server issues a positive response, then

the response given is multi-line. After the initial

+OK, the POP3 server sends the headers of the message,

the blank line separating the headers from the body,

and then the number of lines indicated message's body,

being careful to byte-stuff the termination character

(as with all multi-line responses).

Note that if the number of lines requested by the POP3

client is greater than than the number of lines in the

body, then the POP3 server sends the entire message.

Possible Responses:

+OK top of message follows

-ERR no such message

Examples:

C: TOP 10

S: +OK

S: <the POP3 server sends the headers of the

message, a blank line, and the first 10 lines

of the body of the message>

S: .

...

C: TOP 100

S: -ERR no such message

APOP name digest

Arguments: a server specific user-id and a digest string

(both required).

Restrictions: may only be given in the AUTHORIZATION

state after the POP3 greeting

Discussion:

Normally, each POP3 session starts with a USER/PASS

exchange. This results in a server/user-id specific

password being sent in the clear on the network. For

intermittent use of POP3, this may not introduce a

sizable risk. However, many POP3 client

implementations connect to the POP3 server on a

regular basis -- to check for new mail. Further the

interval of session initiation may be on the order of

five minutes. Hence, the risk of password capture is

greatly enhanced.

An alternate method of authentication is required

which provides for both origin authentication and

replay protection, but which does not involve sending

a password in the clear over the network. The APOP

command provides this functionality.

A POP3 server which implements the APOP command will

include a timestamp in its banner greeting. The

syntax of the timestamp corresponds to the "msg-id"

in [RFC822], and MUST be different each time the POP3

server issues a banner greeting. For example, on a

UNIX implementation in which a separate UNIX process

is used for each instance of a POP3 server, the

syntax of the timestamp might be:

<process-ID.clock@hostname>

where "process-ID" is the decimal value of the

process's PID, clock is the decimal value of the

system clock, and hostname is the fully-qualified

domain-name corresponding to the host where the POP3

server is running.

The POP3 client makes note of this timestamp, and

then issues the APOP command. The "name" parameter

has identical semantics to the "name" parameter of

the USER command. The "digest" parameter is

calculated by applying the MD5 algorithm [RFC1321] to

a string consisting of the timestamp (including

angle-brackets) followed by a shared secret. This

shared secret is a string known only to the POP3

client and server. Great care should be taken to

prevent unauthorized disclosure of the secret, as

knowledge of the secret will allow any entity to

successfully masquerade as the named user. The

"digest" parameter itself is a 16-octet value which

is sent in hexadecimal format, using lower-case ASCII

characters.

When the POP3 server receives the APOP command, it

verifies the digest provided. If the digest is

correct, the POP3 server issues a positive response,

and the POP3 session enters the TRANSACTION state.

Otherwise, a negative response is issued and the POP3

session remains in the AUTHORIZATION state.

Possible Responses:

+OK maildrop locked and ready

-ERR permission denied

Examples:

S: +OK POP3 server ready <1896.697170952@dbc.mtview.ca.us>

C: APOP mrose c4c9334bac560ecc979e58001b3e22fb

S: +OK maildrop has 1 message (369 octets)

In this example, the shared secret is the string "tanstaaf".

Hence, the MD5 algorithm is applied to the string

<1896.697170952@dbc.mtview.ca.us>tanstaaf

which produces a digest value of

c4c9334bac560ecc979e58001b3e22fb

8. POP3 Command Summary

Minimal POP3 Commands:

USER name valid in the AUTHORIZATION state

PASS string

QUIT

STAT valid in the TRANSACTION state

LIST [msg]

RETR msg

DELE msg

NOOP

LAST

RSET

QUIT valid in the UPDATE state

Optional POP3 Commands:

APOP name digest valid in the AUTHORIZATION state

TOP msg n valid in the TRANSACTION state

POP3 Replies:

+OK

-ERR

Note that with the exception of the STAT command, the reply given

by the POP3 server to any command is significant only to "+OK"

and "-ERR". Any text occurring after this reply may be ignored

by the client.

9. Example POP3 Session

S: <wait for connection on TCP port 110>

...

C: <open connection>

S: +OK POP3 server ready <1896.697170952@dbc.mtview.ca.us>

C: APOP mrose c4c9334bac560ecc979e58001b3e22fb

S: +OK mrose's maildrop has 2 messages (320 octets)

C: STAT

S: +OK 2 320

C: LIST

S: +OK 2 messages (320 octets)

S: 1 120

S: 2 200

S: .

C: RETR 1

S: +OK 120 octets

S: <the POP3 server sends message 1>

S: .

C: DELE 1

S: +OK message 1 deleted

C: RETR 2

S: +OK 200 octets

S: <the POP3 server sends message 2>

S: .

C: DELE 2

S: +OK message 2 deleted

C: QUIT

S: +OK dewey POP3 server signing off (maildrop empty)

C: <close connection>

S: <wait for next connection>

10. Message Format

All messages transmitted during a POP3 session are assumed to conform

to the standard for the format of Internet text messages [RFC822].

