gristlabs_grist-core/app/server/lib/ICreate.ts

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import {GristDeploymentType} from 'app/common/gristUrls';
import {getThemeBackgroundSnippet} from 'app/common/Themes';
(core) Grace period and delete-only mode when exceeding row limit Summary: Builds upon https://phab.getgrist.com/D3328 - Add HomeDB column `Document.gracePeriodStart` - When the row count moves above the limit, set it to the current date. When it moves below, set it to null. - Add DataLimitStatus type indicating if the document is approaching the limit, is in a grace period, or is in delete only mode if the grace period started at least 14 days ago. Compute it in ActiveDoc and send it to client when opening. - Only allow certain user actions when in delete-only mode. Follow-up tasks related to this diff: - When DataLimitStatus in the client is non-empty, show a banner to the appropriate users. - Only send DataLimitStatus to users with the appropriate access. There's no risk landing this now since real users will only see null until free team sites are released. - Update DataLimitStatus immediately in the client when it changes, e.g. when user actions are applied or the product is changed. Right now it's only sent when the document loads. - Update row limit, grace period start, and data limit status in ActiveDoc when the product changes, i.e. the user upgrades/downgrades. - Account for data size when computing data limit status, not just row counts. See also the tasks mentioned in https://phab.getgrist.com/D3331 Test Plan: Extended FreeTeam nbrowser test, testing the 4 statuses. Reviewers: georgegevoian Reviewed By: georgegevoian Differential Revision: https://phab.getgrist.com/D3331
2022-03-24 12:05:51 +00:00
import {Document} from 'app/gen-server/entity/Document';
import {HomeDBManager} from 'app/gen-server/lib/HomeDBManager';
import {ExternalStorage} from 'app/server/lib/ExternalStorage';
import {createDummyTelemetry, GristServer} from 'app/server/lib/GristServer';
import {IBilling} from 'app/server/lib/IBilling';
import {INotifier} from 'app/server/lib/INotifier';
import {ISandbox, ISandboxCreationOptions} from 'app/server/lib/ISandbox';
import {IShell} from 'app/server/lib/IShell';
import {createSandbox, SpawnFn} from 'app/server/lib/NSandbox';
import {SqliteVariant} from 'app/server/lib/SqliteCommon';
import {ITelemetry} from 'app/server/lib/Telemetry';
export interface ICreate {
Billing(dbManager: HomeDBManager, gristConfig: GristServer): IBilling;
Notifier(dbManager: HomeDBManager, gristConfig: GristServer): INotifier;
Telemetry(dbManager: HomeDBManager, gristConfig: GristServer): ITelemetry;
Shell?(): IShell; // relevant to electron version of Grist only.
// Create a space to store files externally, for storing either:
// - documents. This store should be versioned, and can be eventually consistent.
// - meta. This store need not be versioned, and can be eventually consistent.
// For test purposes an extra prefix may be supplied. Stores with different prefixes
// should not interfere with each other.
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
ExternalStorage(purpose: 'doc' | 'meta', testExtraPrefix: string): ExternalStorage | undefined;
NSandbox(options: ISandboxCreationOptions): ISandbox;
deploymentType(): GristDeploymentType;
sessionSecret(): string;
// Check configuration of the app early enough to show on startup.
configure?(): Promise<void>;
// Optionally perform sanity checks on the configured storage, throwing a fatal error if it is not functional
checkBackend?(): Promise<void>;
// Return a string containing 1 or more HTML tags to insert into the head element of every
// static page.
