* Experiment with gotestsum and test timings
* Fix to locating the helper script
* Fix the code for installing gotestsum
* Try alternative installation method
* Use go to compute test stats; Python fails parsing time values
* Try version without v
* Try with fixed gorelaser config
* Fix test time correlation
* Try a stable test stat sort finally
* Use more accurate test duration aggregation
* Include python and auto-api tests in the Go timing counts
* Bring back TESTPARALLELISM
* Fix test compilation
* Only top 100 slow tests
* Try to fracture build matrix to fan out tests
* Do not run Publish Test Results on unsuppored Mac
* Auto-create test-results-dir
* Fix new flaky test by polling for logs
* Try to move native tests to their own config
* Actually skip
* Do not fail on empty test-results folder
* Try again
* Try once more
* Integration test config is the crit path - make it smaller
* Squash underutilized test configurations
* Remove the test result summary box from PR - counts now incorrec
* Remove debugging step
This change is a simple perf optimization to speed up the process of listing plugins by excluding some metadata like size by default.
Our strategy for finding a plugin is to first look on the path, and then to iterate through all plugins in the plugin cache (a directory). We do this for each plugin that is loaded when NewProvider is called. Unfortunately, the codepath that gets all plugins is shared by pulumi plugin ls that needs to do things like display the total size of all plugins, the size of each plugin, and when the plugin was last installed/last used.
This means that any time a plugin is loaded, we are computing the size of all plugins by recursively enumerating all folder (including all of the node_modules directories of any installed node multi-lang plugins!). For my 5 gb of node plugins this translated to 10s of overhead each time a plugin was loaded.
This change is a very simple fix. pulumi plugin ls is the only code path that uses size, so we create a dedicated code path GetPluginsWithMetadata that populates that info, excluding from the result of GetPlugins by default.
* Send plugin install output to stderr
We currently send plugin install output to stdout. This interferes
with --json (#5747), automation API scenarios, and in general is bad
CLI hygiene. This change sends plugin output to stdout instead.
* Add a changelog entry
This commit makes it possible to opt out of loading plugins from PATH by
setting PULUMI_IGNORE_AMBIENT_PLUGINS to any non-empty value. This is
useful when automatic IDE tooling may build remote component plugins
into GOBIN unbeknownst to the user, and a resulting stale version of the
plugin is loaded in place of newer versions - even those , explicitly
installed.
#6636 inadvertently changed the minimum Go version
requirement to 1.16 since ReadFile was moved in that
version. Switch back to ioutil.ReadFile to avoid forcing
an upgrade at this time.
Some YAML parsers don't correctly handle Byte-order marks,
so automatically strip it off during load.
Related to #423
Co-authored-by: Justin Van Patten <jvp@justinvp.com>
* [sdk/go] Cache loaded configuration files
Previously, the CLI did not cache configuration files, which
required a read from disk + unmarshalling + validation each
time a consumer needed to read one of these configurations.
This change introduces global caches for each type of Pulumi
configuration file (Project, ProjectStack, PolicyPackProject, and
PluginProject). The configuration is cached after the first request
and the cached value will be used for any subsequent operations.
Important note: The global configurations are not concurrency safe,
but this same problem exists using the previous method of
reading/writing config files on disk. Synchronization
will be added in a follow up change to allow for concurrency safe config
operations.
When using the filestate backend (local files and cloud buckets) there is no protection to prevent two processes from managing the same stack simultaneously.
This PR creates a locks directory in the management directory that stores lock files for a stack. Each backend implementation gets its own UUID that is joined with the stack name. The feature is currently available behind the `PULUMI_SELF_MANAGED_STATE_LOCKING=1` environment variable flag.
* Do not read TGZs into memory.
This runs a serious risk of exhausting the memory on lower-end machines
(e.g. certain CI VMs), especially given the potential size of some
plugins.
* CHANGELOG
* fixes
This re-applies the fix in 5857 to make credentials.json writes concurrency safe.
The original fix used `path.Dir` instead of `filepath.Dir` - which led to not placing the temp file in the same folder (and drive) as the renamed file target. This led to errors on Windows environments where the working directory was on a different drive than the `~/.pulumi` directory. The change to use `filepath.Dir` instead ensures that even on Windows, the true directory containing the credentials file is used for the temp file as well.
Fixes#3877.
Implement GetRequiredPlugins for Python, which determines the plugins
required by the program.
Also, if the `virtualenv` runtime option is set, and the specified
virtual directory is missing or empty, automatically create it and
install dependencies into it.
Running `pulumi` operations in parallel could occasionally result in truncating the `~/.pulumi/credentials.json` file and reading that truncated file from another process before the content could be written.
Instead, use `os.Rename` to atomically replace the file contents.
Concurrent `pulumi` operations could still compete for who gets to write the file first, and could lead to surprising results in some extreme cases. But we should not see the corrupted file contents any longer.
Fixes#3877.
The PULUMI_BACKEND_URL env var allows specifying the backend to use instead of deferring to the project or the ~/.pulumi/credentials.json file to decide on the "current" backend. This allows for using Pulumi without a dependence on this piece of global filesystem state, so that each `pulumi` invocation can control the exact backend it want's to operate on, without having to do stateful `pulumi login`/`pulumi logout` operations.
