This chapter provides an overview of MMS (short for Multimedia Messaging Service) and the Mbuni MMS Gateway.
MMS offers mobile users enhanced messaging capabilities like the ability to send pictures and sound from a cell phone. It is generally considered the natural successor to the very popular SMS service.
MMS usage has continued to grow since introduction, and it is expected that projects such as Mbuni should further boost the adoption of MMS and its explosion.
The Mbuni Project attempts to provide that little bit of boost to MMS adoption/growth, by providing a crucial part of the MMS infrastructure in the form of a fully-fledged Open Source MMS Gateway (more commonly called a MMS Centre).
Mbuni aims to support all the major MMS interfaces, including phone-to-phone (so-called MM1 interface), phone-to-email (MM3), inter-MMSC (MM4) and MMS VAS (MM7). The current release fully supports the MM1, MM3 and MM7 interfaces, and provides rudimentary support for the MM4 interface. This version also supports network-side MMBox storage and transactions as specified in the OMA MMS v1.2 specification.
Mbuni is inspired, in part by the Kannel project, and utilises Kannel's GWLIB and WAP libraries. Kannel provides well-designed, simple interfaces for management of octet strings, lists, threads, servers, etc, and a certified WAP implementation. This made it a natural choice for Mbuni, rather than re-inventing the wheel.
The Multimedia Messaging Service (MMS), is intended to provide a rich set of content to subscribers (pictures, audio, games, etc). It supports both sending and receiving of rich content by properly enabled client devices. MMS is a non-real-time delivery service, much like SMS or email. The service utilises a store-and-forward usage model.
MMS is designed to be transported largely over IP rather than traditional GSM (SS7) networks. It is also designed to interoperate with other IP services such as email and WAP. In fact, MMS messages are typically transported over WAP, and are encoded using WAP MIME formats.
The MMS Gateway acts as the message-switching device in the MMS architecture. The general architecture is shown below.
The elements shown in the figure can be summarised as follows:
Typically, the message cycle begins with a user sending a multimedia message (MM) via the MMS client. The client must be configured for MMS, which includes bearer settings (i.e. GPRS or GSM/CSD settings), WAP gateway address and MMS Gateway address (a URL).
An MM is typically a multi-part message with pictures, sound, text and other media. Each part of the message is identified by media (MIME) type, name and/or Content ID. When submitting a message, the MMS client indicates the intended recipient list, but usually not the sender address, which the MMS Gateway retrieves from the WAP gateway. Like Email, a single MMS can specify multiple recipients (MSISDNs and Email addresses), and it is up to the Gateway to ensure correct delivery to each of the recipients.
When the gateway receives a message destined for an email address, it typically re-codes the message as standard MIME and passes it on to an SMTP server for delivery. Email messages received are similarly re-coded as MMS and forwarded to the relevant MMS Client.
When the gateway receives a message destined to MMS Clients in the area served by the gateway, the message is stored and an MMS notification sent to the recipient via WAP Push. On receipt of the notification, the client typically fetches the message via a URL provided in the notification.
When a recipient requests an incoming MM from the server, it indicates to the server its capabilities for a User Agent Profile URL. The profile data includes such things as supported media types, screen size, supported character sets, etc. Typically, the gateway will re-code the MM to suit the client's capabilities before returning the message. Messages destined to email may also be re-coded to make them more suitable for email readers.
The gateway may also interface with a subscriber database, which controls message delivery and billing. The subscriber database will provide such information as which subscribers are provisioned for MMS, tariffs, etc.
Mbuni MMS gateway is a modular software system, designed to be full-featured, efficient and simple, supporting current generation two-way multimedia messaging. Feature highlights include:
The Gateway is designed and tested to conform to Open Mobile Alliance (OMA), WAP and 3rd Generation Partnership Project (3GPP) MMS standards including:
Mbuni is being developed on MacOS X and Linux systems using the C programming language. It should compile and run on any similar system.
