Touch Events

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Ctime is meant to be a linux only inode event trigger. It will update the ctime only (to current time), allowing listeners to be notified, but not break certain text editors where the file may be open. ctime's results are similar to `touch -cr file file` where no new file is created, and the atime and mtime remain "unmodified." Running is as simple as specifying a single file: Multiple files may also be specified:

Package taskqueue manages running and scheduling tasks. Applications using taskqueue first create a Manager. One manager handles one or more topics. There is one processor per topic. Applications need to register topics and their processors before starting the manager. After topics and processors are registered, applications can start the manager. The manager then initializes a list of workers that will work on the actual tasks. At the beginning, all workers are idle. The manager has a Store to implemented persistent storage. By default, Redis is used as a backend store. Internally, the manager has a list of three states and this resembles in Redis. There is an input queue which contains all the tasks that need to be worked on. Then there is a work queue that contains all tasks currently being worked on. Finally, there is a dead queue that contains all tasks that couldn't be completed, even after retrying. The dead queue will not be touched until a human will move tasks back into the input queue. After being started, the manager moves all tasks in the work queue back into the input queue. This could happen in the event that a previously started manager couldn't complete tasks e.g. because it has crashed. After that, the manager periodically polls the input queue for new tasks. When a new task is found and a worker is available, the manager finds the associated processor and puts it into the work queue, and passes it to a worker to run the task. If the worker finishes successfully, the task is removed from the work queue and disappears. If the worker fails, it is retried according to the NumRetries set when enqueing the task initially. Such tasks are simply put back into the input queue to be scheduled again at a later time. If a worker fails even after retrying, it is moved to the dead queue for inspection by a human.

