105 lines
6.9 KiB
Markdown
105 lines
6.9 KiB
Markdown
Intro to .NET Core CLI
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======================
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The .NET Core CLI is a simple, extensible and standalone set of tools for building, managing and otherwise operating on .NET projects. It will or already includes commands such as compilation, NuGet package management and launching a debugger session. It is intended to be fully featured, enabling extensive library and app development functionality appropriate at the command-line. It should provide everything you'd need to develop an app in an SSH session! It is also intended to be a fundamental building block for building finished experiences in tools such as Visual Studio.
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Goals:
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- Language agnostic - embrace "common language runtime".
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- Target agnostic - multi-targets.
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- Runtime agnostic.
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- Simple extensibility and layering - "you had one job!"
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- Cross-platform - support and personality.
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- Outside-in philosphy - higher-level tools drive the CLI.
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Historical Context - DNX
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========================
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We've been using [DNX](http://blogs.msdn.com/b/dotnet/archive/2015/04/29/net-announcements-at-build-2015.aspx#dnx) for all .NET Core scenarios for nearly two years. It provides a lot of great experiences, but doesn't have great "pay for play" characteristics. DNX is a big leap from building the [CoreCLR](https://github.com/dotnet/coreclr) and [CoreFX](https://github.com/dotnet/corefx) repos and wanting to build an app with a simple environment. In fact, one of the open source contributors to CoreCLR said: "I can build CoreCLR, but I don't know how to build 'Hello World'." We cannot have that!
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.NET Core includes three new components: a set of standalone command-line (CLI) tools, a shared framework and a set of runtime services. These components will replace DNX and are essentially DNX split in three parts.
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The DNX services will be offered as a hosting option available to apps. You can opt to use a host that offers one or more of these services, like file change watching or NuGet package servicing. You can also opt to use a shared framework, to ease deployment of dependencies and for performance reasons. Some of this is still being designed and isn't yet implemented.
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ASP.NET 5 will transition to the new tools for RC2. This is already in progress. There will be a smooth transition from DNX to these new .NET Core components.
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Experience
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==========
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The [CLI tools](https://github.com/dotnet/cli) present the "dotnet" tool as the entry-point tool. It provides higher-level commands, often using multiple tools together to complete a task. It's a convenience wrapper over the other tools, which can also be used directly. "dotnet" isn't magical at all, but a very simple aggregator of other tools.
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You can get a sense of using the tools from the examples below.
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**dotnet restore**
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`dotnet restore` restores dependent package from a given NuGet feed (e.g. NuGet.org) for the project in scope.
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**dotnet run**
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`dotnet run` compiles and runs your app with one step. Same as `dnx run`.
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**dotnet compile**
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`dotnet compile --native` native compiles your app into a single executable file.
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`dotnet compile` compiles your app or library as an IL binary. In the case of an app, `compile` generates runable assets by copying an executable host to make the IL binary runable. The host relies on a shared framework for dependencies, including a runtime.
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Design
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======
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There are a couple of moving pieces that you make up the general design of the .NET Core CLI:
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* The `dotnet` driver
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* Specific commands that are part of the package
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The `dotnet` driver is very simple and its primary role is to run commands and give users basic information about usage.
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The way the `dotnet` driver finds the command it is instructed to run using `dotnet {command}` is via a convention; any executable that is placed in the PATH and is named `dotnet-{command}` will be available to the driver. For example, when you install the CLI toolchain there will be an executable called `dotnet-compile` in your PATH; when you run `dotnet compile`, the driver will run the `dotnet-compile` executable. All of the arguments following the command are passed to the command being invoked. So, in the invocation of `dotnet compile --native`, the `--native` switch will be passed to `dotnet-compile` executable that will do some action based on it (in this case, produce a single native binary).
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This is also the basics of the current extensibility model of the toolchain. Any executable found in the PATH named in this way, that is as `dotnet-{command}`, will be invoked by the `dotnet` driver.
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There are some principles that we are using when adding new commands:
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* Each command is represented by a verb (`run`, `compile`, `publish`, `restore` etc.)
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* We support the short and the long form of switches for most commands
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* The switches have the same format on all supported platforms (so, no /-style switches on Windows for example)
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* Each command has a help that can be viewed by running `dotnet [command] --help`
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Adding a new command to the .NET Core CLI
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=========================================
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If you want to contribute to the actual .NET Core CLI by adding a new command that you think would be useful, please refer to the [developer guide](developer-guide.md) in this directory. It contains all of the guidance on both the process as well as the infrastructure that you need to adhere to when adding a new command to the CLI toolchain.
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Adding a new command locally
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============================
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Given the extensibility model described above, it is very easy to add a command that can be invoked with the `dotnet` driver. Just add any executable in a PATH and name it as per the instructions above.
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As an example, let's say we want to add a local command that will mimick `dotnet clean`. By convention, `dotnet compile` will drop binaries in two directories `./bin` and `./obj`. A clean command thus will need to delete these two directores. A trivial example, but it should work.
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On *nix OS-es, we will write a very simple shell script to help us with this:
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```shell
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#!/bin/bash
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rm -rf bin/ obj/
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```
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We then do the following to make it be a command in the CLI toolchain
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* Name it as `dotnet-clean`
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* Set the executable bit on: `chmod +X dotnet-clean`
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* Copy it over somewhere in the $PATH: `sudo cp dotnet-clean /usr/local/bin`
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After this, the command ready to be invoked via the `dotnet` driver.
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Guidances on how to write a command
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===================================
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How you write a given command depends largely on whether you are trying to add it to the CLI project or want to add the command locally, i.e. on your machine or server.
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For the former case, the [developer guide](developer-guide.md) has all of the details that you will need to get going.
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If you are adding a command on your own machine(s), then there is really no special model to keep in mind. However, since your users will be using the local commands through the `dotnet` driver, we strongly suggest to keep to the principles outlned above in the [design section](#design) to have an unified user experience for your users.
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