It is important to note that the byte count for a message on the

server host may differ from the octet count assigned to that message

due to local conventions for designating end-of-line. Usually,

during the AUTHORIZATION state of the POP3 session, the POP3 client

can calculate the size of each message in octets when it parses the

maildrop into messages. For example, if the POP3 server host

internally represents end-of-line as a single character, then the

POP3 server simply counts each occurrence of this character in a

message as two octets. Note that lines in the message which start

with the termination octet need not be counted twice, since the POP3

client will remove all byte-stuffed termination characters when it

receives a multi-line response.

11. The POP and the Split-UA model

The underlying paradigm in which the POP3 functions is that of a

split-UA model. The POP3 client host, being a remote PC based

workstation, acts solely as a client to the message transport system.

It does not provide delivery/authentication services to others.

Hence, it is acting as a UA, on behalf of the person using the

workstation. Furthermore, the workstation uses SMTP to enter mail

into the MTS.

In this sense, we have two UA functions which interface to the

message transport system: Posting (SMTP) and Retrieval (POP3). The

entity which supports this type of environment is called a split-UA

(since the user agent is split between two hosts which must

interoperate to provide these functions).

ASIDE: Others might term this a remote-UA instead.

There are arguments supporting the use of both terms.

This memo has explicitly referenced TCP as the underlying transport

agent for the POP3. This need not be the case. In the MZnet split-

UA, for example, personal micro-computer systems are used which do

not have IP-style networking capability [MZnet]. To connect to the

POP3 server host, a PC establishes a terminal connection using some

simple protocol (PhoneNet). A program on the PC drives the

connection, first establishing a login session as a normal user. The

login shell for this pseudo-user is a program which drives the other

half of the terminal protocol and communicates with one of two

servers. Although MZnet can support several PCs, a single pseudo-

user login is present on the server host. The user-id and password

for this pseudo-user login is known to all members of MZnet. Hence,

the first action of the login shell, after starting the terminal

protocol, is to demand a USER/PASS authorization pair from the PC.

This second level of authorization is used to ascertain who is

interacting with the MTS. Although the server host is deemed to

support a "trusted" MTS entity, PCs in MZnet are not. Naturally, the

USER/PASS authorization pair for a PC is known only to the owner of

the PC (in theory, at least).

After successfully verifying the identity of the client, a modified

SMTP server is started, and the PC posts mail with the server host.

After the QUIT command is given to the SMTP server and it terminates,

a modified POP3 server is started, and the PC retrieves mail from the

server host. After the QUIT command is given to the POP3 server and

it terminates, the login shell for the pseudo-user terminates the

terminal protocol and logs the job out. The PC then closes the

terminal connection to the server host.

The SMTP server used by MZnet is modified in the sense that it knows

that it's talking to a user agent and not a "trusted" entity in the

message transport system. Hence, it does performs the validation

activities normally performed by an entity in the MTS when it accepts

a message from a UA.

The POP3 server used by MZnet is modified in the sense that it does

not require a USER/PASS combination before entering the TRANSACTION

state. The reason for this (of course) is that the PC has already

identified itself during the second-level authorization step

described above.

NOTE: Truth in advertising laws require that the author

of this memo state that MZnet has not actually been

fully implemented. The concepts presented and proven

by the project led to the notion of the MZnet

split-slot model. This notion has inspired the

split-UA concept described in this memo, led to the

author's interest in the POP, and heavily influenced

the the description of the POP3 herein.

In fact, some UAs present in the Internet already support the notion

of posting directly to an SMTP server and retrieving mail directly

from a POP3 server, even if the POP3 server and client resided on the

same host!

ASIDE: this discussion raises an issue which this memo

purposedly avoids: how does SMTP know that it's talking

to a "trusted" MTS entity?

12. References

[MZnet] Stefferud, E., Sweet, J., and T. Domae, "MZnet: Mail

Service for Personal Micro-Computer Systems,:

Proceedings, IFIP 6.5 International Conference on

Computer Message Systems, Nottingham, U.K., May 1984.

[RFC821] Postel, J., "Simple Mail Transfer Protocol", STD 10,

RFC821, USC/Information Sciences Institute, August 1982.

[RFC822] Crocker, D., "Standard for the Format of ARPA-Internet

Text Messages", STD 11, RFC822, University of Delaware,

August 1982.

[RFC1321] Rivest, R. "The MD5 Message-Digest Algorithm", MIT

Laboratory for Computer Science, April 1992.

13. Security Considerations

It is conjectured that use of the APOP command provides origin

identification and replay protection for a POP3 session.

Accordingly, a POP3 server which implements both the PASS and APOP

commands must not allow both methods of access for a given user; that

is, for a given "USER name" either the PASS or APOP command is

allowed, but not both.

Otherwise, security issues are not discussed in this memo.

14. Acknowledgements

The POP family has a long and checkered history. Although primarily

a minor revision to [RFC1225], POP3 is based on the ideas presented

in RFCs 918, 937, and 1081.

In addition, Alfred Grimstad, Keith McCloghrie, and Neil Ostroff

provided significant comments on the APOP command.

15. Author's Address

Marshall T. Rose

Dover Beach Consulting, Inc.

Mountain View, CA 94043-2186

Phone: +1 415 968 1052

Fax: +1 415 968 2510

EMail: mrose@dbc.mtview.ca.us

X.500: rose, dbc, us

 
 
 
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