getExtraHeadHtml?(): string;
getStorageOptions?(name: string): ICreateStorageOptions|undefined;
getSqliteVariant?(): SqliteVariant;
getSandboxVariants?(): Record<string, SpawnFn>;
}
export interface ICreateActiveDocOptions {
safeMode?: boolean;
docUrl?: string;
docApiUrl?: string;
(core) Grace period and delete-only mode when exceeding row limit Summary: Builds upon https://phab.getgrist.com/D3328 - Add HomeDB column `Document.gracePeriodStart` - When the row count moves above the limit, set it to the current date. When it moves below, set it to null. - Add DataLimitStatus type indicating if the document is approaching the limit, is in a grace period, or is in delete only mode if the grace period started at least 14 days ago. Compute it in ActiveDoc and send it to client when opening. - Only allow certain user actions when in delete-only mode. Follow-up tasks related to this diff: - When DataLimitStatus in the client is non-empty, show a banner to the appropriate users. - Only send DataLimitStatus to users with the appropriate access. There's no risk landing this now since real users will only see null until free team sites are released. - Update DataLimitStatus immediately in the client when it changes, e.g. when user actions are applied or the product is changed. Right now it's only sent when the document loads. - Update row limit, grace period start, and data limit status in ActiveDoc when the product changes, i.e. the user upgrades/downgrades. - Account for data size when computing data limit status, not just row counts. See also the tasks mentioned in https://phab.getgrist.com/D3331 Test Plan: Extended FreeTeam nbrowser test, testing the 4 statuses. Reviewers: georgegevoian Reviewed By: georgegevoian Differential Revision: https://phab.getgrist.com/D3331
2022-03-24 12:05:51 +00:00
doc?: Document;
}
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
export interface ICreateStorageOptions {
name: string;
check(): boolean;
checkBackend?(): Promise<void>;
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
create(purpose: 'doc'|'meta', extraPrefix: string): ExternalStorage|undefined;
}
export interface ICreateNotifierOptions {
create(dbManager: HomeDBManager, gristConfig: GristServer): INotifier|undefined;
}
export interface ICreateBillingOptions {
create(dbManager: HomeDBManager, gristConfig: GristServer): IBilling|undefined;
}
export interface ICreateTelemetryOptions {
create(dbManager: HomeDBManager, gristConfig: GristServer): ITelemetry|undefined;
}
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
export function makeSimpleCreator(opts: {
deploymentType: GristDeploymentType,
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
sessionSecret?: string,
storage?: ICreateStorageOptions[],
billing?: ICreateBillingOptions,
notifier?: ICreateNotifierOptions,
telemetry?: ICreateTelemetryOptions,
sandboxFlavor?: string,
shell?: IShell,
getExtraHeadHtml?: () => string,
getSqliteVariant?: () => SqliteVariant,
getSandboxVariants?: () => Record<string, SpawnFn>,
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
}): ICreate {
const {deploymentType, sessionSecret, storage, notifier, billing, telemetry} = opts;
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
return {
deploymentType() { return deploymentType; },
Billing(dbManager, gristConfig) {
return billing?.create(dbManager, gristConfig) ?? {
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
addEndpoints() { /* do nothing */ },
addEventHandlers() { /* do nothing */ },
addWebhooks() { /* do nothing */ },
async addMiddleware() { /* do nothing */ },
addPages() { /* do nothing */ },
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
};
},
Notifier(dbManager, gristConfig) {
return notifier?.create(dbManager, gristConfig) ?? {
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
get testPending() { return false; },
async deleteUser() { /* do nothing */ },
testSetSendMessageCallback() { return undefined; },
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
};
},
ExternalStorage(purpose, extraPrefix) {
for (const s of storage || []) {
if (s.check()) {
return s.create(purpose, extraPrefix);
}
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
}
return undefined;
},
Telemetry(dbManager, gristConfig) {
return telemetry?.create(dbManager, gristConfig) ?? createDummyTelemetry();
},
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
NSandbox(options) {
return createSandbox(opts.sandboxFlavor || 'unsandboxed', options);
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
},
sessionSecret() {
const secret = process.env.GRIST_SESSION_SECRET || sessionSecret;