Mbuni utilises some libraries that are part of the Kannel source, specifically GWLIB and WAP libraries. In order to install Mbuni you will need to install (a patched) Kannel (and therefore fulfil those dependencies Mbuni shares with it).
The following additional components are required:This section explains the steps required to install the gateway. Currently only installation from source is provided (binary option coming soon).
In brief, to install Mbuni, you need to:
The source code for Mbuni is available for download from the download area of the website
In order to compile the software, you will first need to download, patch, compile and install Kannel v1.4.0 from kannel.org:
Unpack the kannel source files using a command like:
bzip2 -cd gateway-1.4.0.tar.bz2 | tar xf -
The kannel sources need to be patched for Mbuni using one of the supplied patch files from the Mbuni downloads section given above. You can use either one of the patch files:
Which patch you choose is a matter of taste. Apply the patch like this
cd gateway-1.4.0
patch -p1 < ../mbuni-kannel-patch-full
Then proceed to compile and install Kannel normally:
./configure
make install
Download and unzip/tar Mbuni sources in a directory of your choice:
tar xzf mbuni-version.tgzWhere version is the verion of Mbuni (e.g. 0.9.8). Compile and install mbuni as follows:
cd
mbuni-version
./configure
make insall
If you installed Kannel in a non-standard location, you will need to supply the location to configure using --with-kannel=kannel_directory
If you want to try out the development version of Mbuni, you can download it from the CVS on sourceforge.net:
cvs -d:pserver:anonymous@cvs.sourceforge.net:/cvsroot/mbuni loginMbuni consists of 3 programs:
mmsrelay is the main relay server. It routes
incoming messages to email, other MMS gateways, MMS clients/handsets,
etc. It also manages routing messages to MMS clients
using WAP Push, sending of delivery reports, etc.
mmsproxy
provides the HTTP interface via which messages are
sent and received by MMS clients.
mmsfromemail Is
the email2MMS gateway module. All programs must be configured, and the first
three running for the gateway to function smoothly.
Be sure to install all other required components as detailed above, otherwise parts of the MMS gateway may not function correctly.
Mbuni expects that an AMR decoder is installed and can be invoked
as:
amrdecoder infile outfile
to decode an AMR
file to header-less (raw), 16-bit signed, mono, 8kHz audio samples in
the output file. (Input and output files may be '-' for standard input
or output respectively.)
Similarly, it is expected that an AMR encoder
called amrencoder exists and can be executed as follows:
amrencoder mode infile outfile
and convert raw, 16-bit signed, 8kHz
mono audio samples in the input file to AMR using the supplied
encoding mode.
For the AMR encoder/decoder, we have adapted the sample provided on the 3GPP
website. Follow the instructions below to install it:
To run the gateway, you must run the two programs listed above (mmsrelay and mmsproxy). mmsfromemail should be called from your MTA (SMTP Mailer) to convert and deliver an MMS from an email sender. The order in which they are started is unimportant. They expect the configuration file to be passed as the last argument on the command line (default is mmsc.conf). The configuration file controls most aspects of the operation of the gateway.
The configuration file format is the same as that used
by Kannel. The configuration file consists of groups of configuration
variables. Groups are separated by empty lines, each variable is defined on its
own line. Each group begins with the group name. Comments are lines that begin
with a hash (#) and are ignored.
A
variable definition line has the name of the variable, an equals sign (=) and
the value of the variable. The name of the variable can contain any characters
except white space and equals. The value of the variable is a string, with or
without quotation marks (") around it. Quotation marks are needed if the value
begins or ends with white space or contains special characters. Normal C escape
character syntax works inside quotation marks.
The variable group marks the beginning of a new group with the given name.
