--- title: Verifying "npm ci" reproducibility date: 2018-08-01 layout: post lang: en ref: veryfing-npm-ci-reproducibility updated_at: 2019-05-22 --- When [npm@5](https://blog.npmjs.org/post/161081169345/v500) came bringing [package-locks](https://docs.npmjs.com/files/package-locks) with it, I was confused about the benefits it provided, since running `npm install` more than once could resolve all the dependencies again and yield yet another fresh `package-lock.json` file. The message saying "you should add this file to version control" left me hesitant on what to do[^1]. However the [addition of `npm ci`](https://blog.npmjs.org/post/171556855892/introducing-npm-ci-for-faster-more-reliable) filled this gap: it's a stricter variation of `npm install` which guarantees that "[subsequent installs are able to generate identical trees](https://docs.npmjs.com/files/package-lock.json)". But are they really identical? I could see that I didn't have the same problems of different installation outputs, but I didn't know for **sure** if it was really identical. ## Computing the hash of a directory's content I quickly searched for a way to check for the hash signature of an entire directory tree, but I couldn't find one. I've made a poor man's [Merkle tree](https://en.wikipedia.org/wiki/Merkle_tree) implementation using `sha256sum` and a few piped commands at the terminal: ```bash merkle-tree () { dirname="${1-.}" pushd "$dirname" find . -type f | \ sort | \ xargs -I{} sha256sum "{}" | \ sha256sum | \ awk '{print $1}' popd } ``` Going through it line by line: - #1 we define a Bash function called `merkle-tree`; - #2 it accepts a single argument: the directory to compute the merkle tree from. If nothing is given, it runs on the current directory (`.`); - #3 we go to the directory, so we don't get different prefixes in `find`'s output (like `../a/b`); - #4 we get all files from the directory tree. Since we're using `sha256sum` to compute the hash of the file contents, we need to filter out folders from it; - #5 we need to sort the output, since different file systems and `find` implementations may return files in different orders; - #6 we use `xargs` to compute the hash of each file individually through `sha256sum`. Since a file may contain spaces we need to escape it with quotes; - #7 we compute the hash of the combined hashes. Since `sha256sum` output is formatted like ` `, it produces a different final hash if a file ever changes name without changing it's content; - #8 we get the final hash output, excluding the `` (which is `-` in this case, aka `stdin`). ### Positive points: 1. ignore timestamp: running more than once on different installation yields the same hash; 2. the name of the file is included in the final hash computation. ### Limitations: 1. it ignores empty folders from the hash computation; 2. the implementation's only goal is to represent using a digest whether the content of a given directory is the same or not. Leaf presence checking is obviously missing from it. ### Testing locally with sample data ```bash mkdir /tmp/merkle-tree-test/ cd /tmp/merkle-tree-test/ mkdir -p a/b/ a/c/ d/ echo "one" > a/b/one.txt echo "two" > a/c/two.txt echo "three" > d/three.txt merkle-tree . # output is be343bb01fe00aeb8fef14a3e16b1c3d1dccbf86d7e41b4753e6ccb7dc3a57c3 merkle-tree . # output still is be343bb01fe00aeb8fef14a3e16b1c3d1dccbf86d7e41b4753e6ccb7dc3a57c3 echo "four" > d/four.txt merkle-tree . # output is now b5464b958969ed81815641ace96b33f7fd52c20db71a7fccc45a36b3a2ae4d4c rm d/four.txt merkle-tree . # output back to be343bb01fe00aeb8fef14a3e16b1c3d1dccbf86d7e41b4753e6ccb7dc3a57c3 echo "hidden-five" > a/b/one.txt merkle-tree . # output changed 471fae0d074947e4955e9ac53e95b56e4bc08d263d89d82003fb58a0ffba66f5 ``` It seems to work for this simple test case. You can try copying and pasting it to verify the hash signatures. ## Using `merkle-tree` to check the output of `npm ci` *I've done all of the following using Node.js v8.11.3 and npm@6.1.0.* In this test case I'll take the main repo of [Lerna](https://lernajs.io/)[^2]: ```bash cd /tmp/ git clone https://github.com/lerna/lerna.git cd lerna/ git checkout 57ff865c0839df75dbe1974971d7310f235e1109 npm ci merkle-tree node_modules/ # outputs 11e218c4ac32fac8a9607a8da644fe870a25c99821167d21b607af45699afafa rm -rf node_modules/ npm ci merkle-tree node_modules/ # outputs 11e218c4ac32fac8a9607a8da644fe870a25c99821167d21b607af45699afafa npm ci # test if it also works with an existing node_modules/ folder merkle-tree node_modules/ # outputs 11e218c4ac32fac8a9607a8da644fe870a25c99821167d21b607af45699afafa ``` Good job `npm ci` :) #6 and #9 take some time to run (21 seconds in my machine), but this specific use case isn't performance sensitive. The slowest step is computing the hash of each individual file. ## Conclusion `npm ci` really "generates identical trees". I'm not aware of any other existing solution for verifying the hash signature of a directory. If you know any I'd [like to know](mailto:eu@euandre.org). ## *Edit* 2019/05/22: Fix spelling. [^1]: The [documentation](https://docs.npmjs.com/cli/install#description) claims `npm install` is driven by the existing `package-lock.json`, but that's actually [a little bit tricky](https://github.com/npm/npm/issues/17979#issuecomment-332701215). [^2]: Finding a big known repo that actually committed the `package-lock.json` file was harder than I expected.