| :mod:`email` Package Architecture |
| ================================= |
| |
| Overview |
| -------- |
| |
| The email package consists of three major components: |
| |
| Model |
| An object structure that represents an email message, and provides an |
| API for creating, querying, and modifying a message. |
| |
| Parser |
| Takes a sequence of characters or bytes and produces a model of the |
| email message represented by those characters or bytes. |
| |
| Generator |
| Takes a model and turns it into a sequence of characters or bytes. The |
| sequence can either be intended for human consumption (a printable |
| unicode string) or bytes suitable for transmission over the wire. In |
| the latter case all data is properly encoded using the content transfer |
| encodings specified by the relevant RFCs. |
| |
| Conceptually the package is organized around the model. The model provides both |
| "external" APIs intended for use by application programs using the library, |
| and "internal" APIs intended for use by the Parser and Generator components. |
| This division is intentionally a bit fuzzy; the API described by this |
| documentation is all a public, stable API. This allows for an application |
| with special needs to implement its own parser and/or generator. |
| |
| In addition to the three major functional components, there is a third key |
| component to the architecture: |
| |
| Policy |
| An object that specifies various behavioral settings and carries |
| implementations of various behavior-controlling methods. |
| |
| The Policy framework provides a simple and convenient way to control the |
| behavior of the library, making it possible for the library to be used in a |
| very flexible fashion while leveraging the common code required to parse, |
| represent, and generate message-like objects. For example, in addition to the |
| default :rfc:`5322` email message policy, we also have a policy that manages |
| HTTP headers in a fashion compliant with :rfc:`2616`. Individual policy |
| controls, such as the maximum line length produced by the generator, can also |
| be controlled individually to meet specialized application requirements. |
| |
| |
| The Model |
| --------- |
| |
| The message model is implemented by the :class:`~email.message.Message` class. |
| The model divides a message into the two fundamental parts discussed by the |
| RFC: the header section and the body. The `Message` object acts as a |
| pseudo-dictionary of named headers. Its dictionary interface provides |
| convenient access to individual headers by name. However, all headers are kept |
| internally in an ordered list, so that the information about the order of the |
| headers in the original message is preserved. |
| |
| The `Message` object also has a `payload` that holds the body. A `payload` can |
| be one of two things: data, or a list of `Message` objects. The latter is used |
| to represent a multipart MIME message. Lists can be nested arbitrarily deeply |
| in order to represent the message, with all terminal leaves having non-list |
| data payloads. |
| |
| |
| Message Lifecycle |
| ----------------- |
| |
| The general lifecyle of a message is: |
| |
| Creation |
| A `Message` object can be created by a Parser, or it can be |
| instantiated as an empty message by an application. |
| |
| Manipulation |
| The application may examine one or more headers, and/or the |
| payload, and it may modify one or more headers and/or |
| the payload. This may be done on the top level `Message` |
| object, or on any sub-object. |
| |
| Finalization |
| The Model is converted into a unicode or binary stream, |
| or the model is discarded. |
| |
| |
| |
| Header Policy Control During Lifecycle |
| -------------------------------------- |
| |
| One of the major controls exerted by the Policy is the management of headers |
| during the `Message` lifecycle. Most applications don't need to be aware of |
| this. |
| |
| A header enters the model in one of two ways: via a Parser, or by being set to |
| a specific value by an application program after the Model already exists. |
| Similarly, a header exits the model in one of two ways: by being serialized by |
| a Generator, or by being retrieved from a Model by an application program. The |
| Policy object provides hooks for all four of these pathways. |
| |
| The model storage for headers is a list of (name, value) tuples. |
| |
| The Parser identifies headers during parsing, and passes them to the |
| :meth:`~email.policy.Policy.header_source_parse` method of the Policy. The |
| result of that method is the (name, value) tuple to be stored in the model. |
| |
| When an application program supplies a header value (for example, through the |
| `Message` object `__setitem__` interface), the name and the value are passed to |
| the :meth:`~email.policy.Policy.header_store_parse` method of the Policy, which |
| returns the (name, value) tuple to be stored in the model. |
| |
