基於符號連接的 node_modules 結構
本文章只會介紹在沒有套件有 peer 依賴的情況下 pnpm 的 node_modules
是如何被構建的。 對於有 peer 依賴的更複雜的場景,請看peer 是如何被解析的。
pnpm 的 node_modules
結構使用符號連接來創建依賴項的嵌套結構。
node_modules
中每個套件的每個文件都是來自內容可尋址存儲的硬連接。 假設您安裝了依賴於 bar@1.0.0
的 foo@1.0.0
。 pnpm 會將兩個包硬連接到 node_modules
,如下所示:
node_modules
└── .pnpm
├── bar@1.0.0
│ └── node_modules
│ └── bar -> <store>/bar
│ ├── index.js
│ └── package.json
└── foo@1.0.0
└── node_modules
└── foo -> <store>/foo
├── index.js
└── package.json
這 是 node_modules
中的唯一的“真實”文件。 一旦所有套件都硬連接到 node_modules
,就會創建符號連接來構建嵌套的依賴關係圖結構。
As you might have noticed, both packages are hard linked into a subfolder inside a node_modules
folder (foo@1.0.0/node_modules/foo
). This is needed to:
- allow packages to import themselves.
foo
should be able torequire('foo/package.json')
orimport * as package from "foo/package.json"
. - avoid circular symlinks. Dependencies of packages are placed in the same folder in which the dependent packages are. For Node.js it doesn't make a difference whether dependencies are inside the package's
node_modules
or in any othernode_modules
in the parent directories.
The next stage of installation is symlinking dependencies. bar
is going to be symlinked to the foo@1.0.0/node_modules
folder:
node_modules
└── .pnpm
├── bar@1.0.0
│ └── node_modules
│ └── bar -> <store>/bar
└── foo@1.0.0
└── node_modules
├── foo -> <store>/foo
└── bar -> ../../bar@1.0.0/node_modules/bar
Next, direct dependencies are handled. foo
is going to be symlinked into the root node_modules
folder because foo
is a dependency of the project:
node_modules
├── foo -> ./.pnpm/foo@1.0.0/node_modules/foo
└── .pnpm
├── bar@1.0.0
│ └── node_modules
│ └── bar -> <store>/bar
└── foo@1.0.0
└── node_modules
├── foo -> <store>/foo
└── bar -> ../../bar@1.0.0/node_modules/bar
This is a very simple example. However, the layout will maintain this structure regardless of the number of dependencies and the depth of the dependency graph.
Let's add qar@2.0.0
as a dependency of bar
and foo
. This is how the new structure will look:
node_modules
├── foo -> ./.pnpm/foo@1.0.0/node_modules/foo
└── .pnpm
├── bar@1.0.0
│ └── node_modules
│ ├── bar -> <store>/bar
│ └── qar -> ../../qar@2.0.0/node_modules/qar
├── foo@1.0.0
│ └── node_modules
│ ├── foo -> <store>/foo
│ ├── bar -> ../../bar@1.0.0/node_modules/bar
│ └── qar -> ../../qar@2.0.0/node_modules/qar
└── qar@2.0.0
└── node_modules
└── qar -> <store>/qar
As you may see, even though the graph is deeper now (foo > bar > qar
), the directory depth in the file system is still the same.
This layout might look weird at first glance, but it is completely compatible with Node's module resolution algorithm! When resolving modules, Node ignores symlinks, so when bar
is required from foo@1.0.0/node_modules/foo/index.js
, Node does not use bar
at foo@1.0.0/node_modules/bar
, but instead, bar
is resolved to its real location (bar@1.0.0/node_modules/bar
). As a consequence, bar
can also resolve its dependencies which are in bar@1.0.0/node_modules
.
A great bonus of this layout is that only packages that are really in the dependencies are accessible. With a flattened node_modules
structure, all hoisted packages are accessible. To read more about why this is an advantage, see "pnpm's strictness helps to avoid silly bugs"