This is especially useful for automation scenarios like Automation API generally (and effectively solves https://github.com/pulumi/pulumi/issues/5591), or https://github.com/pulumi/pulumi-kubernetes-operator/issues/83 specifically.
This also makes things like efe7a599e6/dist/actions/entrypoint.sh (L10) less necessary, and possible to accomplish for any containerized `pulumi` execution without the need for this logic to be embedded in bash scripts wrapping the CLI.
Two improvements:
1. Don't display "[resource plugin <foo>] installing" if the plugin is already installed.
2. Close the plugin download progress bar before displaying any subsequent output, and only show output of `npm install` when there is an error.
When installing a plugin, previous versions of Pulumi extracted the
plugin tarball to a temp directory and then renamed the temp directory
to the final plugin directory. This was done to prevent concurrent
installs: if a process fails to rename the temp dir because the final
dir already exists, it means another process already installed the
plugin. Unfortunately, on Windows the rename operation often fails due
to aggressive virus scanners opening files in the temp dir.
In order to provide reliable plugin installs on Windows, we now extract
the tarball directly into the final directory, and use file locks to
prevent concurrent installs from toppling over one another.
During install, a lock file is created in the plugin cache directory
with the same name as the plugin's final directory but suffixed with
`.lock`. The process that obtains the lock is responsible for extracting
the tarball. Before it does that, it cleans up any previous temp
directories of failed installs of previous versions of Pulumi. Then it
creates an empty `.partial` file next to the `.lock` file. The
`.partial` file indicates an installation is in-progress. The `.partial`
file is deleted when installation is complete, indicating the plugin was
successfully installed. If a failure occurs during installation, the
`.partial` file will remain indicating the plugin wasn't fully
installed. The next time the plugin is installed, the old installation
directory will be removed and replaced with a fresh install.
This is the same approach Go uses for installing modules in its
module cache.
The logic for validating prompted values in 'new' wasn't quite right,
leading to the possibility of creating Pulumi.yaml files with blank
project names.
This manifests in various ways and I've hit it a number of times
over the past few months because of the way we handle project/stack
name conflicts in 'new' -- which itself is a bit annoying too:
https://github.com/pulumi/pulumi/blob/master/pkg/cmd/pulumi/new.go#L206-L207
Because we substitue a default value of "", and because the prompting
logic assumed default values are always valid, we would skip validation
and therefore accept a blank Pulumi.yaml file.
This generates an invalid project which causes errors elsewhere, such as
error: failed to load Pulumi project located at ".../Pulumi.yaml":
project is missing a 'name' attribute
I hit this all the time with our getting started guide because I've
gone through it so many times and have leftover stacks from prior
run-throughs. I wouldn't be surprised if a lot of people hit this.
The solution here validates all values, including the default.
Note also that we failed to validate the value used by 'new --yes'
which meant you could bypass all validation by passing --yes, leading
to similar outcomes.
I've added a couple new tests for these cases. There is a risk we
depend on illegal default values somewhere which will now be rejected,
but that would seem strange, and assuming the tests pass, I would
assume that's not true. Let me know if that's wrong.
Fixespulumi/pulumi#3255.
When installing a plugin, if it contains a `PulumiPlugin.yaml` file with a `runtime` value of `nodejs` or `python`, install dependencies for the plugin.
For Node.js, `npm install` is run (or `yarn install` if `PULUMI_PREFER_YARN` is set).
For Python, a virtual environment is created and deps installed into it.
We make several calls to `os/user`, which uses CGO and means
cross-compilation is not possible. This replaces `os/user` with the
`luser` package, which is a drop-in replacement which does not use `CGO`
* Make `async:true` the default for `invoke` calls (#3750)
* Switch away from native grpc impl. (#3728)
* Remove usage of the 'deasync' library from @pulumi/pulumi. (#3752)
* Only retry as long as we get unavailable back. Anything else continues. (#3769)
* Handle all errors for now. (#3781)
* Do not assume --yes was present when using pulumi in non-interactive mode (#3793)
* Upgrade all paths for sdk and pkg to v2
* Backport C# invoke classes and other recent gen changes (#4288)
Adjust C# generation
* Replace IDeployment with a sealed class (#4318)
Replace IDeployment with a sealed class
* .NET: default to args subtype rather than Args.Empty (#4320)
* Adding system namespace for Dotnet code gen
This is required for using Obsolute attributes for deprecations
```
Iam/InstanceProfile.cs(142,10): error CS0246: The type or namespace name 'ObsoleteAttribute' could not be found (are you missing a using directive or an assembly reference?) [/Users/stack72/code/go/src/github.com/pulumi/pulumi-aws/sdk/dotnet/Pulumi.Aws.csproj]
Iam/InstanceProfile.cs(142,10): error CS0246: The type or namespace name 'Obsolete' could not be found (are you missing a using directive or an assembly reference?) [/Users/stack72/code/go/src/github.com/pulumi/pulumi-aws/sdk/dotnet/Pulumi.Aws.csproj]
```
* Fix the nullability of config type properties in C# codegen (#4379)