2009-03-04 04:32:55 +01:00
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Implementation notes regarding ADB.
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I. General Overview:
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The Android Debug Bridge (ADB) is used to:
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- keep track of all Android devices and emulators instances
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connected to or running on a given host developer machine
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- implement various control commands (e.g. "adb shell", "adb pull", etc..)
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for the benefit of clients (command-line users, or helper programs like
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DDMS). These commands are what is called a 'service' in ADB.
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As a whole, everything works through the following components:
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1. The ADB server
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This is a background process that runs on the host machine. Its purpose
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if to sense the USB ports to know when devices are attached/removed,
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as well as when emulator instances start/stop.
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It thus maintains a list of "connected devices" and assigns a 'state'
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to each one of them: OFFLINE, BOOTLOADER, RECOVERY or ONLINE (more on
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this below).
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The ADB server is really one giant multiplexing loop whose purpose is
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to orchestrate the exchange of data (packets, really) between clients,
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services and devices.
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2. The ADB daemon (adbd)
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The 'adbd' program runs as a background process within an Android device
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or emulated system. Its purpose is to connect to the ADB server
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(through USB for devices, through TCP for emulators) and provide a
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few services for clients that run on the host.
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2010-04-26 18:33:47 +02:00
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The ADB server considers that a device is ONLINE when it has successfully
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2009-03-04 04:32:55 +01:00
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connected to the adbd program within it. Otherwise, the device is OFFLINE,
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meaning that the ADB server detected a new device/emulator, but could not
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connect to the adbd daemon.
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the BOOTLOADER and RECOVERY states correspond to alternate states of
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devices when they are in the bootloader or recovery mode.
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3. The ADB command-line client
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The 'adb' command-line program is used to run adb commands from a shell
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or a script. It first tries to locate the ADB server on the host machine,
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and will start one automatically if none is found.
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then, the client sends its service requests to the ADB server. It doesn't
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need to know.
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Currently, a single 'adb' binary is used for both the server and client.
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this makes distribution and starting the server easier.
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4. Services
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There are essentially two kinds of services that a client can talk to.
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Host Services:
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these services run within the ADB Server and thus do not need to
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communicate with a device at all. A typical example is "adb devices"
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which is used to return the list of currently known devices and their
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state. They are a few couple other services though.
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Local Services:
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these services either run within the adbd daemon, or are started by
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it on the device. The ADB server is used to multiplex streams
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between the client and the service running in adbd. In this case
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its role is to initiate the connection, then of being a pass-through
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for the data.
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II. Protocol details:
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1. Client <-> Server protocol:
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This details the protocol used between ADB clients and the ADB
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server itself. The ADB server listens on TCP:localhost:5037.
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A client sends a request using the following format:
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1. A 4-byte hexadecimal string giving the length of the payload
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2. Followed by the payload itself.
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For example, to query the ADB server for its internal version number,
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the client will do the following:
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1. Connect to tcp:localhost:5037
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2. Send the string "000Chost:version" to the corresponding socket
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The 'host:' prefix is used to indicate that the request is addressed
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to the server itself (we will talk about other kinds of requests later).
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The content length is encoded in ASCII for easier debugging.
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The server should answer a request with one of the following:
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1. For success, the 4-byte "OKAY" string
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2. For failure, the 4-byte "FAIL" string, followed by a
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4-byte hex length, followed by a string giving the reason
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for failure.
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3. As a special exception, for 'host:version', a 4-byte
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hex string corresponding to the server's internal version number
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Note that the connection is still alive after an OKAY, which allows the
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client to make other requests. But in certain cases, an OKAY will even
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change the state of the connection.
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For example, the case of the 'host:transport:<serialnumber>' request,
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where '<serialnumber>' is used to identify a given device/emulator; after
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the "OKAY" answer, all further requests made by the client will go
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directly to the corresponding adbd daemon.
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The file SERVICES.TXT lists all services currently implemented by ADB.
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2. Transports:
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An ADB transport models a connection between the ADB server and one device
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or emulator. There are currently two kinds of transports:
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- USB transports, for physical devices through USB
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- Local transports, for emulators running on the host, connected to
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the server through TCP
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In theory, it should be possible to write a local transport that proxies
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a connection between an ADB server and a device/emulator connected to/
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running on another machine. This hasn't been done yet though.
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Each transport can carry one or more multiplexed streams between clients
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and the device/emulator they point to. The ADB server must handle
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unexpected transport disconnections (e.g. when a device is physically
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unplugged) properly.
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