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package limestone is a framework for transactional access to entities that are described by incremental updates persistently stored as Kafka messages. The name comes from the Tectonic theme: limestone is a sedimentary rock, and the local database functions by accretion of new events over time. Limestone manages entities of several "kinds" (types). Each kind is associated with one Go structure type and one Kafka topic for updates. Such a structure consists of one or more sections written by different services (producers). Sections are nested structures embedded in the entity structure. Each section can only have one producer that is allowed to write the fields in it. It is not necessary for every service to use a top-level entity structure that embeds all the sections. A service only has to use the sections that it is interested in reading or writing. Usually, a shared package declares all the section structures, and the service declares its own entity structure where it lists only the sections it needs. It is possible for a service to add extra sections, as well as extra fields, to store its own private data. Note that all fields of one entity kind must be uniquely named across sections. Read-only access is done through a snapshot. A snapshot can be obtained using the Snapshot method of the database. Acquiring a snapshot is a very cheap operation which does not need a global lock. The snapshot captures a static state of the world at a particular moment, which stays the same even if more changes to the entities keep happening. It is not allowed to modify slices, maps and structures available by references from an entity. To make changes to entities, one needs a transaction. To initiate a transaction, call the database's Do or DoE method. This is relatively expensive because it acquires a global lock. For this reason, keep the amount of code inside a transaction to a minimum. To make changes, you need to obtain entities from the transaction, modify them, and insert them into the transaction. It is still not allowed to modify slices, maps and structures referred to by the original entity. To modify e.g. a slice, replace the value of a slice-typed field with a new, modified slice. New entities can be created by inserting new structures with new unique identity values. Snapshots are safe to use concurrently but transactions are not. A single iterator obtained from a Search call on a transaction or snapshot must not be called concurrently, although separate calls to Search return independent iterators that can be called in parallel with each other. When changes happen outside the current service, Limestone applies them to the local state as transactions. When this happens, the service's optional WakeUp handler is invoked with the unfinished transaction and the list of all entities touched in this update. The handler then has a chance to react to these changes, and make more changes. The incoming changes along with the extra changes made by the handler, will be committed as soon as the handler returns. A nil handler is equivalent to a handler that does nothing. Limestone will always group as many queued incoming updates as possible into one transaction. Members of section structures can be labeled with optional limestone tags. The value of a limestone tag is a comma-separated list of options: * const: the field cannot be modified once the entity is created. If the field is a slice, map or pointer, the contents referred by it cannot be changed. Limestone will panic if the local code or an incoming update tries to modify a const field. This tag can also be used on an anonymous field (embedding structure), which makes it apply to all fields in that structure, recursively. * required: the field is not allowed to have an empty value. Note that an empty but non-nil slice or map is not an empty value. * identity: the field is the primary key of the entity. There must be exactly one such field per entity kind. This option implies const and required. The best practice is to name this field ID. The field must be a string or a type whose underlying data type is string. It is recommended that each package for a specific entity exports a string-based type ID and declares the identity field to be this type. Other entities referring to this entity by ID should declare their foreign-key properties with this type (see ID and BarIDs in the example below). * name=NAME: sets the wire (JSON) name of the field. By default, the wire name is the same as the Go field name. This option should be used to avoid conflicts when two fields in different sections have the same Go name. * - (hyphen): declares the field as hidden. Such a field is not exported to Kafka and not updated from incoming Kafka messages. It is used to store non-persistent data local to the service. Such fields still can only be modified the usual way, through transactions. However, if the field is a pointer, a slice or a map, the target contents can be modified freely even between transactions. It is possible to declare hidden fields not only in section structures, but also in the top-level entity structure. This tag can also be applied to an anonymous field (embedded structure). There are also structure-level tags. They can be declared in the entity structure or any of the per-section sub-structures. Because Go does not allow structure-level tags, they should be attached to a Meta field. Add an anonymous limestone.Meta field to your structure and attach the structure-level tags to it. The limestone.Meta type itself has zero size. * name=NAME: sets the Kafka topic name for the entity kind. Each section structure must declare the same name. * producer=PRODUCER: declares which service can write the fields in this section. The specified pattern is matched against the producer name specified as Source.Producer when initializing Limestone. The pattern can contain | to delimit alternatives: producer=allocator|compute-api matches producer names "allocator" an "compute-api". The setting applies to all fields in the section. Different sections within the same entity can declare different producer names. Fields contained in structures with no producer name specified, can only be modified by administrative Kafka messages without a producer value (all outgoing messages produced by Limestone have a producer value). The following example demonstrates the use of some of the features described above. The entity structure can define an optional Deadline method: If this method exists, Limestone will call it after each transaction where the entity is modified. If it returns a nonzero Time value, Limestone will arrange a wake-up call soon after the specified time, and the entity will be included in the list passed to the wake-up handler even if it hasn't been modified. It can be combined with other reasons to call the handler. limestone.NoDeadline constant is a handy way to explicitly return zero Time value from the handler. If the entity is modified before the time returned by Deadlne, the existing deadline is ignored, and Deadline is called again, so it has the opportunity to specify a new deadline if needed. The Deadline method must be a pure function that depends on nothing but its receiver. Typical use cases for Deadline are timeouts (for example, detecting that the instance has been in the starting state for too long) and periodic checks. For the latter case, it's typical to use a hidden field, like lastChecked in the example above, to record the time of the last check. The entity structure can define an optional Survive method: If this method exists, Limestone will call it to decide whether the entity is worth keeping in memory. If Survive returns false, Limestone will forget about the entity, and any future incoming updates regarding it will be ignored. The exact rules are as follows: The Survive method must be a pure function that depends on nothing but its receiver. The typical use case for Survive is to discard entities with Deleted flag. When the service starts, Limestone begins to catch up with Kafka history. While it is happening Snapshot() method returns nil, DoE() and Do() panic. WaitReady() can be used to block until the initial catch-up is finished. During initial catch-up Limestone reads the entire history of relevant Kafka updates to build the current state, and puts all these changes into a single transaction. After that, the wake-up handler is called once with the list of all entities that exist. Deadline handlers will be called as usual after the initial transaction is complete. Importing the limestone package adds the following option to global set of command-line flags: When DefaultClient() is used as Config.Client (which is normal outside tests), the Limestone server specified on the command line, or the default value, is used. Limestone can be used for component testing with the mock Kafka implmentation (kraken/kafka/mock). As an example, a test scenario for the allocator might look like this: 1. Initialize mock Kafka; insert some initial messages into it if necessary. 2. Initialize the allocator connected to mock Kafka. 3. Initialize a test agent imitating the manager connected to mock Kafka. 4. Initialize a test agent imitating the DCM connected to mock Kafka. 5. As mock manager, create a fleet. 6. As mock DCM, wait for the expected number of instances to be created by the allocator.