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
if (!secret) {
throw new Error('need GRIST_SESSION_SECRET');
}
return secret;
},
async configure() {
for (const s of storage || []) {
if (s.check()) {
break;
}
}
},
async checkBackend() {
for (const s of storage || []) {
if (s.check()) {
await s.checkBackend?.();
break;
}
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
}
},
...(opts.shell && {
Shell() {
return opts.shell as IShell;
},
}),
getExtraHeadHtml() {
if (opts.getExtraHeadHtml) {
return opts.getExtraHeadHtml();
}
const elements: string[] = [];
if (process.env.APP_STATIC_INCLUDE_CUSTOM_CSS === 'true') {
elements.push('<link rel="stylesheet" href="custom.css">');
}
elements.push(getThemeBackgroundSnippet());
return elements.join('\n');
},
getStorageOptions(name: string) {
return storage?.find(s => s.name === name);
},
getSqliteVariant: opts.getSqliteVariant,
getSandboxVariants: opts.getSandboxVariants,
(core) add machinery for self-managed flavor of Grist Summary: Currently, we have two ways that we deliver Grist. One is grist-core, which has simple defaults and is relatively easy for third parties to deploy. The second is our internal build for our SaaS, which is the opposite. For self-managed Grist, a planned paid on-premise version of Grist, I adopt the following approach: * Use the `grist-core` build mechanism, extending it to accept an overlay of extra code if present. * Extra code is supplied in a self-contained `ext` directory, with an `ext/app` directory that is of same structure as core `app` and `stubs/app`. * The `ext` directory also contains information about extra node dependencies needed beyond that of `grist-core`. * The `ext` directory is contained within our monorepo rather than `grist-core` since it may contain material not under the Apache license. Docker builds are achieved in our monorepo by using the `--build-context` functionality to add in `ext` during the regular `grist-core` build: ``` docker buildx build --load -t gristlabs/grist-ee --build-context=ext=../ext . ``` Incremental builds in our monorepo are achieved with the `build_core.sh` helper, like: ``` buildtools/build_core.sh /tmp/self-managed cd /tmp/self-managed yarn start ``` The initial `ext` directory contains material for snapshotting to S3. If you build the docker image as above, and have S3 access, you can do something like: ``` docker run -p 8484:8484 --env GRIST_SESSION_SECRET=a-secret \ --env GRIST_DOCS_S3_BUCKET=grist-docs-test \ --env GRIST_DOCS_S3_PREFIX=self-managed \ -v $HOME/.aws:/root/.aws -it gristlabs/grist-ee ``` This will start a version of Grist that is like `grist-core` but with S3 snapshots enabled. To release this code to `grist-core`, it would just need to move from `ext/app` to `app` within core. I tried a lot of ways of organizing self-managed Grist, and this was what made me happiest. There are a lot of trade-offs, but here is what I was looking for: * Only OSS-code in grist-core. Adding mixed-license material there feels unfair to people already working with the repo. That said, a possible future is to move away from our private monorepo to a public mixed-licence repo, which could have the same relationship with grist-core as the monorepo has. * Minimal differences between self-managed builds and one of our existing builds, ideally hewing as close to grist-core as possible for ease of documentation, debugging, and maintenance. * Ideally, docker builds without copying files around (the new `--build-context` functionality made that possible). * Compatibility with monorepo build. Expressing dependencies of the extra code in `ext` proved tricky to do in a clean way. Yarn/npm fought me every step of the way - everything related to optional dependencies was unsatisfactory in some respect. Yarn2 is flexible but smells like it might be overreach. In the end, organizing to install non-core dependencies one directory up from the main build was a good simple trick that saved my bacon. This diff gets us to the point of building `grist-ee` images conveniently, but there isn't a public repo people can go look at to see its source. This could be generated by taking `grist-core`, adding the `ext` directory to it, and pushing to a distinct repository. I'm not in a hurry to do that, since a PR to that repo would be hard to sync with our monorepo and `grist-core`. Also, we don't have any licensing text ready for the `ext` directory. So leaving that for future work. Test Plan: manual Reviewers: georgegevoian, alexmojaki Reviewed By: georgegevoian, alexmojaki Differential Revision: https://phab.getgrist.com/D3415
2022-05-12 15:24:48 +00:00
};
}