| When an application program retrieves a header (through any of the dict or list |
| interfaces of `Message`), the name and value are passed to the |
| :meth:`~email.policy.Policy.header_fetch_parse` method of the Policy to |
| obtain the value returned to the application. |
| |
| When a Generator requests a header during serialization, the name and value are |
| passed to the :meth:`~email.policy.Policy.fold` method of the Policy, which |
| returns a string containing line breaks in the appropriate places. The |
| :meth:`~email.policy.Policy.cte_type` Policy control determines whether or |
| not Content Transfer Encoding is performed on the data in the header. There is |
| also a :meth:`~email.policy.Policy.binary_fold` method for use by generators |
| that produce binary output, which returns the folded header as binary data, |
| possibly folded at different places than the corresponding string would be. |
| |
| |
| Handling Binary Data |
| -------------------- |
| |
| In an ideal world all message data would conform to the RFCs, meaning that the |
| parser could decode the message into the idealized unicode message that the |
| sender originally wrote. In the real world, the email package must also be |
| able to deal with badly formatted messages, including messages containing |
| non-ASCII characters that either have no indicated character set or are not |
| valid characters in the indicated character set. |
| |
| Since email messages are *primarily* text data, and operations on message data |
| are primarily text operations (except for binary payloads of course), the model |
| stores all text data as unicode strings. Un-decodable binary inside text |
| data is handled by using the `surrogateescape` error handler of the ASCII |
| codec. As with the binary filenames the error handler was introduced to |
| handle, this allows the email package to "carry" the binary data received |
| during parsing along until the output stage, at which time it is regenerated |
| in its original form. |
| |
| This carried binary data is almost entirely an implementation detail. The one |
| place where it is visible in the API is in the "internal" API. A Parser must |
| do the `surrogateescape` encoding of binary input data, and pass that data to |
| the appropriate Policy method. The "internal" interface used by the Generator |
| to access header values preserves the `surrogateescaped` bytes. All other |
| interfaces convert the binary data either back into bytes or into a safe form |
| (losing information in some cases). |
| |
| |
| Backward Compatibility |
| ---------------------- |
| |
| The :class:`~email.policy.Policy.Compat32` Policy provides backward |
| compatibility with version 5.1 of the email package. It does this via the |
| following implementation of the four+1 Policy methods described above: |
| |
| header_source_parse |
| Splits the first line on the colon to obtain the name, discards any spaces |
| after the colon, and joins the remainder of the line with all of the |
| remaining lines, preserving the linesep characters to obtain the value. |
| Trailing carriage return and/or linefeed characters are stripped from the |
| resulting value string. |
| |
| header_store_parse |
| Returns the name and value exactly as received from the application. |
| |
| header_fetch_parse |
| If the value contains any `surrogateescaped` binary data, return the value |
| as a :class:`~email.header.Header` object, using the character set |
| `unknown-8bit`. Otherwise just returns the value. |
| |
| fold |
| Uses :class:`~email.header.Header`'s folding to fold headers in the |
| same way the email5.1 generator did. |
| |
| binary_fold |
| Same as fold, but encodes to 'ascii'. |
| |
| |
| New Algorithm |
| ------------- |
| |
| header_source_parse |
| Same as legacy behavior. |
| |
| header_store_parse |
| Same as legacy behavior. |
| |
| header_fetch_parse |
| If the value is already a header object, returns it. Otherwise, parses the |
| value using the new parser, and returns the resulting object as the value. |
| `surrogateescaped` bytes get turned into unicode unknown character code |
| points. |
| |
| fold |
| Uses the new header folding algorithm, respecting the policy settings. |
| surrogateescaped bytes are encoded using the ``unknown-8bit`` charset for |
| ``cte_type=7bit`` or ``8bit``. Returns a string. |
| |
| At some point there will also be a ``cte_type=unicode``, and for that |
| policy fold will serialize the idealized unicode message with RFC-like |
| folding, converting any surrogateescaped bytes into the unicode |
| unknown character glyph. |
| |
| binary_fold |
| Uses the new header folding algorithm, respecting the policy settings. |
| surrogateescaped bytes are encoded using the `unknown-8bit` charset for |
| ``cte_type=7bit``, and get turned back into bytes for ``cte_type=8bit``. |
| Returns bytes. |
| |
| At some point there will also be a ``cte_type=unicode``, and for that |
| policy binary_fold will serialize the message according to :rfc:``5335``. |