Package etk provides an Ebitengine tool kit for creating graphical user interfaces. Custom widgets may be created entirely from scratch or may be based on official widgets. The following official widgets are available: Mouse events are passed to the topmost widget under the mouse. If a widget returns a handled value of false, the event continues to propagate down the stack of widgets under the mouse. Clicking or tapping on a widget focuses the widget. This is handled by etk automatically when a widget returns a handled value of true. Keyboard events are passed to the focused widget. When attempting to change which widget is focused, etk checks whether the widget to be focused accepts this focus. If it does, the previously focused widget is un-focused. If the widget does not accept the focus, the previously focused widget remains focused. Input events generated by desktop mice and touch screens are unified in etk. These input events are simplified into an image.Point specifying the location of the event and two parameters: clicked and pressed. Clicked is true the first frame the mouse event or touch screen event is received. When the mouse click or touch screen tap is released, the widget that was originally clicked or tapped always receives a final event where clicked and pressed are both false. Each time etk draws a widget it subsequently draws all of the widget's children in the order they are returned. There are two subpackages in etk: messeji and kibodo. These are available for use without requiring etk. Usually you will not need to reference any subpackages, as etk wraps them to provide widgets with additional features.

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()

Package uinput is a pure go package that provides access to the userland input device driver uinput on linux systems. Virtual keyboard devices as well as virtual mouse input devices may be created using this package. The keycodes and other event definitions, that are available and can be used to trigger input events, are part of this package ("Key1" for number 1, for example). In order to use the virtual keyboard, you will need to follow these three steps: Initialize the device Example: vk, err := CreateKeyboard("/dev/uinput", "Virtual Keyboard") Send Button events to the device Example (print a single D): err = vk.KeyPress(uinput.KeyD) Example (keep moving right by holding down right arrow key): err = vk.KeyDown(uinput.KeyRight) Example (stop moving right by releasing the right arrow key): err = vk.KeyUp(uinput.KeyRight) Close the device Example: err = vk.Close() A virtual mouse input device is just as easy to create and use: Initialize the device: Example: vm, err := CreateMouse("/dev/uinput", "DangerMouse") Move the cursor around and issue click events Example (move mouse right): err = vm.MoveRight(42) Example (move mouse left): err = vm.MoveLeft(42) Example (move mouse up): err = vm.MoveUp(42) Example (move mouse down): err = vm.MoveDown(42) Example (trigger a left click): err = vm.LeftClick() Example (trigger a right click): err = vm.RightClick() Close the device Example: err = vm.Close() If you'd like to use absolute input events (move the cursor to specific positions on screen), use the touch pad. Note that you'll need to specify the size of the screen area you want to use when you initialize the device. Here are a few examples of how to use the virtual touch pad: Initialize the device: Example: vt, err := CreateTouchPad("/dev/uinput", "DontTouchThis", 0, 1024, 0, 768) Move the cursor around and issue click events Example (move cursor to the top left corner of the screen): err = vt.MoveTo(0, 0) Example (move cursor to the position x: 100, y: 250): err = vt.MoveTo(100, 250) Example (trigger a left click): err = vt.LeftClick() Example (trigger a right click): err = vt.RightClick() Close the device Example: err = vt.Close()