The core group is
core and defines the log file location, log level (amount of debugging
information – the lower the number the more debugging
information), the location of the access log and the HTTP proxy host/port if any. (HTTP proxy host/port
is specified using the exact same parameters as used by Kannel.)
group =
core
log-file
= log/mmsgw.log
log-level
= 0
access-log = log/access.log
This should be
followed by the main MMS gateway configuration group (mmsbox).
group =
mmsbox
name =
"My MMSC"
hostname
= ds.co.ug
host-alias
= mmsc
local-mmsc-domains=
mbuni.org,service.com
local-prefixes
= 075;+25675;25675
directory-store
= spool
max-send-threads
= 5
send-mail-prog
= /usr/sbin/sendmail -f '%f' '%t'
...
The table below lists all the configuration directives
Variable Name | Type | Description |
group | mmsbox | Mandatory variable |
name | string | User-friendly name for the Gateway, used in notices, etc |
hostname | string | Local hostname. This is added as a qualifier to the sender address when MMS is forwarded to Email or to a foreign MMSC via SMTP. Defaults to localhost |
host-alias | string | Short form of hostname. This is used in generating message IDs. It is also used to generate the message retrieval URL (sent as part of the MMS notification): For instance if you have this as mmsc then the retrieval URL will have the form http://mmsc/msgtoken (no port is added). Be sure to keep this value short as some handsets do not like long URLs in MMS notifications. If you do not supply a host alias, the gateway will create a long form URL (http://hostname:port/msgtoken) when it sends notifications |
local-mmsc-domains | List of Internet domains (comma separated) | A list of internet domains that should be considered local to this MMS gateway. Email or MMS messages received destined to these domains should be treated as local |
local-prefixes | Number prefix list | Number prefixes that should be considered local. Messages to numbers that match these prefixes will be delivered locally (via mmsrelay) |
storage-directory | Directory name (string) | Directory where Mbuni creates message queues, MMBoxes, and the User Agent profiles cache. Mbuni creates a set of sub-directories in here for each function |
max-send-threads | Number | How many queue processing threads to start. A higher value means messages get delivered faster. |
send-mail-prog | String | Command to use for sending email messages (MMS-to-email or to foreign MMS gateways via SMTP). This command can include variables: %f – replaced with the message from address, %t – replaced with the recipient address (RFC 822 compliant), %s – the message subject, %m – the message ID |
unified-prefix | Number list | A string to unify received phone numbers, so that routing works correctly. Format is that first comes the unified prefix, then all prefixes which are replaced by the unified prefix, separated with comma (','). For example "+256,000256,0;+,000" should ensure correct UG prefixes. If there are several unified prefixes, separate their rules with semicolon (';') |
maximum-send-attempts | integer | Maximum number of attempts gateway must make to deliver message before giving up (e.g. mobile phone is off, email domain is unavailable) |
default-message-expiry | Integer | Default number of seconds in which message expires and is purged from queue (if not yet delivered). This figure is overridden by whatever is in the message. |
queue-run-interval | Real | How many seconds between each queue run |
send-attempt-back-off | Integer | mmsrelay uses a form of exponential back-off when sending notifications to MMS clients. This figure provides the starting back-off value (in seconds). |
sendsms-url | String | URL of the service through which SMS can be sent to a mobile subscriber (e.g. for WAP Push). It is expected that this url expects/supports Kannel-style send-sms parameters (udh, from, to, text, etc.) |
sendsms-username | String | Username to pass (for authentication) to send-sms URL |
sendsms-password | String | Password to pass (for authentication) to send-sms URL |
sendsms-global-sender | String | Optional sender (to field) to use in send sms url |
mms-port | Integer | Port on which mmsproxy listens for MMS messages from MMS clients (Default is 8191). |
mm7-port | Integer | Port on which mmsproxy listens for MM7 requests from Value Added Services providers. If this port is not supplied, the MM7 sub-system is not started. |
allow-ip | List of IP addresses | List of IP addresses of hosts allowed to use/access the MMS Port (above). You can use this for instance to insist that only connections coming via a known/trusted WAP gateway are serviced. Leave out to allow all machines to connect. |
