Sending messages or performing predefined actions other than unlocking on a mobile device using unlocking mechanism

What is claimed is: 1. A method comprising: An electronic device configured to selectively power down and selectively power up a plurality of functional subsystems of the electronic device and further configured to be unlockable by input of an unlocking sequence on a touchscreen, the electronic device comprising: a processor subsystem; a display subsystem; a wireless communication subsystem that, when powered up, receives signals corresponding to incoming messages and transmits signals corresponding to outgoing messages; a battery for supplying power at least to the processor subsystem, the display subsystem, and the wireless communication subsystem; a first memory storage that maintains a value of a locked state of the electronic device; a touch processing subsystem that receives inputs via the touchscreen to determine a touch input pattern, converts the touch input pattern to a touch sequence, compares the touch sequence to an unlock sequence and to a message sending sequence, outputs an unlock signal if the touch sequence matches the unlock sequence, or outputs a message initiation signal if the touch sequence matches the message sending sequence; a power management system that selectively provides power to subsystems of the electronic device and is coupled to receive signals from the touch processing subsystem, wherein (1) when the electronic device is in an unlocked state, the power management system provides power to the processor subsystem, the display subsystem, and the wireless communication subsystem and (2) upon receiving the message initiation signal from the touch processing subsystem when the electronic device is in the locked state, the power management system provides power to the wireless communication subsystem without providing power to the display subsystem; and a message generator that, upon receiving the message initiation signal, retrieves a portion of the touch sequence, generates a message corresponding to the portion of the touch sequence, and provides the message to the wireless communication subsystem for transmission, while the electronic device is in the locked state. 2. The electronic device of claim 1 , wherein the touchscreen is logically partitioned, while in the locked state, into at least a first region and a second region, wherein the touch processing subsystem represents touch inputs within the first region as Morse code dots in the touch sequence and represents touch inputs within the second region as Morse code dashes in the touch sequence, and wherein the touch processing subsystem is further configured to, upon determining that the touch sequence has been entered as Morse code dots and Morse code dashes, send the touch sequence to the message generator. 3. The electronic device of claim 1 , further comprising a battery charging circuit coupled to the battery and a charging interface of the electronic device, wherein the message generator is configured to queue messages for later sending when the battery charging circuit indicates that power is not being supplied at the charging interface. 4. The electronic device of claim 1 , wherein the touch processing subsystem outputs a message initiation signal only if the touch sequence does not match the unlock sequence but the touch sequence matches the message sending sequence. 5. The electronic device of claim 1 , further comprising: a second memory storage for a table of predefined actions, the predefined actions including sending messages, storing a note, and setting a reminder, each predefined action represented in the table by a corresponding touch input sequence that would be used to initiate each predefined action while the electronic device remains in the locked state. 6. A computer-implemented method for managing power consumption on an electronic device having a plurality of subsystems wherein a power state of each subsystem can be an active state or a sleep state independent of a power state of another subsystem of the plurality of subsystems, the method comprising: sensing instances of inputs made on a lock interface of the electronic device when in a locked state, wherein the electronic device has the locked state and an unlocked state; determining if a first input is received; when the first input is received, altering a state of the electronic device from the locked state to the unlocked state, when the first input matches with unlock sequence, and setting the power state of each subsystem in a first set of the plurality of subsystems to the active state; determining if a second input is received, while the electronic device is in the locked state, the second input being distinct from the first input, wherein the second input corresponds to a message initiation signal; setting the power state of each subsystem in a second set of the plurality of subsystems to the active state, wherein at least one subsystem of the first set of the plurality of subsystems is not in the second set of the plurality of subsystems, wherein the first set of the plurality of subsystems includes a display subsystem and the second set of the plurality of subsystems set to the active state includes a wireless communication subsystem; and performing an action represented by the second input using one or more subsystem of the second set while the electronic device is in the locked state, wherein the action comprises retrieving a portion of a touch sequence, generating a message corresponding to the portion of the touch sequence, and providing the message to the wireless communication subsystem for transmission. 7. The computer-implemented method of claim 6 , wherein receiving the first input comprises receiving the instances of inputs with a sensed input sequence matching a first input sequence and wherein receiving the second input comprises receiving the instances of inputs with the sensed input sequence matching a second input sequence, the second input sequence being distinct from the first input sequence. 8. The computer-implemented method of claim 6 , further comprising: receiving a plurality of touch inputs via a touch sensor of the electronic device; and converting the plurality of touch inputs into a digital sequence based on a location of each touch input on the touch sensor, wherein each element of the digital sequence corresponds to a region of the touch sensor, and wherein the touch sensor includes a first region assigned to a Morse code dot element and a second region assigned to a Morse code dash element, and a third region assigned to a control element other than Morse code dot and Morse code dash elements. 9. The computer-implemented method of claim 6 , wherein a modem subsystem and a radio frequency (“RF”) subsystem are subsystems in the second set of the plurality of subsystems, and wherein a display subsystem and a user keyboard input subsystem are subsystems in the first set of the plurality of subsystems but not in the second set of the plurality of subsystems. 10. The computer-implemented method of claim 6 , further comprising: determining whether a battery charging circuit coupled to the battery is receiving power via an external power source external to the electronic device; and adding to a queue an indication of the action represented by the second input to queue at least a portion of the action until the battery charging circuit is receiving power via the external power source. 11. The computer-implemented method of claim 6 , further comprising: adding to a queue an indication of an additional action to be performed in response to the second input; and performing the additional action when the electronic device is in the unlocked state. 12. The computer-implemented