mms-client-msisdn-header | String | Name of HTTP Header sent/inserted by WAP gateway as part of MMS request to indicate MSISDN of sender. Note that typically the MMS client does not indicate its MSISDN in the MMS message, it is up to the gateway to discover this and insert it. We rely on the WAP gateway to provide the MSISDN as an HTTP request header (default header name is X-WAP-Network-Client-MSISDN) |
mms-client-ip-header | String | Name of HTTP Header sent/inserted by WAP gateway as part of MMS request to indicate IP Address of sender. Similar to the above, if the MSISDN is not set, then we assume that the client is identified by IP address, which we extract from the request headers (using this header). Default header name is X-WAP-Network-Client-IP. If the header is not found, we assume the IP address as seen by Mbuni's MM1 interface. |
allow-ip-type | Boolean | Set this to false to prevent Mbuni accepting and processing messages from senders identified by IP address (i.e. not by MSISDN). Default: True. |
optimize-notification-size | Boolean | Set this to true make Mbuni attempt to squeeze MMS notifications in one WAP Push SMS, by leaving out subject and sender fields. Default: false |
content-adaptation | Boolean | Set this to false to turn off content adaptation in Mbuni. This will cause the MMSC to ignore client capabilities when sending messages, and could cause problems so beware! Default: true |
email2mms-relay-prefixes | Number list | When MMS is received via SMTP, the gateway needs to determine whether it is for a local or a foreign recipient. To determine if the recipient is local recipient, we use the local-prefixes setting. If the recipient is not local, the message should be forwarded on to the relevant foreign MMS gateway, only if the recipient number matches one of the prefixes in this comma-separated list. |
billing-library | String | Optional library containing billing and CDR functions. This library is loaded at runtime and should contain functions to be called to effect billing and CDR generation. See mms_billing.h for details. |
billing-module-parameters | String | Parameters to pass to the billing module specified above when it is loaded. This is a generic string whose interpretation is entirely up to the module. |
resolver-library | String | Optional library containing functions for resolving recipient MSISDN to hostname of Proxy-Relay that should handle the message. Supplying this libary over-rides the local-prefixes setting given above. If the Proxy-Relay hostname returned by the module is the hostname of the local MMSC, then the recipient is considered local. See mms_resolve.h for details. |
resolver-module-parameters | String | Parameters to pass to the Resolver module specified above when it is loaded. This is a generic string whose interpretation is entirely up to the module. |
detokenizer-library | String | Optional library containing functions for finding MSISDN from request URL sent by client. The last part of URL is treated as a string that is interpreted by the library and transformed into an MSISDN. This libary is only a fall-back in case the default sender address resolution fails. See mms_detokenize.h for details. |
detokenizer-module-parameters | String | Parameters to pass to the De-tokenizer module specified above when it is loaded. This is a generic string whose interpretation is entirely up to the module. |
prov-server-notify-script | String | Subscriber database interface script 1: This script will be called by the gateway to notify the subscriber database of per-subscriber events such as when a subscriber sends a message, successfully fetches a message, etc. This script is called with 2-3 arguments. Argument 1 is one of fetched, sent, failedfetch; argument 2 is the subscriber MSISDN; argument 3, in case of a failed fetch provides a description of the error (e.g. message expired). |
prov-server-sub-status-script | string | Subscriber database interface script 2: This script is called by mmsrelay to determine whether the recipient's device supports MMS. The script should exit with a value of 0 to indicate that the device does not support receipt of MMS notifications; 1 to indicate that the device supports MMS; -1 if the subscriber is not known or not provisioned for MMS. The return value determines how mmsrelay will deliver the message (see below). |
notify-unprovisioned | Boolean | Whether subscribers who are not provisioned for MMS should receive any notifications (e.g. SMS) when an MMS message is received for them. |
mms-notify-text | String | Message to send to device that does not support MMS, when a message is received for the user. This message is sent as plain SMS via the Send SMS URL specified above. |
mms-notify-unprovisioned-text | String | Message to send to devices that are not provisioned for MMS (only if notify-unprovisioned is true). |
mms-message-too-large-txt | String | If a device tries to fetch a message, which during content adaptation is determined to be too large for the target device (based on capabilities data supplied by the device), the message is discarded, this text is sent to the device instead as part of an MMS message. |
mms-to-email-html | string | When an MM is destined for email, we must format it to make it more suitable for email readers. (For instance, the SMIL part of the MM will make no sense to most email readers.) The gateway formats the message as follows: It generates a multi-part MIME message with the main part being an HTML entity in which MM parts are embedded. The text given here is tagged at the bottom of the HTML. |
mms-to-email-txt | String | This string is placed in the MMS converted to email as an alternative to the HTML part, for email clients that do not support HTML. |
MMS Value-Added Service Providers (VASPs) are configured using one or more mms-vasp groups:
Variable | Type | Description |
group | String | Mandatory: mms-vasp |
vasp-id | String | User friendly name |
type | String | This should be one of: soap, eaif |
short-code | Number | Short number for this VASP: Messages received by Mbuni to this number are routed to the VASP via MM7. |
vasp-url | String | Outgoing messages to the VASP are sent via this URL (using HTTP POST) |
mmsc-username | String | Outgoing HTTP authentication: The username Mbuni must use when sending data to the VASP |
mmsc-password | String | Outgoing HTTP authentication: password Mbuni must use when sending data to the VASP |
vasp-username | String | Incoming HTTP authentication: The username used by the VASP to authenticate itself to Mbuni when sending data |
vasp-password | String | Incoming HTTP authentication: The password used by the VASP to authenticate itself to Mbuni when sending data to the VASP |
Foreign MMS Gateways are configured using one or more mmsproxy groups:
Variable | Type | Description |
group | String | Mandatory: mmsproxy |
name | String | User friendly name |
host | String | Fully qualified domain name |
allowed-prefix | Number list | List of recipient number prefixes that can be delivered via this Proxy |
denied-prefix | Number list | List of recipient number prefixes that cannot be delivered via this proxy |
When an MM destined to an MSISDN cannot be delivered locally, the gateway searches the list of Proxies to see if one of them can handle the message. If one is found, the message is formatted as MIME and sent via SMTP to the proxy.
In this section we provide an overview of the gateway architecture.
As indicated, there are thre components to the gateway: The Relay
(mmsrelay), the Proxy
(mmsproxy) and SMTP/Email Interface (mmsfromemail). We describe the
function of each of these in turn.
This component (mmsproxy) is the main point of interaction between the gateway and MMS clients and VASPs. It provides an HTTP interface through which clients can send MMS messages. From clients, message types expected on this interface are typically:
Currently, no MMbox quotas are imposed.
From VASPs mmsproxy expects and processes:The Relay watches the global queue for incoming messages (from VASP, external MMSCs or clients). For each message that arrives in the queue, the relay:
For messages placed in the mobile/local queue (i.e. those destined to MSISDNs in the area served by this MMSC or IP-based clients), the relay performs the following functions:
A word about queue management: A simple queue management scheme is
used. Each queue entry consists of two files: The 'q' file (which is
plain text) contains the entry control data
(list of recipients, next delivery attempt time, etc), the 'd' file
contains the message data. This scheme is similar to that used by
popular MTAs. Queue processors mostly operate on the 'q' file, and
use file locking to guard against duplicate delivery, file corruption,
etc.
See mms_queue.h for details.
We provide a sample Kannel wapbox config below, with some explanation
group = wapbox
bearerbox-host = localhost
log-file = "/tmp/wapbox.log"
syslog-level = none
access-log = "/tmp/wapaccess.log"
timer-freq = 10
map-url = "http://mmsc/* http://localhost:1981/*"
This is a live example that was used in tests. In the example we use: