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base: busya:006-configurable-belief-logs
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busya:migration busya:013-unify-frontend-css busya:011-git-integration-dashboard busya:master busya:012-remove-superset-tool busya:010-refactor-cli-to-web busya:009-backup-scheduler busya:008-migration-ui-improvements busya:007-migration-dashboard-grid busya:006-configurable-belief-logs busya:001-migration-ui-redesign busya:001-fix-ui-ws-validation
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compare: busya:45c077b928585157446e627ffd14823d47efdedc
Branches Tags
busya:013-unify-frontend-css busya:011-git-integration-dashboard busya:master busya:012-remove-superset-tool busya:010-refactor-cli-to-web busya:009-backup-scheduler busya:008-migration-ui-improvements busya:007-migration-dashboard-grid busya:006-configurable-belief-logs busya:migration busya:001-migration-ui-redesign busya:001-fix-ui-ws-validation

13 Commits
006-config ... 45c077b928

Author SHA1 Message Date
busya
45c077b928 +api rework 2025-12-30 20:08:48 +03:00
busya
9ed3a5992d cleaned 2025-12-30 18:20:40 +03:00
busya
a032fe8457 Password promt 2025-12-30 17:21:12 +03:00
busya
4c9d554432 TaskManager refactor 2025-12-29 10:13:37 +03:00
busya
6962a78112 mappings+migrate 2025-12-27 10:16:41 +03:00
busya
3d75a21127 tech_lead / coder 2roles 2025-12-27 08:02:59 +03:00
busya
07914c8728 semantic add 2025-12-27 07:14:08 +03:00
busya
cddc259b76 new loggers logic in constitution 2025-12-27 06:51:28 +03:00
busya
dcbf0a7d7f tasks ready 2025-12-27 06:37:03 +03:00
busya
65f61c1f80 Merge branch '001-migration-ui-redesign' into master 2025-12-27 05:58:35 +03:00
busya
4aa01b6470 Merge branch 'migration' into 001-migration-ui-redesign 2025-12-26 18:16:24 +03:00
busya
35b423979d spec rules 2025-12-25 22:28:42 +03:00
busya
2ffc3cc68f feat(migration): implement interactive mapping resolution workflow 
- Add SQLite database integration for environments and mappings
- Update TaskManager to support pausing tasks (AWAITING_MAPPING)
- Modify MigrationPlugin to detect missing mappings and wait for resolution
- Add frontend UI for handling missing mappings interactively
- Create dedicated migration routes and API endpoints
- Update .gitignore and project documentation
 2025-12-25 22:27:29 +03:00
109 changed files with 4950 additions and 11214 deletions
Expand all files Collapse all files

13
.kilocode/rules/specify-rules.md
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@@ -9,6 +9,13 @@ Auto-generated from all feature plans. Last updated: 2025-12-19
- Python 3.9+, Node.js 18+ + FastAPI, SvelteKit, Tailwind CSS, Pydantic (005-fix-ui-ws-validation)
- N/A (Configuration based) (005-fix-ui-ws-validation)
- Filesystem (plugins, logs, backups), SQLite (optional, for job history if needed) (005-fix-ui-ws-validation)
- Python 3.9+ (Backend), Node.js 18+ (Frontend) + FastAPI, SvelteKit, Tailwind CSS (007-migration-dashboard-grid)
- N/A (Superset API integration) (007-migration-dashboard-grid)
- Python 3.9+ (Backend), Node.js 18+ (Frontend) + FastAPI, SvelteKit, Tailwind CSS, Pydantic, Superset API (007-migration-dashboard-grid)
- N/A (Superset API integration - read-only for metadata) (007-migration-dashboard-grid)
- Python 3.9+ (backend), Node.js 18+ (frontend) + FastAPI, SvelteKit, Tailwind CSS, Pydantic, SQLAlchemy, Superset API (008-migration-ui-improvements)
- SQLite (optional for job history), existing database for mappings (008-migration-ui-improvements)
- Python 3.9+, Node.js 18+ + FastAPI, SvelteKit, Tailwind CSS, Pydantic, SQLAlchemy, Superset API (008-migration-ui-improvements)
- Python 3.9+ (Backend), Node.js 18+ (Frontend Build) (001-plugin-arch-svelte-ui)
@@ -29,9 +36,9 @@ cd src; pytest; ruff check .
Python 3.9+ (Backend), Node.js 18+ (Frontend Build): Follow standard conventions
## Recent Changes
- 006-configurable-belief-logs: Added Python 3.9+ + FastAPI (Backend), Pydantic (Config), Svelte (Frontend)
- 005-fix-ui-ws-validation: Added Python 3.9+ (Backend), Node.js 18+ (Frontend Build)
- 005-fix-ui-ws-validation: Added Python 3.9+, Node.js 18+ + FastAPI, SvelteKit, Tailwind CSS, Pydantic
- 008-migration-ui-improvements: Added Python 3.9+, Node.js 18+ + FastAPI, SvelteKit, Tailwind CSS, Pydantic, SQLAlchemy, Superset API
- 008-migration-ui-improvements: Added Python 3.9+ (backend), Node.js 18+ (frontend) + FastAPI, SvelteKit, Tailwind CSS, Pydantic, SQLAlchemy, Superset API
- 007-migration-dashboard-grid: Added Python 3.9+ (Backend), Node.js 18+ (Frontend) + FastAPI, SvelteKit, Tailwind CSS, Pydantic, Superset API
<!-- MANUAL ADDITIONS START -->

25
.kilocodemodes Normal file
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@@ -0,0 +1,25 @@
customModes:
- slug: tester
name: Tester
description: QA and Plan Verification Specialist
roleDefinition: >-
You are Kilo Code, acting as a QA and Verification Specialist. Your primary goal is to validate that the project implementation aligns strictly with the defined specifications and task plans.
Your responsibilities include:
- Reading and analyzing task plans and specifications (typically in the `specs/` directory).
- Verifying that implemented code matches the requirements.
- Executing tests and validating system behavior via CLI or Browser.
- Updating the status of tasks in the plan files (e.g., marking checkboxes [x]) as they are verified.
- Identifying and reporting missing features or bugs.
whenToUse: >-
Use this mode when you need to audit the progress of a project, verify completed tasks against the plan, run quality assurance checks, or update the status of task lists in specification documents.
groups:
- read
- edit
- command
- browser
- mcp
customInstructions: >-
1. Always begin by loading the relevant plan or task list from the `specs/` directory.
2. Do not assume a task is done just because it is checked; verify the code or functionality first if asked to audit.
3. When updating task lists, ensure you only mark items as complete if you have verified them.

61
.specify/memory/constitution.md
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@@ -1,14 +1,14 @@
<!--
SYNC IMPACT REPORT
Version: 1.1.0 (Svelte Support)
Version: 1.5.0 (Fractal Complexity Limit)
Changes:
- Added Svelte Component semantic markup standards.
- Updated File Structure Standards to include `.svelte` files.
- Refined File Structure Standards to distinguish between Python Modules and Svelte Components.
- Added Section VI (Fractal Complexity Limit) to enforce strict module (~300 lines) and function (~30-50 lines) size limits.
- Aims to maintain semantic coherence and avoid "Attention Sink".
Templates Status:
- .specify/templates/plan-template.md: ⚠ Pending (Needs update to include Component headers in checks).
- .specify/templates/plan-template.md: ✅ Aligned.
- .specify/templates/spec-template.md: ✅ Aligned.
- .specify/templates/tasks-template.md: ⚠ Pending (Needs update to include Component definition tasks).
- .specify/templates/tasks-arch-template.md: ✅ Aligned (New role-based split).
- .specify/templates/tasks-dev-template.md: ✅ Aligned (New role-based split).
-->
# Semantic Code Generation Constitution
@@ -21,13 +21,31 @@ Semantic definitions (Contracts) must ALWAYS precede implementation code. Logic
Once defined, architectural decisions in the Module Header (`@LAYER`, `@INVARIANT`, `@CONSTRAINT`) are treated as immutable constraints for that module. Changes to these require an explicit refactoring step, not ad-hoc modification during implementation.
### III. Semantic Format Compliance
All output must strictly follow the `[DEF]` / `[/DEF]` anchor syntax with specific Metadata Tags (`@KEY`) and Graph Relations (`@RELATION`). This structure is non-negotiable as it ensures the codebase remains machine-readable, fractal-structured, and optimized for Sparse Attention navigation by AI agents.
All output must strictly follow the `[DEF]` / `[/DEF]` anchor syntax with specific Metadata Tags (`@KEY`) and Graph Relations (`@RELATION`). **Crucially, the closing anchor must strictly match the full content of the opening anchor (e.g., `[DEF:identifier:Type]` must close with `[/DEF:identifier:Type]`).**
**Standardized Graph Relations**
To ensure the integrity of the Semantic Graph, `@RELATION` must use a strict taxonomy:
- `DEPENDS_ON` (Structural dependency)
- `CALLS` (Flow control)
- `CREATES` (Instantiation)
- `INHERITS_FROM` / `IMPLEMENTS` (OOP hierarchy)
- `READS_STATE` / `WRITES_STATE` (Data flow)
- `DISPATCHES` / `HANDLES` (Event flow)
Ad-hoc relationships are forbidden. This structure is non-negotiable as it ensures the codebase remains machine-readable, fractal-structured, and optimized for Sparse Attention navigation by AI agents.
### IV. Design by Contract (DbC)
Contracts are the Source of Truth. Functions and Classes must define their purpose, specifications, and constraints (`@PRE`, `@POST`, `@THROW`) in the metadata block before implementation. Implementation must strictly satisfy these contracts.
### V. Belief State Logging
Logs must define the agent's internal state for debugging and coherence checks. We use a strict format: `logger.level(f"[{ANCHOR_ID}][{STATE}] {MESSAGE} context={...}")` to track transitions between `Entry`, `Validation`, `Action`, and `Coherence` states.
Logs must define the agent's internal state for debugging and coherence checks. We use a strict format: `[{ANCHOR_ID}][{STATE}] {MESSAGE}`. For Python, a **Context Manager** pattern MUST be used to automatically handle `Entry`, `Exit`, and `Coherence` states, ensuring structural integrity and error capturing.
### VI. Fractal Complexity Limit
To maintain semantic coherence and avoid "Attention Sink" issues:
- **Module Size**: If a Module body exceeds ~300 lines (or logical complexity), it MUST be refactored into sub-modules or a package structure.
- **Function Size**: Functions should fit within a standard attention "chunk" (approx. 30-50 lines). If larger, logic MUST be decomposed into helper functions with their own contracts.
This ensures every vector embedding remains sharp and focused.
## File Structure Standards
@@ -51,11 +69,24 @@ Every `.svelte` file must start with a Component definition header (`[DEF:Compon
- `@INVARIANT`: Immutable UI/State rules.
## Generation Workflow
The development process follows a strict sequence:
1. **Analyze Request**: Identify target module and graph position.
2. **Define Structure**: Generate `[DEF]` anchors and Contracts FIRST.
3. **Implement Logic**: Write code satisfying Contracts.
4. **Validate**: If logic conflicts with Contract -> Stop -> Report Error.
The development process follows a strict sequence enforced by Agent Roles:
### 1. Architecture Phase (Mode: `tech-lead`)
**Input**: `tasks-arch.md`
**Responsibility**:
- Analyze request and graph position.
- Generate `[DEF]` anchors, Headers, and Contracts (`@PRE`, `@POST`).
- **Output**: Scaffolding files with no implementation logic.
### 2. Implementation Phase (Mode: `code`)
**Input**: `tasks-dev.md` + Scaffolding files
**Responsibility**:
- Read contracts defined by Architect.
- Write implementation code that strictly satisfies contracts.
- **Output**: Working code with passing tests.
### 3. Validation
If logic conflicts with Contract -> Stop -> Report Error.
## Governance
This Constitution establishes the "Semantic Code Generation Protocol" as the supreme law of this repository.
@@ -63,6 +94,6 @@ This Constitution establishes the "Semantic Code Generation Protocol" as the sup
- **Automated Enforcement**: All code generation tools and agents must parse and validate adherence to the `[DEF]` syntax and Contract requirements.
- **Amendments**: Changes to the syntax or core principles require a formal amendment to this Constitution and a corresponding update to the constitution
- **Review**: Code reviews must verify that implementation matches the preceding contracts and that no "naked code" exists outside of semantic anchors.
- **Compliance**: Failure to adhere to the `[DEF]` / `[/DEF]` structure constitutes a build failure.
- **Compliance**: Failure to adhere to the `[DEF]` / `[/DEF]` structure (including matching closing tags) constitutes a build failure.
**Version**: 1.1.0 | **Ratified**: 2025-12-19 | **Last Amended**: 2025-12-19
**Version**: 1.5.0 | **Ratified**: 2025-12-19 | **Last Amended**: 2025-12-27

54
.specify/scripts/bash/check-prerequisites.sh
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@@ -9,8 +9,8 @@
#
# OPTIONS:
# --json Output in JSON format
# --require-tasks Require tasks.md to exist (for implementation phase)
# --include-tasks Include tasks.md in AVAILABLE_DOCS list
# --require-tasks Require tasks-arch.md and tasks-dev.md to exist (for implementation phase)
# --include-tasks Include task files in AVAILABLE_DOCS list
# --paths-only Only output path variables (no validation)
# --help, -h Show help message
#
@@ -49,8 +49,8 @@ Consolidated prerequisite checking for Spec-Driven Development workflow.
OPTIONS:
--json Output in JSON format
--require-tasks Require tasks.md to exist (for implementation phase)
--include-tasks Include tasks.md in AVAILABLE_DOCS list
--require-tasks Require tasks-arch.md and tasks-dev.md to exist (for implementation phase)
--include-tasks Include task files in AVAILABLE_DOCS list
--paths-only Only output path variables (no prerequisite validation)
--help, -h Show this help message
@@ -58,7 +58,7 @@ EXAMPLES:
# Check task prerequisites (plan.md required)
./check-prerequisites.sh --json
# Check implementation prerequisites (plan.md + tasks.md required)
# Check implementation prerequisites (plan.md + task files required)
./check-prerequisites.sh --json --require-tasks --include-tasks
# Get feature paths only (no validation)
@@ -86,15 +86,16 @@ check_feature_branch "$CURRENT_BRANCH" "$HAS_GIT" || exit 1
if $PATHS_ONLY; then
if $JSON_MODE; then
# Minimal JSON paths payload (no validation performed)
printf '{"REPO_ROOT":"%s","BRANCH":"%s","FEATURE_DIR":"%s","FEATURE_SPEC":"%s","IMPL_PLAN":"%s","TASKS":"%s"}\n' \
"$REPO_ROOT" "$CURRENT_BRANCH" "$FEATURE_DIR" "$FEATURE_SPEC" "$IMPL_PLAN" "$TASKS"
printf '{"REPO_ROOT":"%s","BRANCH":"%s","FEATURE_DIR":"%s","FEATURE_SPEC":"%s","IMPL_PLAN":"%s","TASKS_ARCH":"%s","TASKS_DEV":"%s"}\n' \
"$REPO_ROOT" "$CURRENT_BRANCH" "$FEATURE_DIR" "$FEATURE_SPEC" "$IMPL_PLAN" "$TASKS_ARCH" "$TASKS_DEV"
else
echo "REPO_ROOT: $REPO_ROOT"
echo "BRANCH: $CURRENT_BRANCH"
echo "FEATURE_DIR: $FEATURE_DIR"
echo "FEATURE_SPEC: $FEATURE_SPEC"
echo "IMPL_PLAN: $IMPL_PLAN"
echo "TASKS: $TASKS"
echo "TASKS_ARCH: $TASKS_ARCH"
echo "TASKS_DEV: $TASKS_DEV"
fi
exit 0
fi
@@ -112,11 +113,20 @@ if [[ ! -f "$IMPL_PLAN" ]]; then
exit 1
fi
# Check for tasks.md if required
if $REQUIRE_TASKS && [[ ! -f "$TASKS" ]]; then
echo "ERROR: tasks.md not found in $FEATURE_DIR" >&2
echo "Run /speckit.tasks first to create the task list." >&2
exit 1
# Check for task files if required
if $REQUIRE_TASKS; then
# Check for split tasks first
if [[ -f "$TASKS_ARCH" ]] && [[ -f "$TASKS_DEV" ]]; then
: # Split tasks exist, proceed
# Fallback to unified tasks.md
elif [[ -f "$TASKS" ]]; then
: # Unified tasks exist, proceed
else
echo "ERROR: No valid task files found in $FEATURE_DIR" >&2
echo "Expected 'tasks-arch.md' AND 'tasks-dev.md' (split) OR 'tasks.md' (unified)" >&2
echo "Run /speckit.tasks first to create the task lists." >&2
exit 1
fi
fi
# Build list of available documents
@@ -133,9 +143,14 @@ fi
[[ -f "$QUICKSTART" ]] && docs+=("quickstart.md")
# Include tasks.md if requested and it exists
if $INCLUDE_TASKS && [[ -f "$TASKS" ]]; then
docs+=("tasks.md")
# Include task files if requested and they exist
if $INCLUDE_TASKS; then
if [[ -f "$TASKS_ARCH" ]] || [[ -f "$TASKS_DEV" ]]; then
[[ -f "$TASKS_ARCH" ]] && docs+=("tasks-arch.md")
[[ -f "$TASKS_DEV" ]] && docs+=("tasks-dev.md")
elif [[ -f "$TASKS" ]]; then
docs+=("tasks.md")
fi
fi
# Output results
@@ -161,6 +176,11 @@ else
check_file "$QUICKSTART" "quickstart.md"
if $INCLUDE_TASKS; then
check_file "$TASKS" "tasks.md"
if [[ -f "$TASKS_ARCH" ]] || [[ -f "$TASKS_DEV" ]]; then
check_file "$TASKS_ARCH" "tasks-arch.md"
check_file "$TASKS_DEV" "tasks-dev.md"
else
check_file "$TASKS" "tasks.md"
fi
fi
fi

4
.specify/scripts/bash/common.sh
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@@ -143,7 +143,9 @@ HAS_GIT='$has_git_repo'
FEATURE_DIR='$feature_dir'
FEATURE_SPEC='$feature_dir/spec.md'
IMPL_PLAN='$feature_dir/plan.md'
TASKS='$feature_dir/tasks.md'
TASKS_ARCH='$feature_dir/tasks-arch.md'
TASKS_DEV='$feature_dir/tasks-dev.md'
TASKS='$feature_dir/tasks.md' # Deprecated
RESEARCH='$feature_dir/research.md'
DATA_MODEL='$feature_dir/data-model.md'
QUICKSTART='$feature_dir/quickstart.md'

35
.specify/templates/tasks-arch-template.md Normal file
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@@ -0,0 +1,35 @@
---
description: "Architecture task list template (Contracts & Scaffolding)"
---
# Architecture Tasks: [FEATURE NAME]
**Role**: Architect Agent
**Goal**: Define the "What" and "Why" (Contracts, Scaffolding, Models) before implementation.
**Input**: Design documents from `/specs/[###-feature-name]/`
**Output**: Files with `[DEF]` anchors, `@PRE`/`@POST` contracts, and `@RELATION` mappings. No business logic.
## Phase 1: Setup & Models
- [ ] A001 Create/Update data models in [path] with `[DEF]` and contracts
- [ ] A002 Define API route structure/contracts in [path]
- [ ] A003 Define shared utilities/interfaces
## Phase 2: User Story 1 - [Title]
- [ ] A004 [US1] Define contracts for [Component/Service] in [path]
- [ ] A005 [US1] Define contracts for [Endpoint] in [path]
- [ ] A006 [US1] Define contracts for [Frontend Component] in [path]
## Phase 3: User Story 2 - [Title]
- [ ] A007 [US2] Define contracts for [Component/Service] in [path]
- [ ] A008 [US2] Define contracts for [Endpoint] in [path]
## Handover Checklist
- [ ] All new files created with `[DEF]` anchors
- [ ] All functions/classes have `@PURPOSE`, `@PRE`, `@POST` tags
- [ ] No "naked code" (logic outside of anchors)
- [ ] `tasks-dev.md` is ready for the Developer Agent

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@@ -0,0 +1,35 @@
---
description: "Developer task list template (Implementation Logic)"
---
# Developer Tasks: [FEATURE NAME]
**Role**: Developer Agent
**Goal**: Implement the "How" (Logic, State, Error Handling) inside the defined contracts.
**Input**: `tasks-arch.md` (completed), Scaffolding files with `[DEF]` anchors.
**Output**: Working code that satisfies `@PRE`/`@POST` conditions.
## Phase 1: Setup & Models
- [ ] D001 Implement logic for [Model] in [path]
- [ ] D002 Implement logic for [API Route] in [path]
- [ ] D003 Implement shared utilities
## Phase 2: User Story 1 - [Title]
- [ ] D004 [US1] Implement logic for [Component/Service] in [path]
- [ ] D005 [US1] Implement logic for [Endpoint] in [path]
- [ ] D006 [US1] Implement logic for [Frontend Component] in [path]
- [ ] D007 [US1] Verify semantic compliance and belief state logging
## Phase 3: User Story 2 - [Title]
- [ ] D008 [US2] Implement logic for [Component/Service] in [path]
- [ ] D009 [US2] Implement logic for [Endpoint] in [path]
## Polish & Quality Assurance
- [ ] DXXX Verify all tests pass
- [ ] DXXX Check error handling and edge cases
- [ ] DXXX Ensure code style compliance

251
.specify/templates/tasks-template.md
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@@ -1,251 +0,0 @@
---
description: "Task list template for feature implementation"
---
# Tasks: [FEATURE NAME]
**Input**: Design documents from `/specs/[###-feature-name]/`
**Prerequisites**: plan.md (required), spec.md (required for user stories), research.md, data-model.md, contracts/
**Tests**: The examples below include test tasks. Tests are OPTIONAL - only include them if explicitly requested in the feature specification.
**Organization**: Tasks are grouped by user story to enable independent implementation and testing of each story.
## Format: `[ID] [P?] [Story] Description`
- **[P]**: Can run in parallel (different files, no dependencies)
- **[Story]**: Which user story this task belongs to (e.g., US1, US2, US3)
- Include exact file paths in descriptions
## Path Conventions
- **Single project**: `src/`, `tests/` at repository root
- **Web app**: `backend/src/`, `frontend/src/`
- **Mobile**: `api/src/`, `ios/src/` or `android/src/`
- Paths shown below assume single project - adjust based on plan.md structure
<!--
============================================================================
IMPORTANT: The tasks below are SAMPLE TASKS for illustration purposes only.
The /speckit.tasks command MUST replace these with actual tasks based on:
- User stories from spec.md (with their priorities P1, P2, P3...)
- Feature requirements from plan.md
- Entities from data-model.md
- Endpoints from contracts/
Tasks MUST be organized by user story so each story can be:
- Implemented independently
- Tested independently
- Delivered as an MVP increment
DO NOT keep these sample tasks in the generated tasks.md file.
============================================================================
-->
## Phase 1: Setup (Shared Infrastructure)
**Purpose**: Project initialization and basic structure
- [ ] T001 Create project structure per implementation plan
- [ ] T002 Initialize [language] project with [framework] dependencies
- [ ] T003 [P] Configure linting and formatting tools
---
## Phase 2: Foundational (Blocking Prerequisites)
**Purpose**: Core infrastructure that MUST be complete before ANY user story can be implemented
**⚠️ CRITICAL**: No user story work can begin until this phase is complete
Examples of foundational tasks (adjust based on your project):
- [ ] T004 Setup database schema and migrations framework
- [ ] T005 [P] Implement authentication/authorization framework
- [ ] T006 [P] Setup API routing and middleware structure
- [ ] T007 Create base models/entities that all stories depend on
- [ ] T008 Configure error handling and logging infrastructure
- [ ] T009 Setup environment configuration management
**Checkpoint**: Foundation ready - user story implementation can now begin in parallel
---
## Phase 3: User Story 1 - [Title] (Priority: P1) 🎯 MVP
**Goal**: [Brief description of what this story delivers]
**Independent Test**: [How to verify this story works on its own]
### Tests for User Story 1 (OPTIONAL - only if tests requested) ⚠️
> **NOTE: Write these tests FIRST, ensure they FAIL before implementation**
- [ ] T010 [P] [US1] Contract test for [endpoint] in tests/contract/test_[name].py
- [ ] T011 [P] [US1] Integration test for [user journey] in tests/integration/test_[name].py
### Implementation for User Story 1
- [ ] T012 [P] [US1] Create [Entity1] model in src/models/[entity1].py
- [ ] T013 [P] [US1] Create [Entity2] model in src/models/[entity2].py
- [ ] T014 [US1] Implement [Service] in src/services/[service].py (depends on T012, T013)
- [ ] T015 [US1] Implement [endpoint/feature] in src/[location]/[file].py
- [ ] T016 [US1] Add validation and error handling
- [ ] T017 [US1] Add logging for user story 1 operations
**Checkpoint**: At this point, User Story 1 should be fully functional and testable independently
---
## Phase 4: User Story 2 - [Title] (Priority: P2)
**Goal**: [Brief description of what this story delivers]
**Independent Test**: [How to verify this story works on its own]
### Tests for User Story 2 (OPTIONAL - only if tests requested) ⚠️
- [ ] T018 [P] [US2] Contract test for [endpoint] in tests/contract/test_[name].py
- [ ] T019 [P] [US2] Integration test for [user journey] in tests/integration/test_[name].py
### Implementation for User Story 2
- [ ] T020 [P] [US2] Create [Entity] model in src/models/[entity].py
- [ ] T021 [US2] Implement [Service] in src/services/[service].py
- [ ] T022 [US2] Implement [endpoint/feature] in src/[location]/[file].py
- [ ] T023 [US2] Integrate with User Story 1 components (if needed)
**Checkpoint**: At this point, User Stories 1 AND 2 should both work independently
---
## Phase 5: User Story 3 - [Title] (Priority: P3)
**Goal**: [Brief description of what this story delivers]
**Independent Test**: [How to verify this story works on its own]
### Tests for User Story 3 (OPTIONAL - only if tests requested) ⚠️
- [ ] T024 [P] [US3] Contract test for [endpoint] in tests/contract/test_[name].py
- [ ] T025 [P] [US3] Integration test for [user journey] in tests/integration/test_[name].py
### Implementation for User Story 3
- [ ] T026 [P] [US3] Create [Entity] model in src/models/[entity].py
- [ ] T027 [US3] Implement [Service] in src/services/[service].py
- [ ] T028 [US3] Implement [endpoint/feature] in src/[location]/[file].py
**Checkpoint**: All user stories should now be independently functional
---
[Add more user story phases as needed, following the same pattern]
---
## Phase N: Polish & Cross-Cutting Concerns
**Purpose**: Improvements that affect multiple user stories
- [ ] TXXX [P] Documentation updates in docs/
- [ ] TXXX Code cleanup and refactoring
- [ ] TXXX Performance optimization across all stories
- [ ] TXXX [P] Additional unit tests (if requested) in tests/unit/
- [ ] TXXX Security hardening
- [ ] TXXX Run quickstart.md validation
---
## Dependencies & Execution Order
### Phase Dependencies
- **Setup (Phase 1)**: No dependencies - can start immediately
- **Foundational (Phase 2)**: Depends on Setup completion - BLOCKS all user stories
- **User Stories (Phase 3+)**: All depend on Foundational phase completion
- User stories can then proceed in parallel (if staffed)
- Or sequentially in priority order (P1 → P2 → P3)
- **Polish (Final Phase)**: Depends on all desired user stories being complete
### User Story Dependencies
- **User Story 1 (P1)**: Can start after Foundational (Phase 2) - No dependencies on other stories
- **User Story 2 (P2)**: Can start after Foundational (Phase 2) - May integrate with US1 but should be independently testable
- **User Story 3 (P3)**: Can start after Foundational (Phase 2) - May integrate with US1/US2 but should be independently testable
### Within Each User Story
- Tests (if included) MUST be written and FAIL before implementation
- Models before services
- Services before endpoints
- Core implementation before integration
- Story complete before moving to next priority
### Parallel Opportunities
- All Setup tasks marked [P] can run in parallel
- All Foundational tasks marked [P] can run in parallel (within Phase 2)
- Once Foundational phase completes, all user stories can start in parallel (if team capacity allows)
- All tests for a user story marked [P] can run in parallel
- Models within a story marked [P] can run in parallel
- Different user stories can be worked on in parallel by different team members
---
## Parallel Example: User Story 1
```bash
# Launch all tests for User Story 1 together (if tests requested):
Task: "Contract test for [endpoint] in tests/contract/test_[name].py"
Task: "Integration test for [user journey] in tests/integration/test_[name].py"
# Launch all models for User Story 1 together:
Task: "Create [Entity1] model in src/models/[entity1].py"
Task: "Create [Entity2] model in src/models/[entity2].py"
```
---
## Implementation Strategy
### MVP First (User Story 1 Only)
1. Complete Phase 1: Setup
2. Complete Phase 2: Foundational (CRITICAL - blocks all stories)
3. Complete Phase 3: User Story 1
4. **STOP and VALIDATE**: Test User Story 1 independently
5. Deploy/demo if ready
### Incremental Delivery
1. Complete Setup + Foundational → Foundation ready
2. Add User Story 1 → Test independently → Deploy/Demo (MVP!)
3. Add User Story 2 → Test independently → Deploy/Demo
4. Add User Story 3 → Test independently → Deploy/Demo
5. Each story adds value without breaking previous stories
### Parallel Team Strategy
With multiple developers:
1. Team completes Setup + Foundational together
2. Once Foundational is done:
- Developer A: User Story 1
- Developer B: User Story 2
- Developer C: User Story 3
3. Stories complete and integrate independently
---
## Notes
- [P] tasks = different files, no dependencies
- [Story] label maps task to specific user story for traceability
- Each user story should be independently completable and testable
- Verify tests fail before implementing
- Commit after each task or logical group
- Stop at any checkpoint to validate story independently
- Avoid: vague tasks, same file conflicts, cross-story dependencies that break independence

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backend/migrations.db Normal file
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6
backend/src/api/routes/environments.py
View File

@@ -15,7 +15,6 @@ from backend.src.dependencies import get_config_manager
from backend.src.core.superset_client import SupersetClient
from superset_tool.models import SupersetConfig
from pydantic import BaseModel
from backend.src.core.logger import logger
# [/SECTION]
router = APIRouter(prefix="/api/environments", tags=["environments"])
@@ -39,9 +38,10 @@ class DatabaseResponse(BaseModel):
# @RETURN: List[EnvironmentResponse]
@router.get("", response_model=List[EnvironmentResponse])
async def get_environments(config_manager=Depends(get_config_manager)):
logger.info(f"[get_environments][Debug] Config path: {config_manager.config_path}")
envs = config_manager.get_environments()
logger.info(f"[get_environments][Debug] Found {len(envs)} environments")
# Ensure envs is a list
if not isinstance(envs, list):
envs = []
return [EnvironmentResponse(id=e.id, name=e.name, url=e.url) for e in envs]
# [/DEF:get_environments]

76
backend/src/api/routes/migration.py Normal file
View File

@@ -0,0 +1,76 @@
# [DEF:backend.src.api.routes.migration:Module]
# @SEMANTICS: api, migration, dashboards
# @PURPOSE: API endpoints for migration operations.
# @LAYER: API
# @RELATION: DEPENDS_ON -> backend.src.dependencies
# @RELATION: DEPENDS_ON -> backend.src.models.dashboard
from fastapi import APIRouter, Depends, HTTPException
from typing import List, Dict
from backend.src.dependencies import get_config_manager, get_task_manager
from backend.src.models.dashboard import DashboardMetadata, DashboardSelection
from backend.src.core.superset_client import SupersetClient
from superset_tool.models import SupersetConfig
router = APIRouter(prefix="/api", tags=["migration"])
# [DEF:get_dashboards:Function]
# @PURPOSE: Fetch all dashboards from the specified environment for the grid.
# @PRE: Environment ID must be valid.
# @POST: Returns a list of dashboard metadata.
# @PARAM: env_id (str) - The ID of the environment to fetch from.
# @RETURN: List[DashboardMetadata]
@router.get("/environments/{env_id}/dashboards", response_model=List[DashboardMetadata])
async def get_dashboards(env_id: str, config_manager=Depends(get_config_manager)):
environments = config_manager.get_environments()
env = next((e for e in environments if e.id == env_id), None)
if not env:
raise HTTPException(status_code=404, detail="Environment not found")
config = SupersetConfig(
env=env.name,
base_url=env.url,
auth={'provider': 'db', 'username': env.username, 'password': env.password, 'refresh': False},
verify_ssl=True,
timeout=30
)
client = SupersetClient(config)
dashboards = client.get_dashboards_summary()
return dashboards
# [/DEF:get_dashboards]
# [DEF:execute_migration:Function]
# @PURPOSE: Execute the migration of selected dashboards.
# @PRE: Selection must be valid and environments must exist.
# @POST: Starts the migration task and returns the task ID.
# @PARAM: selection (DashboardSelection) - The dashboards to migrate.
# @RETURN: Dict - {"task_id": str, "message": str}
@router.post("/migration/execute")
async def execute_migration(selection: DashboardSelection, config_manager=Depends(get_config_manager), task_manager=Depends(get_task_manager)):
# Validate environments exist
environments = config_manager.get_environments()
env_ids = {e.id for e in environments}
if selection.source_env_id not in env_ids or selection.target_env_id not in env_ids:
raise HTTPException(status_code=400, detail="Invalid source or target environment")
# Create migration task with debug logging
from ...core.logger import logger
# Include replace_db_config in the task parameters
task_params = selection.dict()
task_params['replace_db_config'] = selection.replace_db_config
logger.info(f"Creating migration task with params: {task_params}")
logger.info(f"Available environments: {env_ids}")
logger.info(f"Source env: {selection.source_env_id}, Target env: {selection.target_env_id}")
try:
task = await task_manager.create_task("superset-migration", task_params)
logger.info(f"Task created successfully: {task.id}")
return {"task_id": task.id, "message": "Migration initiated"}
except Exception as e:
logger.error(f"Task creation failed: {e}")
raise HTTPException(status_code=500, detail=f"Failed to create migration task: {str(e)}")
# [/DEF:execute_migration]
# [/DEF:backend.src.api.routes.migration]

57
backend/src/api/routes/tasks.py
View File

@@ -3,11 +3,11 @@
# @PURPOSE: Defines the FastAPI router for task-related endpoints, allowing clients to create, list, and get the status of tasks.
# @LAYER: UI (API)
# @RELATION: Depends on the TaskManager. It is included by the main app.
from typing import List, Dict, Any
from typing import List, Dict, Any, Optional
from fastapi import APIRouter, Depends, HTTPException, status
from pydantic import BaseModel
from ...core.task_manager import TaskManager, Task
from ...core.task_manager import TaskManager, Task, TaskStatus, LogEntry
from ...dependencies import get_task_manager
router = APIRouter()
@@ -19,7 +19,10 @@ class CreateTaskRequest(BaseModel):
class ResolveTaskRequest(BaseModel):
resolution_params: Dict[str, Any]
@router.post("/", response_model=Task, status_code=status.HTTP_201_CREATED)
class ResumeTaskRequest(BaseModel):
passwords: Dict[str, str]
@router.post("", response_model=Task, status_code=status.HTTP_201_CREATED)
async def create_task(
request: CreateTaskRequest,
task_manager: TaskManager = Depends(get_task_manager)
@@ -36,14 +39,17 @@ async def create_task(
except ValueError as e:
raise HTTPException(status_code=status.HTTP_404_NOT_FOUND, detail=str(e))
@router.get("/", response_model=List[Task])
@router.get("", response_model=List[Task])
async def list_tasks(
limit: int = 10,
offset: int = 0,
status: Optional[TaskStatus] = None,
task_manager: TaskManager = Depends(get_task_manager)
):
"""
Retrieve a list of all tasks.
Retrieve a list of tasks with pagination and optional status filter.
"""
return task_manager.get_all_tasks()
return task_manager.get_tasks(limit=limit, offset=offset, status=status)
@router.get("/{task_id}", response_model=Task)
async def get_task(
@@ -58,6 +64,19 @@ async def get_task(
raise HTTPException(status_code=status.HTTP_404_NOT_FOUND, detail="Task not found")
return task
@router.get("/{task_id}/logs", response_model=List[LogEntry])
async def get_task_logs(
task_id: str,
task_manager: TaskManager = Depends(get_task_manager)
):
"""
Retrieve logs for a specific task.
"""
task = task_manager.get_task(task_id)
if not task:
raise HTTPException(status_code=status.HTTP_404_NOT_FOUND, detail="Task not found")
return task_manager.get_task_logs(task_id)
@router.post("/{task_id}/resolve", response_model=Task)
async def resolve_task(
task_id: str,
@@ -72,4 +91,30 @@ async def resolve_task(
return task_manager.get_task(task_id)
except ValueError as e:
raise HTTPException(status_code=status.HTTP_400_BAD_REQUEST, detail=str(e))
@router.post("/{task_id}/resume", response_model=Task)
async def resume_task(
task_id: str,
request: ResumeTaskRequest,
task_manager: TaskManager = Depends(get_task_manager)
):
"""
Resume a task that is awaiting input (e.g., passwords).
"""
try:
task_manager.resume_task_with_password(task_id, request.passwords)
return task_manager.get_task(task_id)
except ValueError as e:
raise HTTPException(status_code=status.HTTP_400_BAD_REQUEST, detail=str(e))
@router.delete("", status_code=status.HTTP_204_NO_CONTENT)
async def clear_tasks(
status: Optional[TaskStatus] = None,
task_manager: TaskManager = Depends(get_task_manager)
):
"""
Clear tasks matching the status filter. If no filter, clears all non-running tasks.
"""
task_manager.clear_tasks(status)
return
# [/DEF]

38
backend/src/app.py
View File

@@ -11,7 +11,7 @@ from pathlib import Path
project_root = Path(__file__).resolve().parent.parent.parent
sys.path.append(str(project_root))
from fastapi import FastAPI, WebSocket, WebSocketDisconnect, Depends
from fastapi import FastAPI, WebSocket, WebSocketDisconnect, Depends, Request
from fastapi.middleware.cors import CORSMiddleware
from fastapi.staticfiles import StaticFiles
from fastapi.responses import FileResponse
@@ -20,7 +20,7 @@ import os
from .dependencies import get_task_manager
from .core.logger import logger
from .api.routes import plugins, tasks, settings, environments, mappings
from .api.routes import plugins, tasks, settings, environments, mappings, migration
from .core.database import init_db
# Initialize database
@@ -45,12 +45,20 @@ app.add_middleware(
)
@app.middleware("http")
async def log_requests(request: Request, call_next):
logger.info(f"[DEBUG] Incoming request: {request.method} {request.url.path}")
response = await call_next(request)
logger.info(f"[DEBUG] Response status: {response.status_code} for {request.url.path}")
return response
# Include API routes
app.include_router(plugins.router, prefix="/api/plugins", tags=["Plugins"])
app.include_router(tasks.router, prefix="/api/tasks", tags=["Tasks"])
app.include_router(settings.router, prefix="/api/settings", tags=["Settings"])
app.include_router(environments.router)
app.include_router(mappings.router)
app.include_router(migration.router)
# [DEF:WebSocketEndpoint:Endpoint]
# @SEMANTICS: websocket, logs, streaming, real-time
@@ -62,16 +70,30 @@ async def websocket_endpoint(websocket: WebSocket, task_id: str):
task_manager = get_task_manager()
queue = await task_manager.subscribe_logs(task_id)
try:
# Send initial logs if any
# Stream new logs
logger.info(f"Starting log stream for task {task_id}")
# Send initial logs first to build context
initial_logs = task_manager.get_task_logs(task_id)
for log_entry in initial_logs:
# Convert datetime to string for JSON serialization
log_dict = log_entry.dict()
log_dict['timestamp'] = log_dict['timestamp'].isoformat()
await websocket.send_json(log_dict)
# Stream new logs
logger.info(f"Starting log stream for task {task_id}")
# Force a check for AWAITING_INPUT status immediately upon connection
# This ensures that if the task is already waiting when the user connects, they get the prompt.
task = task_manager.get_task(task_id)
if task and task.status == "AWAITING_INPUT" and task.input_request:
# Construct a synthetic log entry to trigger the frontend handler
# This is a bit of a hack but avoids changing the websocket protocol significantly
synthetic_log = {
"timestamp": task.logs[-1].timestamp.isoformat() if task.logs else "2024-01-01T00:00:00",
"level": "INFO",
"message": "Task paused for user input (Connection Re-established)",
"context": {"input_request": task.input_request}
}
await websocket.send_json(synthetic_log)
while True:
log_entry = await queue.get()
log_dict = log_entry.dict()
@@ -83,7 +105,9 @@ async def websocket_endpoint(websocket: WebSocket, task_id: str):
if "Task completed successfully" in log_entry.message or "Task failed" in log_entry.message:
# Wait a bit to ensure client receives the last message
await asyncio.sleep(2)
break
# DO NOT BREAK here - allow client to keep connection open if they want to review logs
# or until they disconnect. Breaking closes the socket immediately.
# break
except WebSocketDisconnect:
logger.info(f"WebSocket connection disconnected for task {task_id}")

2
backend/src/core/config_manager.py
View File

@@ -72,6 +72,8 @@ class ConfigManager:
return config
except Exception as e:
logger.error(f"[_load_config][Coherence:Failed] Error loading config: {e}")
# Fallback but try to preserve existing settings if possible?
# For now, return default to be safe, but log the error prominently.
return AppConfig(
environments=[],
settings=GlobalSettings(backup_path="backups")

5
backend/src/core/config_models.py
View File

@@ -35,6 +35,11 @@ class GlobalSettings(BaseModel):
backup_path: str
default_environment_id: Optional[str] = None
logging: LoggingConfig = Field(default_factory=LoggingConfig)
# Task retention settings
task_retention_days: int = 30
task_retention_limit: int = 100
pagination_limit: int = 10
# [/DEF:GlobalSettings]
# [DEF:AppConfig:DataClass]

64
backend/src/core/migration_engine.py
View File

@@ -15,6 +15,8 @@ import shutil
import tempfile
from pathlib import Path
from typing import Dict
from .logger import logger, belief_scope
import yaml
# [/SECTION]
# [DEF:MigrationEngine:Class]
@@ -26,37 +28,51 @@ class MigrationEngine:
# @PARAM: zip_path (str) - Path to the source ZIP file.
# @PARAM: output_path (str) - Path where the transformed ZIP will be saved.
# @PARAM: db_mapping (Dict[str, str]) - Mapping of source UUID to target UUID.
# @PARAM: strip_databases (bool) - Whether to remove the databases directory from the archive.
# @RETURN: bool - True if successful.
def transform_zip(self, zip_path: str, output_path: str, db_mapping: Dict[str, str]) -> bool:
def transform_zip(self, zip_path: str, output_path: str, db_mapping: Dict[str, str], strip_databases: bool = True) -> bool:
"""
Transform a Superset export ZIP by replacing database UUIDs.
"""
with tempfile.TemporaryDirectory() as temp_dir_str:
temp_dir = Path(temp_dir_str)
with belief_scope("MigrationEngine.transform_zip"):
with tempfile.TemporaryDirectory() as temp_dir_str:
temp_dir = Path(temp_dir_str)
try:
# 1. Extract
with zipfile.ZipFile(zip_path, 'r') as zf:
zf.extractall(temp_dir)
try:
# 1. Extract
logger.info(f"[MigrationEngine.transform_zip][Action] Extracting ZIP: {zip_path}")
with zipfile.ZipFile(zip_path, 'r') as zf:
zf.extractall(temp_dir)
# 2. Transform YAMLs
# Datasets are usually in datasets/*.yaml
dataset_files = list(temp_dir.glob("**/datasets/*.yaml"))
for ds_file in dataset_files:
self._transform_yaml(ds_file, db_mapping)
# 2. Transform YAMLs
# Datasets are usually in datasets/*.yaml
dataset_files = list(temp_dir.glob("**/datasets/**/*.yaml")) + list(temp_dir.glob("**/datasets/*.yaml"))
dataset_files = list(set(dataset_files))
logger.info(f"[MigrationEngine.transform_zip][State] Found {len(dataset_files)} dataset files.")
for ds_file in dataset_files:
logger.info(f"[MigrationEngine.transform_zip][Action] Transforming dataset: {ds_file}")
self._transform_yaml(ds_file, db_mapping)
# 3. Re-package
with zipfile.ZipFile(output_path, 'w', zipfile.ZIP_DEFLATED) as zf:
for root, dirs, files in os.walk(temp_dir):
for file in files:
file_path = Path(root) / file
arcname = file_path.relative_to(temp_dir)
zf.write(file_path, arcname)
return True
except Exception as e:
print(f"Error transforming ZIP: {e}")
return False
# 3. Re-package
logger.info(f"[MigrationEngine.transform_zip][Action] Re-packaging ZIP to: {output_path} (strip_databases={strip_databases})")
with zipfile.ZipFile(output_path, 'w', zipfile.ZIP_DEFLATED) as zf:
for root, dirs, files in os.walk(temp_dir):
rel_root = Path(root).relative_to(temp_dir)
if strip_databases and "databases" in rel_root.parts:
logger.info(f"[MigrationEngine.transform_zip][Action] Skipping file in databases directory: {rel_root}")
continue
for file in files:
file_path = Path(root) / file
arcname = file_path.relative_to(temp_dir)
zf.write(file_path, arcname)
return True
except Exception as e:
logger.error(f"[MigrationEngine.transform_zip][Coherence:Failed] Error transforming ZIP: {e}")
return False
# [DEF:MigrationEngine._transform_yaml:Function]
# @PURPOSE: Replaces database_uuid in a single YAML file.

15
backend/src/core/plugin_loader.py
View File

@@ -47,12 +47,17 @@ class PluginLoader:
Loads a single Python module and extracts PluginBase subclasses.
"""
# Try to determine the correct package prefix based on how the app is running
if "backend.src" in __name__:
# For standalone execution, we need to handle the import differently
if __name__ == "__main__" or "test" in __name__:
# When running as standalone or in tests, use relative import
package_name = f"plugins.{module_name}"
elif "backend.src" in __name__:
package_prefix = "backend.src.plugins"
package_name = f"{package_prefix}.{module_name}"
else:
package_prefix = "src.plugins"
package_name = f"{package_prefix}.{module_name}"
package_name = f"{package_prefix}.{module_name}"
# print(f"DEBUG: Loading plugin {module_name} as {package_name}")
spec = importlib.util.spec_from_file_location(package_name, file_path)
if spec is None or spec.loader is None:
@@ -106,9 +111,11 @@ class PluginLoader:
# validate(instance={}, schema=schema)
self._plugins[plugin_id] = plugin_instance
self._plugin_configs[plugin_id] = plugin_config
print(f"Plugin '{plugin_instance.name}' (ID: {plugin_id}) loaded successfully.") # Replace with proper logging
from ..core.logger import logger
logger.info(f"Plugin '{plugin_instance.name}' (ID: {plugin_id}) loaded successfully.")
except Exception as e:
print(f"Error validating plugin '{plugin_instance.name}' (ID: {plugin_id}): {e}") # Replace with proper logging
from ..core.logger import logger
logger.error(f"Error validating plugin '{plugin_instance.name}' (ID: {plugin_id}): {e}")
def get_plugin(self, plugin_id: str) -> Optional[PluginBase]:

35
backend/src/core/superset_client.py
View File

@@ -11,19 +11,12 @@
from typing import List, Dict, Optional, Tuple
from superset_tool.client import SupersetClient as BaseSupersetClient
from superset_tool.models import SupersetConfig
from backend.src.core.logger import logger
from superset_tool.utils.logger import SupersetLogger
# [/SECTION]
# [DEF:SupersetClient:Class]
# @PURPOSE: Extended SupersetClient for migration-specific operations.
class SupersetClient(BaseSupersetClient):
def __init__(self, config: SupersetConfig):
# Initialize with the application's logger wrapped in SupersetLogger
# to ensure BeliefFormatter is used.
sl_logger = SupersetLogger(logger=logger)
super().__init__(config=config, logger=sl_logger)
# [DEF:SupersetClient.get_databases_summary:Function]
# @PURPOSE: Fetch a summary of databases including uuid, name, and engine.
# @POST: Returns a list of database dictionaries with 'engine' field.
@@ -59,6 +52,32 @@ class SupersetClient(BaseSupersetClient):
return databases[0] if databases else None
# [/DEF:SupersetClient.get_database_by_uuid]
# [DEF:SupersetClient.get_dashboards_summary:Function]
# @PURPOSE: Fetches dashboard metadata optimized for the grid.
# @POST: Returns a list of dashboard dictionaries.
# @RETURN: List[Dict]
def get_dashboards_summary(self) -> List[Dict]:
"""
Fetches dashboard metadata optimized for the grid.
Returns a list of dictionaries mapped to DashboardMetadata fields.
"""
query = {
"columns": ["id", "dashboard_title", "changed_on_utc", "published"]
}
_, dashboards = self.get_dashboards(query=query)
# Map fields to DashboardMetadata schema
result = []
for dash in dashboards:
result.append({
"id": dash.get("id"),
"title": dash.get("dashboard_title"),
"last_modified": dash.get("changed_on_utc"),
"status": "published" if dash.get("published") else "draft"
})
return result
# [/DEF:SupersetClient.get_dashboards_summary]
# [/DEF:SupersetClient]
# [/DEF:backend.src.core.superset_client]

203
backend/src/core/task_manager.py
View File

@@ -1,203 +0,0 @@
# [DEF:TaskManagerModule:Module]
# @SEMANTICS: task, manager, lifecycle, execution, state
# @PURPOSE: Manages the lifecycle of tasks, including their creation, execution, and state tracking. It uses a thread pool to run plugins asynchronously.
# @LAYER: Core
# @RELATION: Depends on PluginLoader to get plugin instances. It is used by the API layer to create and query tasks.
import asyncio
import uuid
from datetime import datetime
from enum import Enum
from typing import Dict, Any, List, Optional
from concurrent.futures import ThreadPoolExecutor
from pydantic import BaseModel, Field
# Assuming PluginBase and PluginConfig are defined in plugin_base.py
# from .plugin_base import PluginBase, PluginConfig # Not needed here, TaskManager interacts with the PluginLoader
# [DEF:TaskStatus:Enum]
# @SEMANTICS: task, status, state, enum
# @PURPOSE: Defines the possible states a task can be in during its lifecycle.
class TaskStatus(str, Enum):
PENDING = "PENDING"
RUNNING = "RUNNING"
SUCCESS = "SUCCESS"
FAILED = "FAILED"
AWAITING_MAPPING = "AWAITING_MAPPING"
# [/DEF]
# [DEF:LogEntry:Class]
# @SEMANTICS: log, entry, record, pydantic
# @PURPOSE: A Pydantic model representing a single, structured log entry associated with a task.
class LogEntry(BaseModel):
timestamp: datetime = Field(default_factory=datetime.utcnow)
level: str
message: str
context: Optional[Dict[str, Any]] = None
# [/DEF]
# [DEF:Task:Class]
# @SEMANTICS: task, job, execution, state, pydantic
# @PURPOSE: A Pydantic model representing a single execution instance of a plugin, including its status, parameters, and logs.
class Task(BaseModel):
id: str = Field(default_factory=lambda: str(uuid.uuid4()))
plugin_id: str
status: TaskStatus = TaskStatus.PENDING
started_at: Optional[datetime] = None
finished_at: Optional[datetime] = None
user_id: Optional[str] = None
logs: List[LogEntry] = Field(default_factory=list)
params: Dict[str, Any] = Field(default_factory=dict)
# [/DEF]
# [DEF:TaskManager:Class]
# @SEMANTICS: task, manager, lifecycle, execution, state
# @PURPOSE: Manages the lifecycle of tasks, including their creation, execution, and state tracking.
class TaskManager:
"""
Manages the lifecycle of tasks, including their creation, execution, and state tracking.
"""
def __init__(self, plugin_loader):
self.plugin_loader = plugin_loader
self.tasks: Dict[str, Task] = {}
self.subscribers: Dict[str, List[asyncio.Queue]] = {}
self.executor = ThreadPoolExecutor(max_workers=5) # For CPU-bound plugin execution
self.loop = asyncio.get_event_loop()
self.task_futures: Dict[str, asyncio.Future] = {}
# [/DEF]
async def create_task(self, plugin_id: str, params: Dict[str, Any], user_id: Optional[str] = None) -> Task:
"""
Creates and queues a new task for execution.
"""
if not self.plugin_loader.has_plugin(plugin_id):
raise ValueError(f"Plugin with ID '{plugin_id}' not found.")
plugin = self.plugin_loader.get_plugin(plugin_id)
# Validate params against plugin schema (this will be done at a higher level, e.g., API route)
# For now, a basic check
if not isinstance(params, dict):
raise ValueError("Task parameters must be a dictionary.")
task = Task(plugin_id=plugin_id, params=params, user_id=user_id)
self.tasks[task.id] = task
self.loop.create_task(self._run_task(task.id)) # Schedule task for execution
return task
async def _run_task(self, task_id: str):
"""
Internal method to execute a task.
"""
task = self.tasks[task_id]
plugin = self.plugin_loader.get_plugin(task.plugin_id)
task.status = TaskStatus.RUNNING
task.started_at = datetime.utcnow()
self._add_log(task_id, "INFO", f"Task started for plugin '{plugin.name}'")
try:
# Execute plugin in a separate thread to avoid blocking the event loop
# if the plugin's execute method is synchronous and potentially CPU-bound.
# If the plugin's execute method is already async, this can be simplified.
# Pass task_id to plugin so it can signal pause
params = {**task.params, "_task_id": task_id}
await self.loop.run_in_executor(
self.executor,
lambda: asyncio.run(plugin.execute(params)) if asyncio.iscoroutinefunction(plugin.execute) else plugin.execute(params)
)
task.status = TaskStatus.SUCCESS
self._add_log(task_id, "INFO", f"Task completed successfully for plugin '{plugin.name}'")
except Exception as e:
task.status = TaskStatus.FAILED
self._add_log(task_id, "ERROR", f"Task failed: {e}", {"error_type": type(e).__name__})
finally:
task.finished_at = datetime.utcnow()
# In a real system, you might notify clients via WebSocket here
async def resolve_task(self, task_id: str, resolution_params: Dict[str, Any]):
"""
Resumes a task that is awaiting mapping.
"""
task = self.tasks.get(task_id)
if not task or task.status != TaskStatus.AWAITING_MAPPING:
raise ValueError("Task is not awaiting mapping.")
# Update task params with resolution
task.params.update(resolution_params)
task.status = TaskStatus.RUNNING
self._add_log(task_id, "INFO", "Task resumed after mapping resolution.")
# Signal the future to continue
if task_id in self.task_futures:
self.task_futures[task_id].set_result(True)
async def wait_for_resolution(self, task_id: str):
"""
Pauses execution and waits for a resolution signal.
"""
task = self.tasks.get(task_id)
if not task: return
task.status = TaskStatus.AWAITING_MAPPING
self.task_futures[task_id] = self.loop.create_future()
try:
await self.task_futures[task_id]
finally:
del self.task_futures[task_id]
def get_task(self, task_id: str) -> Optional[Task]:
"""
Retrieves a task by its ID.
"""
return self.tasks.get(task_id)
def get_all_tasks(self) -> List[Task]:
"""
Retrieves all registered tasks.
"""
return list(self.tasks.values())
def get_task_logs(self, task_id: str) -> List[LogEntry]:
"""
Retrieves logs for a specific task.
"""
task = self.tasks.get(task_id)
return task.logs if task else []
def _add_log(self, task_id: str, level: str, message: str, context: Optional[Dict[str, Any]] = None):
"""
Adds a log entry to a task and notifies subscribers.
"""
task = self.tasks.get(task_id)
if not task:
return
log_entry = LogEntry(level=level, message=message, context=context)
task.logs.append(log_entry)
# Notify subscribers
if task_id in self.subscribers:
for queue in self.subscribers[task_id]:
self.loop.call_soon_threadsafe(queue.put_nowait, log_entry)
async def subscribe_logs(self, task_id: str) -> asyncio.Queue:
"""
Subscribes to real-time logs for a task.
"""
queue = asyncio.Queue()
if task_id not in self.subscribers:
self.subscribers[task_id] = []
self.subscribers[task_id].append(queue)
return queue
def unsubscribe_logs(self, task_id: str, queue: asyncio.Queue):
"""
Unsubscribes from real-time logs for a task.
"""
if task_id in self.subscribers:
self.subscribers[task_id].remove(queue)
if not self.subscribers[task_id]:
del self.subscribers[task_id]

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backend/src/core/task_manager/__init__.py Normal file
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# [DEF:TaskManagerPackage:Module]
# @SEMANTICS: task, manager, package, exports
# @PURPOSE: Exports the public API of the task manager package.
# @LAYER: Core
# @RELATION: Aggregates models and manager.
from .models import Task, TaskStatus, LogEntry
from .manager import TaskManager
__all__ = ["TaskManager", "Task", "TaskStatus", "LogEntry"]
# [/DEF:TaskManagerPackage:Module]

379
backend/src/core/task_manager/manager.py Normal file
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# [DEF:TaskManagerModule:Module]
# @SEMANTICS: task, manager, lifecycle, execution, state
# @PURPOSE: Manages the lifecycle of tasks, including their creation, execution, and state tracking. It uses a thread pool to run plugins asynchronously.
# @LAYER: Core
# @RELATION: Depends on PluginLoader to get plugin instances. It is used by the API layer to create and query tasks.
# @INVARIANT: Task IDs are unique.
# @CONSTRAINT: Must use belief_scope for logging.
# [SECTION: IMPORTS]
import asyncio
from datetime import datetime
from typing import Dict, Any, List, Optional
from concurrent.futures import ThreadPoolExecutor
from .models import Task, TaskStatus, LogEntry
from .persistence import TaskPersistenceService
from ..logger import logger, belief_scope
# [/SECTION]
# [DEF:TaskManager:Class]
# @SEMANTICS: task, manager, lifecycle, execution, state
# @PURPOSE: Manages the lifecycle of tasks, including their creation, execution, and state tracking.
class TaskManager:
"""
Manages the lifecycle of tasks, including their creation, execution, and state tracking.
"""
# [DEF:TaskManager.__init__:Function]
# @PURPOSE: Initialize the TaskManager with dependencies.
# @PRE: plugin_loader is initialized.
# @POST: TaskManager is ready to accept tasks.
# @PARAM: plugin_loader - The plugin loader instance.
def __init__(self, plugin_loader):
with belief_scope("TaskManager.__init__"):
self.plugin_loader = plugin_loader
self.tasks: Dict[str, Task] = {}
self.subscribers: Dict[str, List[asyncio.Queue]] = {}
self.executor = ThreadPoolExecutor(max_workers=5) # For CPU-bound plugin execution
self.persistence_service = TaskPersistenceService()
try:
self.loop = asyncio.get_running_loop()
except RuntimeError:
self.loop = asyncio.get_event_loop()
self.task_futures: Dict[str, asyncio.Future] = {}
# Load persisted tasks on startup
self.load_persisted_tasks()
# [/DEF:TaskManager.__init__:Function]
# [DEF:TaskManager.create_task:Function]
# @PURPOSE: Creates and queues a new task for execution.
# @PRE: Plugin with plugin_id exists. Params are valid.
# @POST: Task is created, added to registry, and scheduled for execution.
# @PARAM: plugin_id (str) - The ID of the plugin to run.
# @PARAM: params (Dict[str, Any]) - Parameters for the plugin.
# @PARAM: user_id (Optional[str]) - ID of the user requesting the task.
# @RETURN: Task - The created task instance.
# @THROWS: ValueError if plugin not found or params invalid.
async def create_task(self, plugin_id: str, params: Dict[str, Any], user_id: Optional[str] = None) -> Task:
with belief_scope("TaskManager.create_task", f"plugin_id={plugin_id}"):
if not self.plugin_loader.has_plugin(plugin_id):
logger.error(f"Plugin with ID '{plugin_id}' not found.")
raise ValueError(f"Plugin with ID '{plugin_id}' not found.")
plugin = self.plugin_loader.get_plugin(plugin_id)
if not isinstance(params, dict):
logger.error("Task parameters must be a dictionary.")
raise ValueError("Task parameters must be a dictionary.")
task = Task(plugin_id=plugin_id, params=params, user_id=user_id)
self.tasks[task.id] = task
logger.info(f"Task {task.id} created and scheduled for execution")
self.loop.create_task(self._run_task(task.id)) # Schedule task for execution
return task
# [/DEF:TaskManager.create_task:Function]
# [DEF:TaskManager._run_task:Function]
# @PURPOSE: Internal method to execute a task.
# @PRE: Task exists in registry.
# @POST: Task is executed, status updated to SUCCESS or FAILED.
# @PARAM: task_id (str) - The ID of the task to run.
async def _run_task(self, task_id: str):
with belief_scope("TaskManager._run_task", f"task_id={task_id}"):
task = self.tasks[task_id]
plugin = self.plugin_loader.get_plugin(task.plugin_id)
logger.info(f"Starting execution of task {task_id} for plugin '{plugin.name}'")
task.status = TaskStatus.RUNNING
task.started_at = datetime.utcnow()
self._add_log(task_id, "INFO", f"Task started for plugin '{plugin.name}'")
try:
# Execute plugin
params = {**task.params, "_task_id": task_id}
if asyncio.iscoroutinefunction(plugin.execute):
await plugin.execute(params)
else:
await self.loop.run_in_executor(
self.executor,
plugin.execute,
params
)
logger.info(f"Task {task_id} completed successfully")
task.status = TaskStatus.SUCCESS
self._add_log(task_id, "INFO", f"Task completed successfully for plugin '{plugin.name}'")
except Exception as e:
logger.error(f"Task {task_id} failed: {e}")
task.status = TaskStatus.FAILED
self._add_log(task_id, "ERROR", f"Task failed: {e}", {"error_type": type(e).__name__})
finally:
task.finished_at = datetime.utcnow()
logger.info(f"Task {task_id} execution finished with status: {task.status}")
# [/DEF:TaskManager._run_task:Function]
# [DEF:TaskManager.resolve_task:Function]
# @PURPOSE: Resumes a task that is awaiting mapping.
# @PRE: Task exists and is in AWAITING_MAPPING state.
# @POST: Task status updated to RUNNING, params updated, execution resumed.
# @PARAM: task_id (str) - The ID of the task.
# @PARAM: resolution_params (Dict[str, Any]) - Params to resolve the wait.
# @THROWS: ValueError if task not found or not awaiting mapping.
async def resolve_task(self, task_id: str, resolution_params: Dict[str, Any]):
with belief_scope("TaskManager.resolve_task", f"task_id={task_id}"):
task = self.tasks.get(task_id)
if not task or task.status != TaskStatus.AWAITING_MAPPING:
raise ValueError("Task is not awaiting mapping.")
# Update task params with resolution
task.params.update(resolution_params)
task.status = TaskStatus.RUNNING
self._add_log(task_id, "INFO", "Task resumed after mapping resolution.")
# Signal the future to continue
if task_id in self.task_futures:
self.task_futures[task_id].set_result(True)
# [/DEF:TaskManager.resolve_task:Function]
# [DEF:TaskManager.wait_for_resolution:Function]
# @PURPOSE: Pauses execution and waits for a resolution signal.
# @PRE: Task exists.
# @POST: Execution pauses until future is set.
# @PARAM: task_id (str) - The ID of the task.
async def wait_for_resolution(self, task_id: str):
with belief_scope("TaskManager.wait_for_resolution", f"task_id={task_id}"):
task = self.tasks.get(task_id)
if not task: return
task.status = TaskStatus.AWAITING_MAPPING
self.task_futures[task_id] = self.loop.create_future()
try:
await self.task_futures[task_id]
finally:
if task_id in self.task_futures:
del self.task_futures[task_id]
# [/DEF:TaskManager.wait_for_resolution:Function]
# [DEF:TaskManager.wait_for_input:Function]
# @PURPOSE: Pauses execution and waits for user input.
# @PRE: Task exists.
# @POST: Execution pauses until future is set via resume_task_with_password.
# @PARAM: task_id (str) - The ID of the task.
async def wait_for_input(self, task_id: str):
with belief_scope("TaskManager.wait_for_input", f"task_id={task_id}"):
task = self.tasks.get(task_id)
if not task: return
# Status is already set to AWAITING_INPUT by await_input()
self.task_futures[task_id] = self.loop.create_future()
try:
await self.task_futures[task_id]
finally:
if task_id in self.task_futures:
del self.task_futures[task_id]
# [/DEF:TaskManager.wait_for_input:Function]
# [DEF:TaskManager.get_task:Function]
# @PURPOSE: Retrieves a task by its ID.
# @PARAM: task_id (str) - ID of the task.
# @RETURN: Optional[Task] - The task or None.
def get_task(self, task_id: str) -> Optional[Task]:
return self.tasks.get(task_id)
# [/DEF:TaskManager.get_task:Function]
# [DEF:TaskManager.get_all_tasks:Function]
# @PURPOSE: Retrieves all registered tasks.
# @RETURN: List[Task] - All tasks.
def get_all_tasks(self) -> List[Task]:
return list(self.tasks.values())
# [/DEF:TaskManager.get_all_tasks:Function]
# [DEF:TaskManager.get_tasks:Function]
# @PURPOSE: Retrieves tasks with pagination and optional status filter.
# @PRE: limit and offset are non-negative integers.
# @POST: Returns a list of tasks sorted by start_time descending.
# @PARAM: limit (int) - Maximum number of tasks to return.
# @PARAM: offset (int) - Number of tasks to skip.
# @PARAM: status (Optional[TaskStatus]) - Filter by task status.
# @RETURN: List[Task] - List of tasks matching criteria.
def get_tasks(self, limit: int = 10, offset: int = 0, status: Optional[TaskStatus] = None) -> List[Task]:
tasks = list(self.tasks.values())
if status:
tasks = [t for t in tasks if t.status == status]
# Sort by start_time descending (most recent first)
tasks.sort(key=lambda t: t.started_at or datetime.min, reverse=True)
return tasks[offset:offset + limit]
# [/DEF:TaskManager.get_tasks:Function]
# [DEF:TaskManager.get_task_logs:Function]
# @PURPOSE: Retrieves logs for a specific task.
# @PARAM: task_id (str) - ID of the task.
# @RETURN: List[LogEntry] - List of log entries.
def get_task_logs(self, task_id: str) -> List[LogEntry]:
task = self.tasks.get(task_id)
return task.logs if task else []
# [/DEF:TaskManager.get_task_logs:Function]
# [DEF:TaskManager._add_log:Function]
# @PURPOSE: Adds a log entry to a task and notifies subscribers.
# @PRE: Task exists.
# @POST: Log added to task and pushed to queues.
# @PARAM: task_id (str) - ID of the task.
# @PARAM: level (str) - Log level.
# @PARAM: message (str) - Log message.
# @PARAM: context (Optional[Dict]) - Log context.
def _add_log(self, task_id: str, level: str, message: str, context: Optional[Dict[str, Any]] = None):
task = self.tasks.get(task_id)
if not task:
return
log_entry = LogEntry(level=level, message=message, context=context)
task.logs.append(log_entry)
# Notify subscribers
if task_id in self.subscribers:
for queue in self.subscribers[task_id]:
self.loop.call_soon_threadsafe(queue.put_nowait, log_entry)
# [/DEF:TaskManager._add_log:Function]
# [DEF:TaskManager.subscribe_logs:Function]
# @PURPOSE: Subscribes to real-time logs for a task.
# @PARAM: task_id (str) - ID of the task.
# @RETURN: asyncio.Queue - Queue for log entries.
async def subscribe_logs(self, task_id: str) -> asyncio.Queue:
queue = asyncio.Queue()
if task_id not in self.subscribers:
self.subscribers[task_id] = []
self.subscribers[task_id].append(queue)
return queue
# [/DEF:TaskManager.subscribe_logs:Function]
# [DEF:TaskManager.unsubscribe_logs:Function]
# @PURPOSE: Unsubscribes from real-time logs for a task.
# @PARAM: task_id (str) - ID of the task.
# @PARAM: queue (asyncio.Queue) - Queue to remove.
def unsubscribe_logs(self, task_id: str, queue: asyncio.Queue):
if task_id in self.subscribers:
if queue in self.subscribers[task_id]:
self.subscribers[task_id].remove(queue)
if not self.subscribers[task_id]:
del self.subscribers[task_id]
# [/DEF:TaskManager.unsubscribe_logs:Function]
# [DEF:TaskManager.persist_awaiting_input_tasks:Function]
# @PURPOSE: Persist tasks in AWAITING_INPUT state using persistence service.
def persist_awaiting_input_tasks(self) -> None:
self.persistence_service.persist_tasks(list(self.tasks.values()))
# [/DEF:TaskManager.persist_awaiting_input_tasks:Function]
# [DEF:TaskManager.load_persisted_tasks:Function]
# @PURPOSE: Load persisted tasks using persistence service.
def load_persisted_tasks(self) -> None:
loaded_tasks = self.persistence_service.load_tasks()
for task in loaded_tasks:
if task.id not in self.tasks:
self.tasks[task.id] = task
# [/DEF:TaskManager.load_persisted_tasks:Function]
# [DEF:TaskManager.await_input:Function]
# @PURPOSE: Transition a task to AWAITING_INPUT state with input request.
# @PRE: Task exists and is in RUNNING state.
# @POST: Task status changed to AWAITING_INPUT, input_request set, persisted.
# @PARAM: task_id (str) - ID of the task.
# @PARAM: input_request (Dict) - Details about required input.
# @THROWS: ValueError if task not found or not RUNNING.
def await_input(self, task_id: str, input_request: Dict[str, Any]) -> None:
with belief_scope("TaskManager.await_input", f"task_id={task_id}"):
task = self.tasks.get(task_id)
if not task:
raise ValueError(f"Task {task_id} not found")
if task.status != TaskStatus.RUNNING:
raise ValueError(f"Task {task_id} is not RUNNING (current: {task.status})")
task.status = TaskStatus.AWAITING_INPUT
task.input_required = True
task.input_request = input_request
self._add_log(task_id, "INFO", "Task paused for user input", {"input_request": input_request})
self.persist_awaiting_input_tasks()
# [/DEF:TaskManager.await_input:Function]
# [DEF:TaskManager.resume_task_with_password:Function]
# @PURPOSE: Resume a task that is awaiting input with provided passwords.
# @PRE: Task exists and is in AWAITING_INPUT state.
# @POST: Task status changed to RUNNING, passwords injected, task resumed.
# @PARAM: task_id (str) - ID of the task.
# @PARAM: passwords (Dict[str, str]) - Mapping of database name to password.
# @THROWS: ValueError if task not found, not awaiting input, or passwords invalid.
def resume_task_with_password(self, task_id: str, passwords: Dict[str, str]) -> None:
with belief_scope("TaskManager.resume_task_with_password", f"task_id={task_id}"):
task = self.tasks.get(task_id)
if not task:
raise ValueError(f"Task {task_id} not found")
if task.status != TaskStatus.AWAITING_INPUT:
raise ValueError(f"Task {task_id} is not AWAITING_INPUT (current: {task.status})")
if not isinstance(passwords, dict) or not passwords:
raise ValueError("Passwords must be a non-empty dictionary")
task.params["passwords"] = passwords
task.input_required = False
task.input_request = None
task.status = TaskStatus.RUNNING
self._add_log(task_id, "INFO", "Task resumed with passwords", {"databases": list(passwords.keys())})
if task_id in self.task_futures:
self.task_futures[task_id].set_result(True)
# Remove from persistence as it's no longer awaiting input
self.persistence_service.delete_tasks([task_id])
# [/DEF:TaskManager.resume_task_with_password:Function]
# [DEF:TaskManager.clear_tasks:Function]
# @PURPOSE: Clears tasks based on status filter.
# @PARAM: status (Optional[TaskStatus]) - Filter by task status.
# @RETURN: int - Number of tasks cleared.
def clear_tasks(self, status: Optional[TaskStatus] = None) -> int:
with belief_scope("TaskManager.clear_tasks"):
tasks_to_remove = []
for task_id, task in list(self.tasks.items()):
# If status is provided, match it.
# If status is None, match everything EXCEPT RUNNING (unless they are awaiting input/mapping which are technically running but paused?)
# Actually, AWAITING_INPUT and AWAITING_MAPPING are distinct statuses in TaskStatus enum.
# RUNNING is active execution.
should_remove = False
if status:
if task.status == status:
should_remove = True
else:
# Clear all non-active tasks (keep RUNNING, AWAITING_INPUT, AWAITING_MAPPING)
if task.status not in [TaskStatus.RUNNING, TaskStatus.AWAITING_INPUT, TaskStatus.AWAITING_MAPPING]:
should_remove = True
if should_remove:
tasks_to_remove.append(task_id)
for tid in tasks_to_remove:
# Cancel future if exists (e.g. for AWAITING_INPUT/MAPPING)
if tid in self.task_futures:
self.task_futures[tid].cancel()
del self.task_futures[tid]
del self.tasks[tid]
# Remove from persistence
self.persistence_service.delete_tasks(tasks_to_remove)
logger.info(f"Cleared {len(tasks_to_remove)} tasks.")
return len(tasks_to_remove)
# [/DEF:TaskManager.clear_tasks:Function]
# [/DEF:TaskManager:Class]
# [/DEF:TaskManagerModule:Module]

67
backend/src/core/task_manager/models.py Normal file
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# [DEF:TaskManagerModels:Module]
# @SEMANTICS: task, models, pydantic, enum, state
# @PURPOSE: Defines the data models and enumerations used by the Task Manager.
# @LAYER: Core
# @RELATION: Used by TaskManager and API routes.
# @INVARIANT: Task IDs are immutable once created.
# @CONSTRAINT: Must use Pydantic for data validation.
# [SECTION: IMPORTS]
import uuid
from datetime import datetime
from enum import Enum
from typing import Dict, Any, List, Optional
from pydantic import BaseModel, Field
# [/SECTION]
# [DEF:TaskStatus:Enum]
# @SEMANTICS: task, status, state, enum
# @PURPOSE: Defines the possible states a task can be in during its lifecycle.
class TaskStatus(str, Enum):
PENDING = "PENDING"
RUNNING = "RUNNING"
SUCCESS = "SUCCESS"
FAILED = "FAILED"
AWAITING_MAPPING = "AWAITING_MAPPING"
AWAITING_INPUT = "AWAITING_INPUT"
# [/DEF:TaskStatus:Enum]
# [DEF:LogEntry:Class]
# @SEMANTICS: log, entry, record, pydantic
# @PURPOSE: A Pydantic model representing a single, structured log entry associated with a task.
class LogEntry(BaseModel):
timestamp: datetime = Field(default_factory=datetime.utcnow)
level: str
message: str
context: Optional[Dict[str, Any]] = None
# [/DEF:LogEntry:Class]
# [DEF:Task:Class]
# @SEMANTICS: task, job, execution, state, pydantic
# @PURPOSE: A Pydantic model representing a single execution instance of a plugin, including its status, parameters, and logs.
class Task(BaseModel):
id: str = Field(default_factory=lambda: str(uuid.uuid4()))
plugin_id: str
status: TaskStatus = TaskStatus.PENDING
started_at: Optional[datetime] = None
finished_at: Optional[datetime] = None
user_id: Optional[str] = None
logs: List[LogEntry] = Field(default_factory=list)
params: Dict[str, Any] = Field(default_factory=dict)
input_required: bool = False
input_request: Optional[Dict[str, Any]] = None
# [DEF:Task.__init__:Function]
# @PURPOSE: Initializes the Task model and validates input_request for AWAITING_INPUT status.
# @PRE: If status is AWAITING_INPUT, input_request must be provided.
# @POST: Task instance is created or ValueError is raised.
# @PARAM: **data - Keyword arguments for model initialization.
def __init__(self, **data):
super().__init__(**data)
if self.status == TaskStatus.AWAITING_INPUT and not self.input_request:
raise ValueError("input_request is required when status is AWAITING_INPUT")
# [/DEF:Task.__init__:Function]
# [/DEF:Task:Class]
# [/DEF:TaskManagerModels:Module]

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backend/src/core/task_manager/persistence.py Normal file
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# [DEF:TaskPersistenceModule:Module]
# @SEMANTICS: persistence, sqlite, task, storage
# @PURPOSE: Handles the persistence of tasks, specifically those awaiting user input, to a SQLite database.
# @LAYER: Core
# @RELATION: Used by TaskManager to save and load tasks.
# @INVARIANT: Database schema must match the Task model structure.
# @CONSTRAINT: Uses synchronous SQLite operations (blocking), should be used carefully.
# [SECTION: IMPORTS]
import sqlite3
import json
from datetime import datetime
from pathlib import Path
from typing import Dict, List, Optional, Any
from .models import Task, TaskStatus
from ..logger import logger, belief_scope
# [/SECTION]
# [DEF:TaskPersistenceService:Class]
# @SEMANTICS: persistence, service, database
# @PURPOSE: Provides methods to save and load tasks from a local SQLite database.
class TaskPersistenceService:
def __init__(self, db_path: Optional[Path] = None):
if db_path is None:
self.db_path = Path(__file__).parent.parent.parent.parent / "migrations.db"
else:
self.db_path = db_path
self._ensure_db_exists()
# [DEF:TaskPersistenceService._ensure_db_exists:Function]
# @PURPOSE: Ensures the database directory and table exist.
# @PRE: None.
# @POST: Database file and table are created if they didn't exist.
def _ensure_db_exists(self) -> None:
with belief_scope("TaskPersistenceService._ensure_db_exists"):
self.db_path.parent.mkdir(parents=True, exist_ok=True)
conn = sqlite3.connect(str(self.db_path))
cursor = conn.cursor()
cursor.execute("""
CREATE TABLE IF NOT EXISTS persistent_tasks (
id TEXT PRIMARY KEY,
plugin_id TEXT NOT NULL,
status TEXT NOT NULL,
created_at TEXT NOT NULL,
updated_at TEXT NOT NULL,
input_request JSON,
context JSON
)
""")
conn.commit()
conn.close()
# [/DEF:TaskPersistenceService._ensure_db_exists:Function]
# [DEF:TaskPersistenceService.persist_tasks:Function]
# @PURPOSE: Persists a list of tasks to the database.
# @PRE: Tasks list contains valid Task objects.
# @POST: Tasks matching the criteria (AWAITING_INPUT) are saved/updated in the DB.
# @PARAM: tasks (List[Task]) - The list of tasks to check and persist.
def persist_tasks(self, tasks: List[Task]) -> None:
with belief_scope("TaskPersistenceService.persist_tasks"):
conn = sqlite3.connect(str(self.db_path))
cursor = conn.cursor()
count = 0
for task in tasks:
if task.status == TaskStatus.AWAITING_INPUT:
cursor.execute("""
INSERT OR REPLACE INTO persistent_tasks
(id, plugin_id, status, created_at, updated_at, input_request, context)
VALUES (?, ?, ?, ?, ?, ?, ?)
""", (
task.id,
task.plugin_id,
task.status.value,
task.started_at.isoformat() if task.started_at else datetime.utcnow().isoformat(),
datetime.utcnow().isoformat(),
json.dumps(task.input_request) if task.input_request else None,
json.dumps(task.params)
))
count += 1
conn.commit()
conn.close()
logger.info(f"Persisted {count} tasks awaiting input.")
# [/DEF:TaskPersistenceService.persist_tasks:Function]
# [DEF:TaskPersistenceService.load_tasks:Function]
# @PURPOSE: Loads persisted tasks from the database.
# @PRE: Database exists.
# @POST: Returns a list of Task objects reconstructed from the DB.
# @RETURN: List[Task] - The loaded tasks.
def load_tasks(self) -> List[Task]:
with belief_scope("TaskPersistenceService.load_tasks"):
if not self.db_path.exists():
return []
conn = sqlite3.connect(str(self.db_path))
cursor = conn.cursor()
# Check if plugin_id column exists (migration for existing db)
cursor.execute("PRAGMA table_info(persistent_tasks)")
columns = [info[1] for info in cursor.fetchall()]
has_plugin_id = "plugin_id" in columns
if has_plugin_id:
cursor.execute("SELECT id, plugin_id, status, created_at, input_request, context FROM persistent_tasks")
else:
cursor.execute("SELECT id, status, created_at, input_request, context FROM persistent_tasks")
rows = cursor.fetchall()
loaded_tasks = []
for row in rows:
if has_plugin_id:
task_id, plugin_id, status, created_at, input_request_json, context_json = row
else:
task_id, status, created_at, input_request_json, context_json = row
plugin_id = "superset-migration" # Default fallback
try:
task = Task(
id=task_id,
plugin_id=plugin_id,
status=TaskStatus(status),
started_at=datetime.fromisoformat(created_at),
input_required=True,
input_request=json.loads(input_request_json) if input_request_json else None,
params=json.loads(context_json) if context_json else {}
)
loaded_tasks.append(task)
except Exception as e:
logger.error(f"Failed to load task {task_id}: {e}")
conn.close()
return loaded_tasks
# [/DEF:TaskPersistenceService.load_tasks:Function]
# [DEF:TaskPersistenceService.delete_tasks:Function]
# @PURPOSE: Deletes specific tasks from the database.
# @PARAM: task_ids (List[str]) - List of task IDs to delete.
def delete_tasks(self, task_ids: List[str]) -> None:
if not task_ids:
return
with belief_scope("TaskPersistenceService.delete_tasks"):
conn = sqlite3.connect(str(self.db_path))
cursor = conn.cursor()
placeholders = ', '.join('?' for _ in task_ids)
cursor.execute(f"DELETE FROM persistent_tasks WHERE id IN ({placeholders})", task_ids)
conn.commit()
conn.close()
# [/DEF:TaskPersistenceService.delete_tasks:Function]
# [/DEF:TaskPersistenceService:Class]
# [/DEF:TaskPersistenceModule:Module]

5
backend/src/dependencies.py
View File

@@ -21,7 +21,12 @@ def get_config_manager() -> ConfigManager:
plugin_dir = Path(__file__).parent / "plugins"
plugin_loader = PluginLoader(plugin_dir=str(plugin_dir))
from .core.logger import logger
logger.info(f"PluginLoader initialized with directory: {plugin_dir}")
logger.info(f"Available plugins: {[config.name for config in plugin_loader.get_all_plugin_configs()]}")
task_manager = TaskManager(plugin_loader)
logger.info("TaskManager initialized")
def get_plugin_loader() -> PluginLoader:
"""Dependency injector for the PluginLoader."""

28
backend/src/models/dashboard.py Normal file
View File

@@ -0,0 +1,28 @@
# [DEF:backend.src.models.dashboard:Module]
# @SEMANTICS: dashboard, model, metadata, migration
# @PURPOSE: Defines data models for dashboard metadata and selection.
# @LAYER: Model
# @RELATION: USED_BY -> backend.src.api.routes.migration
from pydantic import BaseModel
from typing import List
# [DEF:DashboardMetadata:Class]
# @PURPOSE: Represents a dashboard available for migration.
class DashboardMetadata(BaseModel):
id: int
title: str
last_modified: str
status: str
# [/DEF:DashboardMetadata]
# [DEF:DashboardSelection:Class]
# @PURPOSE: Represents the user's selection of dashboards to migrate.
class DashboardSelection(BaseModel):
selected_ids: List[int]
source_env_id: str
target_env_id: str
replace_db_config: bool = False
# [/DEF:DashboardSelection]
# [/DEF:backend.src.models.dashboard]

209
backend/src/plugins/migration.py
View File

@@ -87,34 +87,96 @@ class MigrationPlugin(PluginBase):
}
async def execute(self, params: Dict[str, Any]):
from_env = params["from_env"]
to_env = params["to_env"]
dashboard_regex = params["dashboard_regex"]
source_env_id = params.get("source_env_id")
target_env_id = params.get("target_env_id")
selected_ids = params.get("selected_ids")
# Legacy support or alternative params
from_env_name = params.get("from_env")
to_env_name = params.get("to_env")
dashboard_regex = params.get("dashboard_regex")
replace_db_config = params.get("replace_db_config", False)
from_db_id = params.get("from_db_id")
to_db_id = params.get("to_db_id")
logger = SupersetLogger(log_dir=Path.cwd() / "logs", console=True)
logger.info(f"[MigrationPlugin][Entry] Starting migration from {from_env} to {to_env}.")
# [DEF:MigrationPlugin.execute:Action]
# @PURPOSE: Execute the migration logic with proper task logging.
task_id = params.get("_task_id")
from ..dependencies import get_task_manager
tm = get_task_manager()
class TaskLoggerProxy(SupersetLogger):
def __init__(self):
# Initialize parent with dummy values since we override methods
super().__init__(console=False)
def debug(self, msg, *args, extra=None, **kwargs):
if task_id: tm._add_log(task_id, "DEBUG", msg, extra or {})
def info(self, msg, *args, extra=None, **kwargs):
if task_id: tm._add_log(task_id, "INFO", msg, extra or {})
def warning(self, msg, *args, extra=None, **kwargs):
if task_id: tm._add_log(task_id, "WARNING", msg, extra or {})
def error(self, msg, *args, extra=None, **kwargs):
if task_id: tm._add_log(task_id, "ERROR", msg, extra or {})
def critical(self, msg, *args, extra=None, **kwargs):
if task_id: tm._add_log(task_id, "ERROR", msg, extra or {})
def exception(self, msg, *args, **kwargs):
if task_id: tm._add_log(task_id, "ERROR", msg, {"exception": True})
logger = TaskLoggerProxy()
logger.info(f"[MigrationPlugin][Entry] Starting migration task.")
logger.info(f"[MigrationPlugin][Action] Params: {params}")
try:
config_manager = get_config_manager()
all_clients = setup_clients(logger, custom_envs=config_manager.get_environments())
from_c = all_clients.get(from_env)
to_c = all_clients.get(to_env)
environments = config_manager.get_environments()
# Resolve environments
src_env = None
tgt_env = None
if source_env_id:
src_env = next((e for e in environments if e.id == source_env_id), None)
elif from_env_name:
src_env = next((e for e in environments if e.name == from_env_name), None)
if target_env_id:
tgt_env = next((e for e in environments if e.id == target_env_id), None)
elif to_env_name:
tgt_env = next((e for e in environments if e.name == to_env_name), None)
if not src_env or not tgt_env:
raise ValueError(f"Could not resolve source or target environment. Source: {source_env_id or from_env_name}, Target: {target_env_id or to_env_name}")
from_env_name = src_env.name
to_env_name = tgt_env.name
logger.info(f"[MigrationPlugin][State] Resolved environments: {from_env_name} -> {to_env_name}")
all_clients = setup_clients(logger, custom_envs=environments)
from_c = all_clients.get(from_env_name)
to_c = all_clients.get(to_env_name)
if not from_c or not to_c:
raise ValueError(f"One or both environments ('{from_env}', '{to_env}') not found in configuration.")
raise ValueError(f"Clients not initialized for environments: {from_env_name}, {to_env_name}")
_, all_dashboards = from_c.get_dashboards()
regex_str = str(dashboard_regex)
dashboards_to_migrate = [
d for d in all_dashboards if re.search(regex_str, d["dashboard_title"], re.IGNORECASE)
]
dashboards_to_migrate = []
if selected_ids:
dashboards_to_migrate = [d for d in all_dashboards if d["id"] in selected_ids]
elif dashboard_regex:
regex_str = str(dashboard_regex)
dashboards_to_migrate = [
d for d in all_dashboards if re.search(regex_str, d["dashboard_title"], re.IGNORECASE)
]
else:
logger.warning("[MigrationPlugin][State] No selection criteria provided (selected_ids or dashboard_regex).")
return
if not dashboards_to_migrate:
logger.warning("[MigrationPlugin][State] No dashboards found matching the regex.")
logger.warning("[MigrationPlugin][State] No dashboards found matching criteria.")
return
# Fetch mappings from database
@@ -123,8 +185,8 @@ class MigrationPlugin(PluginBase):
db = SessionLocal()
try:
# Find environment IDs by name
src_env = db.query(Environment).filter(Environment.name == from_env).first()
tgt_env = db.query(Environment).filter(Environment.name == to_env).first()
src_env = db.query(Environment).filter(Environment.name == from_env_name).first()
tgt_env = db.query(Environment).filter(Environment.name == to_env_name).first()
if src_env and tgt_env:
mappings = db.query(DatabaseMapping).filter(
@@ -144,49 +206,86 @@ class MigrationPlugin(PluginBase):
try:
exported_content, _ = from_c.export_dashboard(dash_id)
with create_temp_file(content=exported_content, dry_run=True, suffix=".zip", logger=logger) as tmp_zip_path:
if not replace_db_config:
to_c.import_dashboard(file_name=tmp_zip_path, dash_id=dash_id, dash_slug=dash_slug)
else:
# Check for missing mappings before transformation
# This is a simplified check, in reality we'd check all YAMLs
# For US3, we'll just use the engine and handle missing ones there
with create_temp_file(suffix=".zip", dry_run=True, logger=logger) as tmp_new_zip:
# If we have missing mappings, we might need to pause
# For now, let's assume the engine can tell us what's missing
success = engine.transform_zip(str(tmp_zip_path), str(tmp_new_zip), db_mapping)
if not success:
# Signal missing mapping and wait
task_id = params.get("_task_id")
if task_id:
from ..dependencies import get_task_manager
tm = get_task_manager()
logger.info(f"[MigrationPlugin][Action] Pausing for missing mapping in task {task_id}")
# In a real scenario, we'd pass the missing DB info to the frontend
# For this task, we'll just simulate the wait
await tm.wait_for_resolution(task_id)
# After resolution, retry transformation with updated mappings
# (Mappings would be updated in task.params by resolve_task)
db = SessionLocal()
try:
src_env = db.query(Environment).filter(Environment.name == from_env).first()
tgt_env = db.query(Environment).filter(Environment.name == to_env).first()
mappings = db.query(DatabaseMapping).filter(
DatabaseMapping.source_env_id == src_env.id,
DatabaseMapping.target_env_id == tgt_env.id
).all()
db_mapping = {m.source_db_uuid: m.target_db_uuid for m in mappings}
finally:
db.close()
success = engine.transform_zip(str(tmp_zip_path), str(tmp_new_zip), db_mapping)
# Always transform to strip databases to avoid password errors
with create_temp_file(suffix=".zip", dry_run=True, logger=logger) as tmp_new_zip:
success = engine.transform_zip(str(tmp_zip_path), str(tmp_new_zip), db_mapping, strip_databases=False)
if not success and replace_db_config:
# Signal missing mapping and wait (only if we care about mappings)
if task_id:
logger.info(f"[MigrationPlugin][Action] Pausing for missing mapping in task {task_id}")
# In a real scenario, we'd pass the missing DB info to the frontend
# For this task, we'll just simulate the wait
await tm.wait_for_resolution(task_id)
# After resolution, retry transformation with updated mappings
# (Mappings would be updated in task.params by resolve_task)
db = SessionLocal()
try:
src_env = db.query(Environment).filter(Environment.name == from_env_name).first()
tgt_env = db.query(Environment).filter(Environment.name == to_env_name).first()
mappings = db.query(DatabaseMapping).filter(
DatabaseMapping.source_env_id == src_env.id,
DatabaseMapping.target_env_id == tgt_env.id
).all()
db_mapping = {m.source_db_uuid: m.target_db_uuid for m in mappings}
finally:
db.close()
success = engine.transform_zip(str(tmp_zip_path), str(tmp_new_zip), db_mapping, strip_databases=False)
if success:
to_c.import_dashboard(file_name=tmp_new_zip, dash_id=dash_id, dash_slug=dash_slug)
else:
logger.error(f"[MigrationPlugin][Failure] Failed to transform ZIP for dashboard {title}")
if success:
to_c.import_dashboard(file_name=tmp_new_zip, dash_id=dash_id, dash_slug=dash_slug)
else:
logger.error(f"[MigrationPlugin][Failure] Failed to transform ZIP for dashboard {title}")
logger.info(f"[MigrationPlugin][Success] Dashboard {title} imported.")
except Exception as exc:
# Check for password error
error_msg = str(exc)
# The error message from Superset is often a JSON string inside a string.
# We need to robustly detect the password requirement.
# Typical error: "Error importing dashboard: databases/PostgreSQL.yaml: {'_schema': ['Must provide a password for the database']}"
if "Must provide a password for the database" in error_msg:
# Extract database name
# Try to find "databases/DBNAME.yaml" pattern
import re
db_name = "unknown"
match = re.search(r"databases/([^.]+)\.yaml", error_msg)
if match:
db_name = match.group(1)
else:
# Fallback: try to find 'database 'NAME'' pattern
match_alt = re.search(r"database '([^']+)'", error_msg)
if match_alt:
db_name = match_alt.group(1)
logger.warning(f"[MigrationPlugin][Action] Detected missing password for database: {db_name}")
if task_id:
input_request = {
"type": "database_password",
"databases": [db_name],
"error_message": error_msg
}
tm.await_input(task_id, input_request)
# Wait for user input
await tm.wait_for_input(task_id)
# Resume with passwords
task = tm.get_task(task_id)
passwords = task.params.get("passwords", {})
# Retry import with password
if passwords:
logger.info(f"[MigrationPlugin][Action] Retrying import for {title} with provided passwords.")
to_c.import_dashboard(file_name=tmp_new_zip, dash_id=dash_id, dash_slug=dash_slug, passwords=passwords)
logger.info(f"[MigrationPlugin][Success] Dashboard {title} imported after password injection.")
# Clear passwords from params after use for security
if "passwords" in task.params:
del task.params["passwords"]
continue
logger.error(f"[MigrationPlugin][Failure] Failed to migrate dashboard {title}: {exc}", exc_info=True)
logger.info("[MigrationPlugin][Exit] Migration finished.")

242
frontend/.svelte-kit/ambient.d.ts vendored
View File

@@ -1,242 +0,0 @@
// this file is generated — do not edit it
/// <reference types="@sveltejs/kit" />
/**
* Environment variables [loaded by Vite](https://vitejs.dev/guide/env-and-mode.html#env-files) from `.env` files and `process.env`. Like [`$env/dynamic/private`](https://svelte.dev/docs/kit/$env-dynamic-private), this module cannot be imported into client-side code. This module only includes variables that _do not_ begin with [`config.kit.env.publicPrefix`](https://svelte.dev/docs/kit/configuration#env) _and do_ start with [`config.kit.env.privatePrefix`](https://svelte.dev/docs/kit/configuration#env) (if configured).
*
* _Unlike_ [`$env/dynamic/private`](https://svelte.dev/docs/kit/$env-dynamic-private), the values exported from this module are statically injected into your bundle at build time, enabling optimisations like dead code elimination.
*
* ```ts
* import { API_KEY } from '$env/static/private';
* ```
*
* Note that all environment variables referenced in your code should be declared (for example in an `.env` file), even if they don't have a value until the app is deployed:
*
* ```
* MY_FEATURE_FLAG=""
* ```
*
* You can override `.env` values from the command line like so:
*
* ```sh
* MY_FEATURE_FLAG="enabled" npm run dev
* ```
*/
declare module '$env/static/private' {
export const USER: string;
export const npm_config_user_agent: string;
export const XDG_SESSION_TYPE: string;
export const npm_node_execpath: string;
export const SHLVL: string;
export const npm_config_noproxy: string;
export const LESS: string;
export const HOME: string;
export const OLDPWD: string;
export const DESKTOP_SESSION: string;
export const npm_package_json: string;
export const LSCOLORS: string;
export const ZSH: string;
export const GNOME_SHELL_SESSION_MODE: string;
export const GTK_MODULES: string;
export const PAGER: string;
export const PS1: string;
export const npm_config_userconfig: string;
export const npm_config_local_prefix: string;
export const SYSTEMD_EXEC_PID: string;
export const DBUS_SESSION_BUS_ADDRESS: string;
export const COLORTERM: string;
export const COLOR: string;
export const npm_config_metrics_registry: string;
export const WAYLAND_DISPLAY: string;
export const LOGNAME: string;
export const SDKMAN_CANDIDATES_API: string;
export const _: string;
export const npm_config_prefix: string;
export const MEMORY_PRESSURE_WATCH: string;
export const XDG_SESSION_CLASS: string;
export const USERNAME: string;
export const TERM: string;
export const npm_config_cache: string;
export const GNOME_DESKTOP_SESSION_ID: string;
export const npm_config_node_gyp: string;
export const PATH: string;
export const SDKMAN_CANDIDATES_DIR: string;
export const NODE: string;
export const npm_package_name: string;
export const XDG_MENU_PREFIX: string;
export const SDKMAN_BROKER_API: string;
export const GNOME_TERMINAL_SCREEN: string;
export const GNOME_SETUP_DISPLAY: string;
export const XDG_RUNTIME_DIR: string;
export const DISPLAY: string;
export const LANG: string;
export const XDG_CURRENT_DESKTOP: string;
export const VIRTUAL_ENV_PROMPT: string;
export const XMODIFIERS: string;
export const XDG_SESSION_DESKTOP: string;
export const XAUTHORITY: string;
export const LS_COLORS: string;
export const GNOME_TERMINAL_SERVICE: string;
export const SDKMAN_DIR: string;
export const SDKMAN_PLATFORM: string;
export const npm_lifecycle_script: string;
export const SSH_AUTH_SOCK: string;
export const SHELL: string;
export const npm_package_version: string;
export const npm_lifecycle_event: string;
export const QT_ACCESSIBILITY: string;
export const GDMSESSION: string;
export const GOOGLE_CLOUD_PROJECT: string;
export const GPG_AGENT_INFO: string;
export const VIRTUAL_ENV: string;
export const QT_IM_MODULE: string;
export const npm_config_globalconfig: string;
export const npm_config_init_module: string;
export const JAVA_HOME: string;
export const PWD: string;
export const npm_config_globalignorefile: string;
export const npm_execpath: string;
export const XDG_DATA_DIRS: string;
export const npm_config_global_prefix: string;
export const npm_command: string;
export const QT_IM_MODULES: string;
export const MEMORY_PRESSURE_WRITE: string;
export const VTE_VERSION: string;
export const INIT_CWD: string;
export const EDITOR: string;
export const NODE_ENV: string;
}
/**
* Similar to [`$env/static/private`](https://svelte.dev/docs/kit/$env-static-private), except that it only includes environment variables that begin with [`config.kit.env.publicPrefix`](https://svelte.dev/docs/kit/configuration#env) (which defaults to `PUBLIC_`), and can therefore safely be exposed to client-side code.
*
* Values are replaced statically at build time.
*
* ```ts
* import { PUBLIC_BASE_URL } from '$env/static/public';
* ```
*/
declare module '$env/static/public' {
export const PUBLIC_WS_URL: string;
}
/**
* This module provides access to runtime environment variables, as defined by the platform you're running on. For example if you're using [`adapter-node`](https://github.com/sveltejs/kit/tree/main/packages/adapter-node) (or running [`vite preview`](https://svelte.dev/docs/kit/cli)), this is equivalent to `process.env`. This module only includes variables that _do not_ begin with [`config.kit.env.publicPrefix`](https://svelte.dev/docs/kit/configuration#env) _and do_ start with [`config.kit.env.privatePrefix`](https://svelte.dev/docs/kit/configuration#env) (if configured).
*
* This module cannot be imported into client-side code.
*
* ```ts
* import { env } from '$env/dynamic/private';
* console.log(env.DEPLOYMENT_SPECIFIC_VARIABLE);
* ```
*
* > [!NOTE] In `dev`, `$env/dynamic` always includes environment variables from `.env`. In `prod`, this behavior will depend on your adapter.
*/
declare module '$env/dynamic/private' {
export const env: {
USER: string;
npm_config_user_agent: string;
XDG_SESSION_TYPE: string;
npm_node_execpath: string;
SHLVL: string;
npm_config_noproxy: string;
LESS: string;
HOME: string;
OLDPWD: string;
DESKTOP_SESSION: string;
npm_package_json: string;
LSCOLORS: string;
ZSH: string;
GNOME_SHELL_SESSION_MODE: string;
GTK_MODULES: string;
PAGER: string;
PS1: string;
npm_config_userconfig: string;
npm_config_local_prefix: string;
SYSTEMD_EXEC_PID: string;
DBUS_SESSION_BUS_ADDRESS: string;
COLORTERM: string;
COLOR: string;
npm_config_metrics_registry: string;
WAYLAND_DISPLAY: string;
LOGNAME: string;
SDKMAN_CANDIDATES_API: string;
_: string;
npm_config_prefix: string;
MEMORY_PRESSURE_WATCH: string;
XDG_SESSION_CLASS: string;
USERNAME: string;
TERM: string;
npm_config_cache: string;
GNOME_DESKTOP_SESSION_ID: string;
npm_config_node_gyp: string;
PATH: string;
SDKMAN_CANDIDATES_DIR: string;
NODE: string;
npm_package_name: string;
XDG_MENU_PREFIX: string;
SDKMAN_BROKER_API: string;
GNOME_TERMINAL_SCREEN: string;
GNOME_SETUP_DISPLAY: string;
XDG_RUNTIME_DIR: string;
DISPLAY: string;
LANG: string;
XDG_CURRENT_DESKTOP: string;
VIRTUAL_ENV_PROMPT: string;
XMODIFIERS: string;
XDG_SESSION_DESKTOP: string;
XAUTHORITY: string;
LS_COLORS: string;
GNOME_TERMINAL_SERVICE: string;
SDKMAN_DIR: string;
SDKMAN_PLATFORM: string;
npm_lifecycle_script: string;
SSH_AUTH_SOCK: string;
SHELL: string;
npm_package_version: string;
npm_lifecycle_event: string;
QT_ACCESSIBILITY: string;
GDMSESSION: string;
GOOGLE_CLOUD_PROJECT: string;
GPG_AGENT_INFO: string;
VIRTUAL_ENV: string;
QT_IM_MODULE: string;
npm_config_globalconfig: string;
npm_config_init_module: string;
JAVA_HOME: string;
PWD: string;
npm_config_globalignorefile: string;
npm_execpath: string;
XDG_DATA_DIRS: string;
npm_config_global_prefix: string;
npm_command: string;
QT_IM_MODULES: string;
MEMORY_PRESSURE_WRITE: string;
VTE_VERSION: string;
INIT_CWD: string;
EDITOR: string;
NODE_ENV: string;
[key: `PUBLIC_${string}`]: undefined;
[key: `${string}`]: string | undefined;
}
}
/**
* Similar to [`$env/dynamic/private`](https://svelte.dev/docs/kit/$env-dynamic-private), but only includes variables that begin with [`config.kit.env.publicPrefix`](https://svelte.dev/docs/kit/configuration#env) (which defaults to `PUBLIC_`), and can therefore safely be exposed to client-side code.
*
* Note that public dynamic environment variables must all be sent from the server to the client, causing larger network requests — when possible, use `$env/static/public` instead.
*
* ```ts
* import { env } from '$env/dynamic/public';
* console.log(env.PUBLIC_DEPLOYMENT_SPECIFIC_VARIABLE);
* ```
*/
declare module '$env/dynamic/public' {
export const env: {
PUBLIC_WS_URL: string;
[key: `PUBLIC_${string}`]: string | undefined;
}
}

31
frontend/.svelte-kit/generated/client-optimized/app.js
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@@ -1,31 +0,0 @@
export { matchers } from './matchers.js';
export const nodes = [
() => import('./nodes/0'),
() => import('./nodes/1'),
() => import('./nodes/2'),
() => import('./nodes/3')
];
export const server_loads = [];
export const dictionary = {
"/": [2],
"/settings": [3]
};
export const hooks = {
handleError: (({ error }) => { console.error(error) }),
reroute: (() => {}),
transport: {}
};
export const decoders = Object.fromEntries(Object.entries(hooks.transport).map(([k, v]) => [k, v.decode]));
export const encoders = Object.fromEntries(Object.entries(hooks.transport).map(([k, v]) => [k, v.encode]));
export const hash = false;
export const decode = (type, value) => decoders[type](value);
export { default as root } from '../root.js';

1
frontend/.svelte-kit/generated/client-optimized/matchers.js
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@@ -1 +0,0 @@
export const matchers = {};

3
frontend/.svelte-kit/generated/client-optimized/nodes/0.js
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@@ -1,3 +0,0 @@
import * as universal from "../../../../src/routes/+layout.ts";
export { universal };
export { default as component } from "../../../../src/routes/+layout.svelte";

1
frontend/.svelte-kit/generated/client-optimized/nodes/1.js
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@@ -1 +0,0 @@
export { default as component } from "../../../../src/routes/+error.svelte";

3
frontend/.svelte-kit/generated/client-optimized/nodes/2.js
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@@ -1,3 +0,0 @@
import * as universal from "../../../../src/routes/+page.ts";
export { universal };
export { default as component } from "../../../../src/routes/+page.svelte";

3
frontend/.svelte-kit/generated/client-optimized/nodes/3.js
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@@ -1,3 +0,0 @@
import * as universal from "../../../../src/routes/settings/+page.ts";
export { universal };
export { default as component } from "../../../../src/routes/settings/+page.svelte";

35
frontend/.svelte-kit/generated/client/app.js
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@@ -1,35 +0,0 @@
export { matchers } from './matchers.js';
export const nodes = [
() => import('./nodes/0'),
() => import('./nodes/1'),
() => import('./nodes/2'),
() => import('./nodes/3'),
() => import('./nodes/4'),
() => import('./nodes/5')
];
export const server_loads = [];
export const dictionary = {
"/": [2],
"/migration": [3],
"/migration/mappings": [4],
"/settings": [5]
};
export const hooks = {
handleError: (({ error }) => { console.error(error) }),
reroute: (() => {}),
transport: {}
};
export const decoders = Object.fromEntries(Object.entries(hooks.transport).map(([k, v]) => [k, v.decode]));
export const encoders = Object.fromEntries(Object.entries(hooks.transport).map(([k, v]) => [k, v.encode]));
export const hash = false;
export const decode = (type, value) => decoders[type](value);
export { default as root } from '../root.js';

1
frontend/.svelte-kit/generated/client/matchers.js
View File

@@ -1 +0,0 @@
export const matchers = {};

3
frontend/.svelte-kit/generated/client/nodes/0.js
View File

@@ -1,3 +0,0 @@
import * as universal from "../../../../src/routes/+layout.ts";
export { universal };
export { default as component } from "../../../../src/routes/+layout.svelte";

1
frontend/.svelte-kit/generated/client/nodes/1.js
View File

@@ -1 +0,0 @@
export { default as component } from "../../../../src/routes/+error.svelte";

3
frontend/.svelte-kit/generated/client/nodes/2.js
View File

@@ -1,3 +0,0 @@
import * as universal from "../../../../src/routes/+page.ts";
export { universal };
export { default as component } from "../../../../src/routes/+page.svelte";

1
frontend/.svelte-kit/generated/client/nodes/3.js
View File

@@ -1 +0,0 @@
export { default as component } from "../../../../src/routes/migration/+page.svelte";

3
frontend/.svelte-kit/generated/root.js
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@@ -1,3 +0,0 @@
import { asClassComponent } from 'svelte/legacy';
import Root from './root.svelte';
export default asClassComponent(Root);

68
frontend/.svelte-kit/generated/root.svelte
View File

@@ -1,68 +0,0 @@
<!-- This file is generated by @sveltejs/kit — do not edit it! -->
<svelte:options runes={true} />
<script>
import { setContext, onMount, tick } from 'svelte';
import { browser } from '$app/environment';
// stores
let { stores, page, constructors, components = [], form, data_0 = null, data_1 = null } = $props();
if (!browser) {
// svelte-ignore state_referenced_locally
setContext('__svelte__', stores);
}
if (browser) {
$effect.pre(() => stores.page.set(page));
} else {
// svelte-ignore state_referenced_locally
stores.page.set(page);
}
$effect(() => {
stores;page;constructors;components;form;data_0;data_1;
stores.page.notify();
});
let mounted = $state(false);
let navigated = $state(false);
let title = $state(null);
onMount(() => {
const unsubscribe = stores.page.subscribe(() => {
if (mounted) {
navigated = true;
tick().then(() => {
title = document.title || 'untitled page';
});
}
});
mounted = true;
return unsubscribe;
});
const Pyramid_1=$derived(constructors[1])
</script>
{#if constructors[1]}
{@const Pyramid_0 = constructors[0]}
<!-- svelte-ignore binding_property_non_reactive -->
<Pyramid_0 bind:this={components[0]} data={data_0} {form} params={page.params}>
<!-- svelte-ignore binding_property_non_reactive -->
<Pyramid_1 bind:this={components[1]} data={data_1} {form} params={page.params} />
</Pyramid_0>
{:else}
{@const Pyramid_0 = constructors[0]}
<!-- svelte-ignore binding_property_non_reactive -->
<Pyramid_0 bind:this={components[0]} data={data_0} {form} params={page.params} />
{/if}
{#if mounted}
<div id="svelte-announcer" aria-live="assertive" aria-atomic="true" style="position: absolute; left: 0; top: 0; clip: rect(0 0 0 0); clip-path: inset(50%); overflow: hidden; white-space: nowrap; width: 1px; height: 1px">
{#if navigated}
{title}
{/if}
</div>
{/if}

53
frontend/.svelte-kit/generated/server/internal.js
View File

@@ -1,53 +0,0 @@
import root from '../root.js';
import { set_building, set_prerendering } from '__sveltekit/environment';
import { set_assets } from '$app/paths/internal/server';
import { set_manifest, set_read_implementation } from '__sveltekit/server';
import { set_private_env, set_public_env } from '../../../node_modules/@sveltejs/kit/src/runtime/shared-server.js';
export const options = {
app_template_contains_nonce: false,
async: false,
csp: {"mode":"auto","directives":{"upgrade-insecure-requests":false,"block-all-mixed-content":false},"reportOnly":{"upgrade-insecure-requests":false,"block-all-mixed-content":false}},
csrf_check_origin: true,
csrf_trusted_origins: [],
embedded: false,
env_public_prefix: 'PUBLIC_',
env_private_prefix: '',
hash_routing: false,
hooks: null, // added lazily, via `get_hooks`
preload_strategy: "modulepreload",
root,
service_worker: false,
service_worker_options: undefined,
templates: {
app: ({ head, body, assets, nonce, env }) => "<!DOCTYPE html>\n<html lang=\"en\">\n\t<head>\n\t\t<meta charset=\"utf-8\" />\n\t\t<link rel=\"icon\" href=\"" + assets + "/favicon.png\" />\n\t\t<meta name=\"viewport\" content=\"width=device-width, initial-scale=1\" />\n\t\t" + head + "\n\t</head>\n\t<body data-sveltekit-preload-data=\"hover\">\n\t\t<div style=\"display: contents\">" + body + "</div>\n\t</body>\n</html>\n",
error: ({ status, message }) => "<!doctype html>\n<html lang=\"en\">\n\t<head>\n\t\t<meta charset=\"utf-8\" />\n\t\t<title>" + message + "</title>\n\n\t\t<style>\n\t\t\tbody {\n\t\t\t\t--bg: white;\n\t\t\t\t--fg: #222;\n\t\t\t\t--divider: #ccc;\n\t\t\t\tbackground: var(--bg);\n\t\t\t\tcolor: var(--fg);\n\t\t\t\tfont-family:\n\t\t\t\t\tsystem-ui,\n\t\t\t\t\t-apple-system,\n\t\t\t\t\tBlinkMacSystemFont,\n\t\t\t\t\t'Segoe UI',\n\t\t\t\t\tRoboto,\n\t\t\t\t\tOxygen,\n\t\t\t\t\tUbuntu,\n\t\t\t\t\tCantarell,\n\t\t\t\t\t'Open Sans',\n\t\t\t\t\t'Helvetica Neue',\n\t\t\t\t\tsans-serif;\n\t\t\t\tdisplay: flex;\n\t\t\t\talign-items: center;\n\t\t\t\tjustify-content: center;\n\t\t\t\theight: 100vh;\n\t\t\t\tmargin: 0;\n\t\t\t}\n\n\t\t\t.error {\n\t\t\t\tdisplay: flex;\n\t\t\t\talign-items: center;\n\t\t\t\tmax-width: 32rem;\n\t\t\t\tmargin: 0 1rem;\n\t\t\t}\n\n\t\t\t.status {\n\t\t\t\tfont-weight: 200;\n\t\t\t\tfont-size: 3rem;\n\t\t\t\tline-height: 1;\n\t\t\t\tposition: relative;\n\t\t\t\ttop: -0.05rem;\n\t\t\t}\n\n\t\t\t.message {\n\t\t\t\tborder-left: 1px solid var(--divider);\n\t\t\t\tpadding: 0 0 0 1rem;\n\t\t\t\tmargin: 0 0 0 1rem;\n\t\t\t\tmin-height: 2.5rem;\n\t\t\t\tdisplay: flex;\n\t\t\t\talign-items: center;\n\t\t\t}\n\n\t\t\t.message h1 {\n\t\t\t\tfont-weight: 400;\n\t\t\t\tfont-size: 1em;\n\t\t\t\tmargin: 0;\n\t\t\t}\n\n\t\t\t@media (prefers-color-scheme: dark) {\n\t\t\t\tbody {\n\t\t\t\t\t--bg: #222;\n\t\t\t\t\t--fg: #ddd;\n\t\t\t\t\t--divider: #666;\n\t\t\t\t}\n\t\t\t}\n\t\t</style>\n\t</head>\n\t<body>\n\t\t<div class=\"error\">\n\t\t\t<span class=\"status\">" + status + "</span>\n\t\t\t<div class=\"message\">\n\t\t\t\t<h1>" + message + "</h1>\n\t\t\t</div>\n\t\t</div>\n\t</body>\n</html>\n"
},
version_hash: "n7gbte"
};
export async function get_hooks() {
let handle;
let handleFetch;
let handleError;
let handleValidationError;
let init;
let reroute;
let transport;
return {
handle,
handleFetch,
handleError,
handleValidationError,
init,
reroute,
transport
};
}
export { set_assets, set_building, set_manifest, set_prerendering, set_private_env, set_public_env, set_read_implementation };

44
frontend/.svelte-kit/non-ambient.d.ts vendored
View File

@@ -1,44 +0,0 @@
// this file is generated — do not edit it
declare module "svelte/elements" {
export interface HTMLAttributes<T> {
'data-sveltekit-keepfocus'?: true | '' | 'off' | undefined | null;
'data-sveltekit-noscroll'?: true | '' | 'off' | undefined | null;
'data-sveltekit-preload-code'?:
| true
| ''
| 'eager'
| 'viewport'
| 'hover'
| 'tap'
| 'off'
| undefined
| null;
'data-sveltekit-preload-data'?: true | '' | 'hover' | 'tap' | 'off' | undefined | null;
'data-sveltekit-reload'?: true | '' | 'off' | undefined | null;
'data-sveltekit-replacestate'?: true | '' | 'off' | undefined | null;
}
}
export {};
declare module "$app/types" {
export interface AppTypes {
RouteId(): "/" | "/migration" | "/migration/mappings" | "/settings";
RouteParams(): {
};
LayoutParams(): {
"/": Record<string, never>;
"/migration": Record<string, never>;
"/migration/mappings": Record<string, never>;
"/settings": Record<string, never>
};
Pathname(): "/" | "/migration" | "/migration/" | "/migration/mappings" | "/migration/mappings/" | "/settings" | "/settings/";
ResolvedPathname(): `${"" | `/${string}`}${ReturnType<AppTypes['Pathname']>}`;
Asset(): string & {};
}
}

162
frontend/.svelte-kit/output/client/.vite/manifest.json
View File

@@ -1,162 +0,0 @@
{
".svelte-kit/generated/client-optimized/app.js": {
"file": "_app/immutable/entry/app.BXnpILpp.js",
"name": "entry/app",
"src": ".svelte-kit/generated/client-optimized/app.js",
"isEntry": true,
"imports": [
"_BtL0wB3H.js",
"_cv2LK44M.js",
"_BxZpmA7Z.js",
"_vVxDbqKK.js"
],
"dynamicImports": [
".svelte-kit/generated/client-optimized/nodes/0.js",
".svelte-kit/generated/client-optimized/nodes/1.js",
".svelte-kit/generated/client-optimized/nodes/2.js",
".svelte-kit/generated/client-optimized/nodes/3.js"
]
},
".svelte-kit/generated/client-optimized/nodes/0.js": {
"file": "_app/immutable/nodes/0.DZdF_zz-.js",
"name": "nodes/0",
"src": ".svelte-kit/generated/client-optimized/nodes/0.js",
"isEntry": true,
"isDynamicEntry": true,
"imports": [
"_cv2LK44M.js",
"_CRLlKr96.js",
"_BtL0wB3H.js",
"_xdjHc-A2.js",
"_DXE57cnx.js",
"_Dbod7Wv8.js"
],
"css": [
"_app/immutable/assets/0.RZHRvmcL.css"
]
},
".svelte-kit/generated/client-optimized/nodes/1.js": {
"file": "_app/immutable/nodes/1.Bh-fCbID.js",
"name": "nodes/1",
"src": ".svelte-kit/generated/client-optimized/nodes/1.js",
"isEntry": true,
"isDynamicEntry": true,
"imports": [
"_cv2LK44M.js",
"_CRLlKr96.js",
"_BtL0wB3H.js",
"_DXE57cnx.js"
]
},
".svelte-kit/generated/client-optimized/nodes/2.js": {
"file": "_app/immutable/nodes/2.BmiXdPHI.js",
"name": "nodes/2",
"src": ".svelte-kit/generated/client-optimized/nodes/2.js",
"isEntry": true,
"isDynamicEntry": true,
"imports": [
"_DyPeVqDG.js",
"_cv2LK44M.js",
"_CRLlKr96.js",
"_BtL0wB3H.js",
"_vVxDbqKK.js",
"_Dbod7Wv8.js",
"_BxZpmA7Z.js",
"_xdjHc-A2.js"
]
},
".svelte-kit/generated/client-optimized/nodes/3.js": {
"file": "_app/immutable/nodes/3.guWMyWpk.js",
"name": "nodes/3",
"src": ".svelte-kit/generated/client-optimized/nodes/3.js",
"isEntry": true,
"isDynamicEntry": true,
"imports": [
"_DyPeVqDG.js",
"_cv2LK44M.js",
"_CRLlKr96.js",
"_BtL0wB3H.js",
"_vVxDbqKK.js",
"_Dbod7Wv8.js"
]
},
"_BtL0wB3H.js": {
"file": "_app/immutable/chunks/BtL0wB3H.js",
"name": "index"
},
"_BxZpmA7Z.js": {
"file": "_app/immutable/chunks/BxZpmA7Z.js",
"name": "index-client",
"imports": [
"_BtL0wB3H.js"
]
},
"_CRLlKr96.js": {
"file": "_app/immutable/chunks/CRLlKr96.js",
"name": "legacy",
"imports": [
"_BtL0wB3H.js"
]
},
"_D0iaTcAo.js": {
"file": "_app/immutable/chunks/D0iaTcAo.js",
"name": "entry",
"imports": [
"_BtL0wB3H.js",
"_BxZpmA7Z.js"
]
},
"_DXE57cnx.js": {
"file": "_app/immutable/chunks/DXE57cnx.js",
"name": "stores",
"imports": [
"_D0iaTcAo.js"
]
},
"_Dbod7Wv8.js": {
"file": "_app/immutable/chunks/Dbod7Wv8.js",
"name": "toasts",
"imports": [
"_BtL0wB3H.js"
]
},
"_DyPeVqDG.js": {
"file": "_app/immutable/chunks/DyPeVqDG.js",
"name": "api",
"imports": [
"_BtL0wB3H.js",
"_Dbod7Wv8.js"
]
},
"_cv2LK44M.js": {
"file": "_app/immutable/chunks/cv2LK44M.js",
"name": "disclose-version",
"imports": [
"_BtL0wB3H.js"
]
},
"_vVxDbqKK.js": {
"file": "_app/immutable/chunks/vVxDbqKK.js",
"name": "props",
"imports": [
"_BtL0wB3H.js",
"_cv2LK44M.js"
]
},
"_xdjHc-A2.js": {
"file": "_app/immutable/chunks/xdjHc-A2.js",
"name": "class",
"imports": [
"_BtL0wB3H.js"
]
},
"node_modules/@sveltejs/kit/src/runtime/client/entry.js": {
"file": "_app/immutable/entry/start.BHAeOrfR.js",
"name": "entry/start",
"src": "node_modules/@sveltejs/kit/src/runtime/client/entry.js",
"isEntry": true,
"imports": [
"_D0iaTcAo.js"
]
}
}

1
frontend/.svelte-kit/output/client/_app/version.json
View File

@@ -1 +0,0 @@
{"version":"1766262590857"}

1
frontend/.svelte-kit/output/prerendered/dependencies/_app/env.js
View File

@@ -1 +0,0 @@
export const env={"PUBLIC_WS_URL":"ws://localhost:8000"}

180
frontend/.svelte-kit/output/server/.vite/manifest.json
View File

@@ -1,180 +0,0 @@
{
".svelte-kit/generated/server/internal.js": {
"file": "internal.js",
"name": "internal",
"src": ".svelte-kit/generated/server/internal.js",
"isEntry": true,
"imports": [
"_internal.js",
"_environment.js"
]
},
"_api.js": {
"file": "chunks/api.js",
"name": "api",
"imports": [
"_toasts.js"
]
},
"_environment.js": {
"file": "chunks/environment.js",
"name": "environment"
},
"_equality.js": {
"file": "chunks/equality.js",
"name": "equality"
},
"_exports.js": {
"file": "chunks/exports.js",
"name": "exports"
},
"_false.js": {
"file": "chunks/false.js",
"name": "false"
},
"_index.js": {
"file": "chunks/index.js",
"name": "index",
"imports": [
"_equality.js"
]
},
"_index2.js": {
"file": "chunks/index2.js",
"name": "index",
"imports": [
"_false.js",
"_equality.js"
]
},
"_internal.js": {
"file": "chunks/internal.js",
"name": "internal",
"imports": [
"_index2.js",
"_equality.js",
"_environment.js"
]
},
"_shared.js": {
"file": "chunks/shared.js",
"name": "shared",
"imports": [
"_utils.js"
]
},
"_stores.js": {
"file": "chunks/stores.js",
"name": "stores",
"imports": [
"_index2.js",
"_exports.js",
"_utils.js",
"_equality.js"
]
},
"_toasts.js": {
"file": "chunks/toasts.js",
"name": "toasts",
"imports": [
"_index.js"
]
},
"_utils.js": {
"file": "chunks/utils.js",
"name": "utils"
},
"node_modules/@sveltejs/kit/src/runtime/app/server/remote/index.js": {
"file": "remote-entry.js",
"name": "remote-entry",
"src": "node_modules/@sveltejs/kit/src/runtime/app/server/remote/index.js",
"isEntry": true,
"imports": [
"_shared.js",
"_false.js",
"_environment.js"
]
},
"node_modules/@sveltejs/kit/src/runtime/server/index.js": {
"file": "index.js",
"name": "index",
"src": "node_modules/@sveltejs/kit/src/runtime/server/index.js",
"isEntry": true,
"imports": [
"_false.js",
"_environment.js",
"_shared.js",
"_exports.js",
"_utils.js",
"_index.js",
"_internal.js"
]
},
"src/routes/+error.svelte": {
"file": "entries/pages/_error.svelte.js",
"name": "entries/pages/_error.svelte",
"src": "src/routes/+error.svelte",
"isEntry": true,
"imports": [
"_index2.js",
"_stores.js"
]
},
"src/routes/+layout.svelte": {
"file": "entries/pages/_layout.svelte.js",
"name": "entries/pages/_layout.svelte",
"src": "src/routes/+layout.svelte",
"isEntry": true,
"imports": [
"_index2.js",
"_stores.js",
"_toasts.js"
],
"css": [
"_app/immutable/assets/_layout.RZHRvmcL.css"
]
},
"src/routes/+layout.ts": {
"file": "entries/pages/_layout.ts.js",
"name": "entries/pages/_layout.ts",
"src": "src/routes/+layout.ts",
"isEntry": true
},
"src/routes/+page.svelte": {
"file": "entries/pages/_page.svelte.js",
"name": "entries/pages/_page.svelte",
"src": "src/routes/+page.svelte",
"isEntry": true,
"imports": [
"_index2.js",
"_index.js"
]
},
"src/routes/+page.ts": {
"file": "entries/pages/_page.ts.js",
"name": "entries/pages/_page.ts",
"src": "src/routes/+page.ts",
"isEntry": true,
"imports": [
"_api.js"
]
},
"src/routes/settings/+page.svelte": {
"file": "entries/pages/settings/_page.svelte.js",
"name": "entries/pages/settings/_page.svelte",
"src": "src/routes/settings/+page.svelte",
"isEntry": true,
"imports": [
"_index2.js"
]
},
"src/routes/settings/+page.ts": {
"file": "entries/pages/settings/_page.ts.js",
"name": "entries/pages/settings/_page.ts",
"src": "src/routes/settings/+page.ts",
"isEntry": true,
"imports": [
"_api.js"
]
}
}

77
frontend/.svelte-kit/output/server/chunks/api.js
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@@ -1,77 +0,0 @@
import { a as addToast } from "./toasts.js";
const API_BASE_URL = "/api";
async function fetchApi(endpoint) {
try {
console.log(`[api.fetchApi][Action] Fetching from context={{'endpoint': '${endpoint}'}}`);
const response = await fetch(`${API_BASE_URL}${endpoint}`);
if (!response.ok) {
throw new Error(`API request failed with status ${response.status}`);
}
return await response.json();
} catch (error) {
console.error(`[api.fetchApi][Coherence:Failed] Error fetching from ${endpoint}:`, error);
addToast(error.message, "error");
throw error;
}
}
async function postApi(endpoint, body) {
try {
console.log(`[api.postApi][Action] Posting to context={{'endpoint': '${endpoint}'}}`);
const response = await fetch(`${API_BASE_URL}${endpoint}`, {
method: "POST",
headers: {
"Content-Type": "application/json"
},
body: JSON.stringify(body)
});
if (!response.ok) {
throw new Error(`API request failed with status ${response.status}`);
}
return await response.json();
} catch (error) {
console.error(`[api.postApi][Coherence:Failed] Error posting to ${endpoint}:`, error);
addToast(error.message, "error");
throw error;
}
}
async function requestApi(endpoint, method = "GET", body = null) {
try {
console.log(`[api.requestApi][Action] ${method} to context={{'endpoint': '${endpoint}'}}`);
const options = {
method,
headers: {
"Content-Type": "application/json"
}
};
if (body) {
options.body = JSON.stringify(body);
}
const response = await fetch(`${API_BASE_URL}${endpoint}`, options);
if (!response.ok) {
const errorData = await response.json().catch(() => ({}));
throw new Error(errorData.detail || `API request failed with status ${response.status}`);
}
return await response.json();
} catch (error) {
console.error(`[api.requestApi][Coherence:Failed] Error ${method} to ${endpoint}:`, error);
addToast(error.message, "error");
throw error;
}
}
const api = {
getPlugins: () => fetchApi("/plugins/"),
getTasks: () => fetchApi("/tasks/"),
getTask: (taskId) => fetchApi(`/tasks/${taskId}`),
createTask: (pluginId, params) => postApi("/tasks/", { plugin_id: pluginId, params }),
// Settings
getSettings: () => fetchApi("/settings/"),
updateGlobalSettings: (settings) => requestApi("/settings/global", "PATCH", settings),
getEnvironments: () => fetchApi("/settings/environments"),
addEnvironment: (env) => postApi("/settings/environments", env),
updateEnvironment: (id, env) => requestApi(`/settings/environments/${id}`, "PUT", env),
deleteEnvironment: (id) => requestApi(`/settings/environments/${id}`, "DELETE"),
testEnvironmentConnection: (id) => postApi(`/settings/environments/${id}/test`, {})
};
export {
api as a
};

34
frontend/.svelte-kit/output/server/chunks/environment.js
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@@ -1,34 +0,0 @@
let base = "";
let assets = base;
const app_dir = "_app";
const relative = true;
const initial = { base, assets };
function override(paths) {
base = paths.base;
assets = paths.assets;
}
function reset() {
base = initial.base;
assets = initial.assets;
}
function set_assets(path) {
assets = initial.assets = path;
}
let prerendering = false;
function set_building() {
}
function set_prerendering() {
prerendering = true;
}
export {
assets as a,
base as b,
app_dir as c,
reset as d,
set_building as e,
set_prerendering as f,
override as o,
prerendering as p,
relative as r,
set_assets as s
};

51
frontend/.svelte-kit/output/server/chunks/equality.js
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@@ -1,51 +0,0 @@
var is_array = Array.isArray;
var index_of = Array.prototype.indexOf;
var array_from = Array.from;
var define_property = Object.defineProperty;
var get_descriptor = Object.getOwnPropertyDescriptor;
var object_prototype = Object.prototype;
var array_prototype = Array.prototype;
var get_prototype_of = Object.getPrototypeOf;
var is_extensible = Object.isExtensible;
const noop = () => {
};
function run_all(arr) {
for (var i = 0; i < arr.length; i++) {
arr[i]();
}
}
function deferred() {
var resolve;
var reject;
var promise = new Promise((res, rej) => {
resolve = res;
reject = rej;
});
return { promise, resolve, reject };
}
function equals(value) {
return value === this.v;
}
function safe_not_equal(a, b) {
return a != a ? b == b : a !== b || a !== null && typeof a === "object" || typeof a === "function";
}
function safe_equals(value) {
return !safe_not_equal(value, this.v);
}
export {
array_from as a,
deferred as b,
array_prototype as c,
define_property as d,
equals as e,
get_prototype_of as f,
get_descriptor as g,
is_extensible as h,
is_array as i,
index_of as j,
safe_not_equal as k,
noop as n,
object_prototype as o,
run_all as r,
safe_equals as s
};

174
frontend/.svelte-kit/output/server/chunks/exports.js
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@@ -1,174 +0,0 @@
const SCHEME = /^[a-z][a-z\d+\-.]+:/i;
const internal = new URL("sveltekit-internal://");
function resolve(base, path) {
if (path[0] === "/" && path[1] === "/") return path;
let url = new URL(base, internal);
url = new URL(path, url);
return url.protocol === internal.protocol ? url.pathname + url.search + url.hash : url.href;
}
function normalize_path(path, trailing_slash) {
if (path === "/" || trailing_slash === "ignore") return path;
if (trailing_slash === "never") {
return path.endsWith("/") ? path.slice(0, -1) : path;
} else if (trailing_slash === "always" && !path.endsWith("/")) {
return path + "/";
}
return path;
}
function decode_pathname(pathname) {
return pathname.split("%25").map(decodeURI).join("%25");
}
function decode_params(params) {
for (const key in params) {
params[key] = decodeURIComponent(params[key]);
}
return params;
}
function make_trackable(url, callback, search_params_callback, allow_hash = false) {
const tracked = new URL(url);
Object.defineProperty(tracked, "searchParams", {
value: new Proxy(tracked.searchParams, {
get(obj, key) {
if (key === "get" || key === "getAll" || key === "has") {
return (param) => {
search_params_callback(param);
return obj[key](param);
};
}
callback();
const value = Reflect.get(obj, key);
return typeof value === "function" ? value.bind(obj) : value;
}
}),
enumerable: true,
configurable: true
});
const tracked_url_properties = ["href", "pathname", "search", "toString", "toJSON"];
if (allow_hash) tracked_url_properties.push("hash");
for (const property of tracked_url_properties) {
Object.defineProperty(tracked, property, {
get() {
callback();
return url[property];
},
enumerable: true,
configurable: true
});
}
{
tracked[/* @__PURE__ */ Symbol.for("nodejs.util.inspect.custom")] = (depth, opts, inspect) => {
return inspect(url, opts);
};
tracked.searchParams[/* @__PURE__ */ Symbol.for("nodejs.util.inspect.custom")] = (depth, opts, inspect) => {
return inspect(url.searchParams, opts);
};
}
if (!allow_hash) {
disable_hash(tracked);
}
return tracked;
}
function disable_hash(url) {
allow_nodejs_console_log(url);
Object.defineProperty(url, "hash", {
get() {
throw new Error(
"Cannot access event.url.hash. Consider using `page.url.hash` inside a component instead"
);
}
});
}
function disable_search(url) {
allow_nodejs_console_log(url);
for (const property of ["search", "searchParams"]) {
Object.defineProperty(url, property, {
get() {
throw new Error(`Cannot access url.${property} on a page with prerendering enabled`);
}
});
}
}
function allow_nodejs_console_log(url) {
{
url[/* @__PURE__ */ Symbol.for("nodejs.util.inspect.custom")] = (depth, opts, inspect) => {
return inspect(new URL(url), opts);
};
}
}
function validator(expected) {
function validate(module, file) {
if (!module) return;
for (const key in module) {
if (key[0] === "_" || expected.has(key)) continue;
const values = [...expected.values()];
const hint = hint_for_supported_files(key, file?.slice(file.lastIndexOf("."))) ?? `valid exports are ${values.join(", ")}, or anything with a '_' prefix`;
throw new Error(`Invalid export '${key}'${file ? ` in ${file}` : ""} (${hint})`);
}
}
return validate;
}
function hint_for_supported_files(key, ext = ".js") {
const supported_files = [];
if (valid_layout_exports.has(key)) {
supported_files.push(`+layout${ext}`);
}
if (valid_page_exports.has(key)) {
supported_files.push(`+page${ext}`);
}
if (valid_layout_server_exports.has(key)) {
supported_files.push(`+layout.server${ext}`);
}
if (valid_page_server_exports.has(key)) {
supported_files.push(`+page.server${ext}`);
}
if (valid_server_exports.has(key)) {
supported_files.push(`+server${ext}`);
}
if (supported_files.length > 0) {
return `'${key}' is a valid export in ${supported_files.slice(0, -1).join(", ")}${supported_files.length > 1 ? " or " : ""}${supported_files.at(-1)}`;
}
}
const valid_layout_exports = /* @__PURE__ */ new Set([
"load",
"prerender",
"csr",
"ssr",
"trailingSlash",
"config"
]);
const valid_page_exports = /* @__PURE__ */ new Set([...valid_layout_exports, "entries"]);
const valid_layout_server_exports = /* @__PURE__ */ new Set([...valid_layout_exports]);
const valid_page_server_exports = /* @__PURE__ */ new Set([...valid_layout_server_exports, "actions", "entries"]);
const valid_server_exports = /* @__PURE__ */ new Set([
"GET",
"POST",
"PATCH",
"PUT",
"DELETE",
"OPTIONS",
"HEAD",
"fallback",
"prerender",
"trailingSlash",
"config",
"entries"
]);
const validate_layout_exports = validator(valid_layout_exports);
const validate_page_exports = validator(valid_page_exports);
const validate_layout_server_exports = validator(valid_layout_server_exports);
const validate_page_server_exports = validator(valid_page_server_exports);
const validate_server_exports = validator(valid_server_exports);
export {
SCHEME as S,
decode_params as a,
validate_layout_exports as b,
validate_page_server_exports as c,
disable_search as d,
validate_page_exports as e,
decode_pathname as f,
validate_server_exports as g,
make_trackable as m,
normalize_path as n,
resolve as r,
validate_layout_server_exports as v
};

4
frontend/.svelte-kit/output/server/chunks/false.js
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@@ -1,4 +0,0 @@
const BROWSER = false;
export {
BROWSER as B
};

59
frontend/.svelte-kit/output/server/chunks/index.js
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@@ -1,59 +0,0 @@
import { n as noop, k as safe_not_equal } from "./equality.js";
import "clsx";
const subscriber_queue = [];
function readable(value, start) {
return {
subscribe: writable(value, start).subscribe
};
}
function writable(value, start = noop) {
let stop = null;
const subscribers = /* @__PURE__ */ new Set();
function set(new_value) {
if (safe_not_equal(value, new_value)) {
value = new_value;
if (stop) {
const run_queue = !subscriber_queue.length;
for (const subscriber of subscribers) {
subscriber[1]();
subscriber_queue.push(subscriber, value);
}
if (run_queue) {
for (let i = 0; i < subscriber_queue.length; i += 2) {
subscriber_queue[i][0](subscriber_queue[i + 1]);
}
subscriber_queue.length = 0;
}
}
}
}
function update(fn) {
set(fn(
/** @type {T} */
value
));
}
function subscribe(run, invalidate = noop) {
const subscriber = [run, invalidate];
subscribers.add(subscriber);
if (subscribers.size === 1) {
stop = start(set, update) || noop;
}
run(
/** @type {T} */
value
);
return () => {
subscribers.delete(subscriber);
if (subscribers.size === 0 && stop) {
stop();
stop = null;
}
};
}
return { set, update, subscribe };
}
export {
readable as r,
writable as w
};

2783
frontend/.svelte-kit/output/server/chunks/index2.js
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982
frontend/.svelte-kit/output/server/chunks/internal.js
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@@ -1,982 +0,0 @@
import { H as HYDRATION_ERROR, C as COMMENT_NODE, a as HYDRATION_END, g as get_next_sibling, b as HYDRATION_START, c as HYDRATION_START_ELSE, e as effect_tracking, d as get, s as source, r as render_effect, u as untrack, i as increment, q as queue_micro_task, f as active_effect, h as block, j as branch, B as Batch, p as pause_effect, k as create_text, l as set_active_effect, m as set_active_reaction, n as set_component_context, o as handle_error, t as active_reaction, v as component_context, w as move_effect, x as internal_set, y as destroy_effect, z as invoke_error_boundary, A as svelte_boundary_reset_onerror, E as EFFECT_TRANSPARENT, D as EFFECT_PRESERVED, F as BOUNDARY_EFFECT, G as init_operations, I as get_first_child, J as hydration_failed, K as clear_text_content, L as component_root, M as is_passive_event, N as push, O as pop, P as set, Q as LEGACY_PROPS, R as flushSync, S as mutable_source, T as render, U as setContext } from "./index2.js";
import { d as define_property, a as array_from } from "./equality.js";
import "clsx";
import "./environment.js";
let public_env = {};
function set_private_env(environment) {
}
function set_public_env(environment) {
public_env = environment;
}
function hydration_mismatch(location) {
{
console.warn(`https://svelte.dev/e/hydration_mismatch`);
}
}
function svelte_boundary_reset_noop() {
{
console.warn(`https://svelte.dev/e/svelte_boundary_reset_noop`);
}
}
let hydrating = false;
function set_hydrating(value) {
hydrating = value;
}
let hydrate_node;
function set_hydrate_node(node) {
if (node === null) {
hydration_mismatch();
throw HYDRATION_ERROR;
}
return hydrate_node = node;
}
function hydrate_next() {
return set_hydrate_node(get_next_sibling(hydrate_node));
}
function next(count = 1) {
if (hydrating) {
var i = count;
var node = hydrate_node;
while (i--) {
node = /** @type {TemplateNode} */
get_next_sibling(node);
}
hydrate_node = node;
}
}
function skip_nodes(remove = true) {
var depth = 0;
var node = hydrate_node;
while (true) {
if (node.nodeType === COMMENT_NODE) {
var data = (
/** @type {Comment} */
node.data
);
if (data === HYDRATION_END) {
if (depth === 0) return node;
depth -= 1;
} else if (data === HYDRATION_START || data === HYDRATION_START_ELSE) {
depth += 1;
}
}
var next2 = (
/** @type {TemplateNode} */
get_next_sibling(node)
);
if (remove) node.remove();
node = next2;
}
}
function createSubscriber(start) {
let subscribers = 0;
let version = source(0);
let stop;
return () => {
if (effect_tracking()) {
get(version);
render_effect(() => {
if (subscribers === 0) {
stop = untrack(() => start(() => increment(version)));
}
subscribers += 1;
return () => {
queue_micro_task(() => {
subscribers -= 1;
if (subscribers === 0) {
stop?.();
stop = void 0;
increment(version);
}
});
};
});
}
};
}
var flags = EFFECT_TRANSPARENT | EFFECT_PRESERVED | BOUNDARY_EFFECT;
function boundary(node, props, children) {
new Boundary(node, props, children);
}
class Boundary {
/** @type {Boundary | null} */
parent;
#pending = false;
/** @type {TemplateNode} */
#anchor;
/** @type {TemplateNode | null} */
#hydrate_open = hydrating ? hydrate_node : null;
/** @type {BoundaryProps} */
#props;
/** @type {((anchor: Node) => void)} */
#children;
/** @type {Effect} */
#effect;
/** @type {Effect | null} */
#main_effect = null;
/** @type {Effect | null} */
#pending_effect = null;
/** @type {Effect | null} */
#failed_effect = null;
/** @type {DocumentFragment | null} */
#offscreen_fragment = null;
/** @type {TemplateNode | null} */
#pending_anchor = null;
#local_pending_count = 0;
#pending_count = 0;
#is_creating_fallback = false;
/**
* A source containing the number of pending async deriveds/expressions.
* Only created if `$effect.pending()` is used inside the boundary,
* otherwise updating the source results in needless `Batch.ensure()`
* calls followed by no-op flushes
* @type {Source<number> | null}
*/
#effect_pending = null;
#effect_pending_subscriber = createSubscriber(() => {
this.#effect_pending = source(this.#local_pending_count);
return () => {
this.#effect_pending = null;
};
});
/**
* @param {TemplateNode} node
* @param {BoundaryProps} props
* @param {((anchor: Node) => void)} children
*/
constructor(node, props, children) {
this.#anchor = node;
this.#props = props;
this.#children = children;
this.parent = /** @type {Effect} */
active_effect.b;
this.#pending = !!this.#props.pending;
this.#effect = block(() => {
active_effect.b = this;
if (hydrating) {
const comment = this.#hydrate_open;
hydrate_next();
const server_rendered_pending = (
/** @type {Comment} */
comment.nodeType === COMMENT_NODE && /** @type {Comment} */
comment.data === HYDRATION_START_ELSE
);
if (server_rendered_pending) {
this.#hydrate_pending_content();
} else {
this.#hydrate_resolved_content();
}
} else {
var anchor = this.#get_anchor();
try {
this.#main_effect = branch(() => children(anchor));
} catch (error) {
this.error(error);
}
if (this.#pending_count > 0) {
this.#show_pending_snippet();
} else {
this.#pending = false;
}
}
return () => {
this.#pending_anchor?.remove();
};
}, flags);
if (hydrating) {
this.#anchor = hydrate_node;
}
}
#hydrate_resolved_content() {
try {
this.#main_effect = branch(() => this.#children(this.#anchor));
} catch (error) {
this.error(error);
}
this.#pending = false;
}
#hydrate_pending_content() {
const pending = this.#props.pending;
if (!pending) {
return;
}
this.#pending_effect = branch(() => pending(this.#anchor));
Batch.enqueue(() => {
var anchor = this.#get_anchor();
this.#main_effect = this.#run(() => {
Batch.ensure();
return branch(() => this.#children(anchor));
});
if (this.#pending_count > 0) {
this.#show_pending_snippet();
} else {
pause_effect(
/** @type {Effect} */
this.#pending_effect,
() => {
this.#pending_effect = null;
}
);
this.#pending = false;
}
});
}
#get_anchor() {
var anchor = this.#anchor;
if (this.#pending) {
this.#pending_anchor = create_text();
this.#anchor.before(this.#pending_anchor);
anchor = this.#pending_anchor;
}
return anchor;
}
/**
* Returns `true` if the effect exists inside a boundary whose pending snippet is shown
* @returns {boolean}
*/
is_pending() {
return this.#pending || !!this.parent && this.parent.is_pending();
}
has_pending_snippet() {
return !!this.#props.pending;
}
/**
* @param {() => Effect | null} fn
*/
#run(fn) {
var previous_effect = active_effect;
var previous_reaction = active_reaction;
var previous_ctx = component_context;
set_active_effect(this.#effect);
set_active_reaction(this.#effect);
set_component_context(this.#effect.ctx);
try {
return fn();
} catch (e) {
handle_error(e);
return null;
} finally {
set_active_effect(previous_effect);
set_active_reaction(previous_reaction);
set_component_context(previous_ctx);
}
}
#show_pending_snippet() {
const pending = (
/** @type {(anchor: Node) => void} */
this.#props.pending
);
if (this.#main_effect !== null) {
this.#offscreen_fragment = document.createDocumentFragment();
this.#offscreen_fragment.append(
/** @type {TemplateNode} */
this.#pending_anchor
);
move_effect(this.#main_effect, this.#offscreen_fragment);
}
if (this.#pending_effect === null) {
this.#pending_effect = branch(() => pending(this.#anchor));
}
}
/**
* Updates the pending count associated with the currently visible pending snippet,
* if any, such that we can replace the snippet with content once work is done
* @param {1 | -1} d
*/
#update_pending_count(d) {
if (!this.has_pending_snippet()) {
if (this.parent) {
this.parent.#update_pending_count(d);
}
return;
}
this.#pending_count += d;
if (this.#pending_count === 0) {
this.#pending = false;
if (this.#pending_effect) {
pause_effect(this.#pending_effect, () => {
this.#pending_effect = null;
});
}
if (this.#offscreen_fragment) {
this.#anchor.before(this.#offscreen_fragment);
this.#offscreen_fragment = null;
}
}
}
/**
* Update the source that powers `$effect.pending()` inside this boundary,
* and controls when the current `pending` snippet (if any) is removed.
* Do not call from inside the class
* @param {1 | -1} d
*/
update_pending_count(d) {
this.#update_pending_count(d);
this.#local_pending_count += d;
if (this.#effect_pending) {
internal_set(this.#effect_pending, this.#local_pending_count);
}
}
get_effect_pending() {
this.#effect_pending_subscriber();
return get(
/** @type {Source<number>} */
this.#effect_pending
);
}
/** @param {unknown} error */
error(error) {
var onerror = this.#props.onerror;
let failed = this.#props.failed;
if (this.#is_creating_fallback || !onerror && !failed) {
throw error;
}
if (this.#main_effect) {
destroy_effect(this.#main_effect);
this.#main_effect = null;
}
if (this.#pending_effect) {
destroy_effect(this.#pending_effect);
this.#pending_effect = null;
}
if (this.#failed_effect) {
destroy_effect(this.#failed_effect);
this.#failed_effect = null;
}
if (hydrating) {
set_hydrate_node(
/** @type {TemplateNode} */
this.#hydrate_open
);
next();
set_hydrate_node(skip_nodes());
}
var did_reset = false;
var calling_on_error = false;
const reset = () => {
if (did_reset) {
svelte_boundary_reset_noop();
return;
}
did_reset = true;
if (calling_on_error) {
svelte_boundary_reset_onerror();
}
Batch.ensure();
this.#local_pending_count = 0;
if (this.#failed_effect !== null) {
pause_effect(this.#failed_effect, () => {
this.#failed_effect = null;
});
}
this.#pending = this.has_pending_snippet();
this.#main_effect = this.#run(() => {
this.#is_creating_fallback = false;
return branch(() => this.#children(this.#anchor));
});
if (this.#pending_count > 0) {
this.#show_pending_snippet();
} else {
this.#pending = false;
}
};
var previous_reaction = active_reaction;
try {
set_active_reaction(null);
calling_on_error = true;
onerror?.(error, reset);
calling_on_error = false;
} catch (error2) {
invoke_error_boundary(error2, this.#effect && this.#effect.parent);
} finally {
set_active_reaction(previous_reaction);
}
if (failed) {
queue_micro_task(() => {
this.#failed_effect = this.#run(() => {
Batch.ensure();
this.#is_creating_fallback = true;
try {
return branch(() => {
failed(
this.#anchor,
() => error,
() => reset
);
});
} catch (error2) {
invoke_error_boundary(
error2,
/** @type {Effect} */
this.#effect.parent
);
return null;
} finally {
this.#is_creating_fallback = false;
}
});
});
}
}
}
const all_registered_events = /* @__PURE__ */ new Set();
const root_event_handles = /* @__PURE__ */ new Set();
let last_propagated_event = null;
function handle_event_propagation(event) {
var handler_element = this;
var owner_document = (
/** @type {Node} */
handler_element.ownerDocument
);
var event_name = event.type;
var path = event.composedPath?.() || [];
var current_target = (
/** @type {null | Element} */
path[0] || event.target
);
last_propagated_event = event;
var path_idx = 0;
var handled_at = last_propagated_event === event && event.__root;
if (handled_at) {
var at_idx = path.indexOf(handled_at);
if (at_idx !== -1 && (handler_element === document || handler_element === /** @type {any} */
window)) {
event.__root = handler_element;
return;
}
var handler_idx = path.indexOf(handler_element);
if (handler_idx === -1) {
return;
}
if (at_idx <= handler_idx) {
path_idx = at_idx;
}
}
current_target = /** @type {Element} */
path[path_idx] || event.target;
if (current_target === handler_element) return;
define_property(event, "currentTarget", {
configurable: true,
get() {
return current_target || owner_document;
}
});
var previous_reaction = active_reaction;
var previous_effect = active_effect;
set_active_reaction(null);
set_active_effect(null);
try {
var throw_error;
var other_errors = [];
while (current_target !== null) {
var parent_element = current_target.assignedSlot || current_target.parentNode || /** @type {any} */
current_target.host || null;
try {
var delegated = current_target["__" + event_name];
if (delegated != null && (!/** @type {any} */
current_target.disabled || // DOM could've been updated already by the time this is reached, so we check this as well
// -> the target could not have been disabled because it emits the event in the first place
event.target === current_target)) {
delegated.call(current_target, event);
}
} catch (error) {
if (throw_error) {
other_errors.push(error);
} else {
throw_error = error;
}
}
if (event.cancelBubble || parent_element === handler_element || parent_element === null) {
break;
}
current_target = parent_element;
}
if (throw_error) {
for (let error of other_errors) {
queueMicrotask(() => {
throw error;
});
}
throw throw_error;
}
} finally {
event.__root = handler_element;
delete event.currentTarget;
set_active_reaction(previous_reaction);
set_active_effect(previous_effect);
}
}
function assign_nodes(start, end) {
var effect = (
/** @type {Effect} */
active_effect
);
if (effect.nodes === null) {
effect.nodes = { start, end, a: null, t: null };
}
}
function mount(component, options2) {
return _mount(component, options2);
}
function hydrate(component, options2) {
init_operations();
options2.intro = options2.intro ?? false;
const target = options2.target;
const was_hydrating = hydrating;
const previous_hydrate_node = hydrate_node;
try {
var anchor = get_first_child(target);
while (anchor && (anchor.nodeType !== COMMENT_NODE || /** @type {Comment} */
anchor.data !== HYDRATION_START)) {
anchor = get_next_sibling(anchor);
}
if (!anchor) {
throw HYDRATION_ERROR;
}
set_hydrating(true);
set_hydrate_node(
/** @type {Comment} */
anchor
);
const instance = _mount(component, { ...options2, anchor });
set_hydrating(false);
return (
/** @type {Exports} */
instance
);
} catch (error) {
if (error instanceof Error && error.message.split("\n").some((line) => line.startsWith("https://svelte.dev/e/"))) {
throw error;
}
if (error !== HYDRATION_ERROR) {
console.warn("Failed to hydrate: ", error);
}
if (options2.recover === false) {
hydration_failed();
}
init_operations();
clear_text_content(target);
set_hydrating(false);
return mount(component, options2);
} finally {
set_hydrating(was_hydrating);
set_hydrate_node(previous_hydrate_node);
}
}
const document_listeners = /* @__PURE__ */ new Map();
function _mount(Component, { target, anchor, props = {}, events, context, intro = true }) {
init_operations();
var registered_events = /* @__PURE__ */ new Set();
var event_handle = (events2) => {
for (var i = 0; i < events2.length; i++) {
var event_name = events2[i];
if (registered_events.has(event_name)) continue;
registered_events.add(event_name);
var passive = is_passive_event(event_name);
target.addEventListener(event_name, handle_event_propagation, { passive });
var n = document_listeners.get(event_name);
if (n === void 0) {
document.addEventListener(event_name, handle_event_propagation, { passive });
document_listeners.set(event_name, 1);
} else {
document_listeners.set(event_name, n + 1);
}
}
};
event_handle(array_from(all_registered_events));
root_event_handles.add(event_handle);
var component = void 0;
var unmount2 = component_root(() => {
var anchor_node = anchor ?? target.appendChild(create_text());
boundary(
/** @type {TemplateNode} */
anchor_node,
{
pending: () => {
}
},
(anchor_node2) => {
if (context) {
push({});
var ctx = (
/** @type {ComponentContext} */
component_context
);
ctx.c = context;
}
if (events) {
props.$$events = events;
}
if (hydrating) {
assign_nodes(
/** @type {TemplateNode} */
anchor_node2,
null
);
}
component = Component(anchor_node2, props) || {};
if (hydrating) {
active_effect.nodes.end = hydrate_node;
if (hydrate_node === null || hydrate_node.nodeType !== COMMENT_NODE || /** @type {Comment} */
hydrate_node.data !== HYDRATION_END) {
hydration_mismatch();
throw HYDRATION_ERROR;
}
}
if (context) {
pop();
}
}
);
return () => {
for (var event_name of registered_events) {
target.removeEventListener(event_name, handle_event_propagation);
var n = (
/** @type {number} */
document_listeners.get(event_name)
);
if (--n === 0) {
document.removeEventListener(event_name, handle_event_propagation);
document_listeners.delete(event_name);
} else {
document_listeners.set(event_name, n);
}
}
root_event_handles.delete(event_handle);
if (anchor_node !== anchor) {
anchor_node.parentNode?.removeChild(anchor_node);
}
};
});
mounted_components.set(component, unmount2);
return component;
}
let mounted_components = /* @__PURE__ */ new WeakMap();
function unmount(component, options2) {
const fn = mounted_components.get(component);
if (fn) {
mounted_components.delete(component);
return fn(options2);
}
return Promise.resolve();
}
function asClassComponent$1(component) {
return class extends Svelte4Component {
/** @param {any} options */
constructor(options2) {
super({
component,
...options2
});
}
};
}
class Svelte4Component {
/** @type {any} */
#events;
/** @type {Record<string, any>} */
#instance;
/**
* @param {ComponentConstructorOptions & {
* component: any;
* }} options
*/
constructor(options2) {
var sources = /* @__PURE__ */ new Map();
var add_source = (key, value) => {
var s = mutable_source(value, false, false);
sources.set(key, s);
return s;
};
const props = new Proxy(
{ ...options2.props || {}, $$events: {} },
{
get(target, prop) {
return get(sources.get(prop) ?? add_source(prop, Reflect.get(target, prop)));
},
has(target, prop) {
if (prop === LEGACY_PROPS) return true;
get(sources.get(prop) ?? add_source(prop, Reflect.get(target, prop)));
return Reflect.has(target, prop);
},
set(target, prop, value) {
set(sources.get(prop) ?? add_source(prop, value), value);
return Reflect.set(target, prop, value);
}
}
);
this.#instance = (options2.hydrate ? hydrate : mount)(options2.component, {
target: options2.target,
anchor: options2.anchor,
props,
context: options2.context,
intro: options2.intro ?? false,
recover: options2.recover
});
if (!options2?.props?.$$host || options2.sync === false) {
flushSync();
}
this.#events = props.$$events;
for (const key of Object.keys(this.#instance)) {
if (key === "$set" || key === "$destroy" || key === "$on") continue;
define_property(this, key, {
get() {
return this.#instance[key];
},
/** @param {any} value */
set(value) {
this.#instance[key] = value;
},
enumerable: true
});
}
this.#instance.$set = /** @param {Record<string, any>} next */
(next2) => {
Object.assign(props, next2);
};
this.#instance.$destroy = () => {
unmount(this.#instance);
};
}
/** @param {Record<string, any>} props */
$set(props) {
this.#instance.$set(props);
}
/**
* @param {string} event
* @param {(...args: any[]) => any} callback
* @returns {any}
*/
$on(event, callback) {
this.#events[event] = this.#events[event] || [];
const cb = (...args) => callback.call(this, ...args);
this.#events[event].push(cb);
return () => {
this.#events[event] = this.#events[event].filter(
/** @param {any} fn */
(fn) => fn !== cb
);
};
}
$destroy() {
this.#instance.$destroy();
}
}
let read_implementation = null;
function set_read_implementation(fn) {
read_implementation = fn;
}
function set_manifest(_) {
}
function asClassComponent(component) {
const component_constructor = asClassComponent$1(component);
const _render = (props, { context, csp } = {}) => {
const result = render(component, { props, context, csp });
const munged = Object.defineProperties(
/** @type {LegacyRenderResult & PromiseLike<LegacyRenderResult>} */
{},
{
css: {
value: { code: "", map: null }
},
head: {
get: () => result.head
},
html: {
get: () => result.body
},
then: {
/**
* this is not type-safe, but honestly it's the best I can do right now, and it's a straightforward function.
*
* @template TResult1
* @template [TResult2=never]
* @param { (value: LegacyRenderResult) => TResult1 } onfulfilled
* @param { (reason: unknown) => TResult2 } onrejected
*/
value: (onfulfilled, onrejected) => {
{
const user_result = onfulfilled({
css: munged.css,
head: munged.head,
html: munged.html
});
return Promise.resolve(user_result);
}
}
}
}
);
return munged;
};
component_constructor.render = _render;
return component_constructor;
}
function Root($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
let {
stores,
page,
constructors,
components = [],
form,
data_0 = null,
data_1 = null
} = $$props;
{
setContext("__svelte__", stores);
}
{
stores.page.set(page);
}
const Pyramid_1 = constructors[1];
if (constructors[1]) {
$$renderer2.push("<!--[-->");
const Pyramid_0 = constructors[0];
$$renderer2.push(`<!---->`);
Pyramid_0($$renderer2, {
data: data_0,
form,
params: page.params,
children: ($$renderer3) => {
$$renderer3.push(`<!---->`);
Pyramid_1($$renderer3, { data: data_1, form, params: page.params });
$$renderer3.push(`<!---->`);
},
$$slots: { default: true }
});
$$renderer2.push(`<!---->`);
} else {
$$renderer2.push("<!--[!-->");
const Pyramid_0 = constructors[0];
$$renderer2.push(`<!---->`);
Pyramid_0($$renderer2, { data: data_0, form, params: page.params });
$$renderer2.push(`<!---->`);
}
$$renderer2.push(`<!--]--> `);
{
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]-->`);
});
}
const root = asClassComponent(Root);
const options = {
app_template_contains_nonce: false,
async: false,
csp: { "mode": "auto", "directives": { "upgrade-insecure-requests": false, "block-all-mixed-content": false }, "reportOnly": { "upgrade-insecure-requests": false, "block-all-mixed-content": false } },
csrf_check_origin: true,
csrf_trusted_origins: [],
embedded: false,
env_public_prefix: "PUBLIC_",
env_private_prefix: "",
hash_routing: false,
hooks: null,
// added lazily, via `get_hooks`
preload_strategy: "modulepreload",
root,
service_worker: false,
service_worker_options: void 0,
templates: {
app: ({ head, body, assets, nonce, env }) => '<!DOCTYPE html>\n<html lang="en">\n <head>\n <meta charset="utf-8" />\n <link rel="icon" href="' + assets + '/favicon.png" />\n <meta name="viewport" content="width=device-width, initial-scale=1" />\n ' + head + '\n </head>\n <body data-sveltekit-preload-data="hover">\n <div style="display: contents">' + body + "</div>\n </body>\n</html>\n",
error: ({ status, message }) => '<!doctype html>\n<html lang="en">\n <head>\n <meta charset="utf-8" />\n <title>' + message + `</title>
<style>
body {
--bg: white;
--fg: #222;
--divider: #ccc;
background: var(--bg);
color: var(--fg);
font-family:
system-ui,
-apple-system,
BlinkMacSystemFont,
'Segoe UI',
Roboto,
Oxygen,
Ubuntu,
Cantarell,
'Open Sans',
'Helvetica Neue',
sans-serif;
display: flex;
align-items: center;
justify-content: center;
height: 100vh;
margin: 0;
}
.error {
display: flex;
align-items: center;
max-width: 32rem;
margin: 0 1rem;
}
.status {
font-weight: 200;
font-size: 3rem;
line-height: 1;
position: relative;
top: -0.05rem;
}
.message {
border-left: 1px solid var(--divider);
padding: 0 0 0 1rem;
margin: 0 0 0 1rem;
min-height: 2.5rem;
display: flex;
align-items: center;
}
.message h1 {
font-weight: 400;
font-size: 1em;
margin: 0;
}
@media (prefers-color-scheme: dark) {
body {
--bg: #222;
--fg: #ddd;
--divider: #666;
}
}
</style>
</head>
<body>
<div class="error">
<span class="status">` + status + '</span>\n <div class="message">\n <h1>' + message + "</h1>\n </div>\n </div>\n </body>\n</html>\n"
},
version_hash: "1ootf77"
};
async function get_hooks() {
let handle;
let handleFetch;
let handleError;
let handleValidationError;
let init;
let reroute;
let transport;
return {
handle,
handleFetch,
handleError,
handleValidationError,
init,
reroute,
transport
};
}
export {
set_public_env as a,
set_read_implementation as b,
set_manifest as c,
get_hooks as g,
options as o,
public_env as p,
read_implementation as r,
set_private_env as s
};

522
frontend/.svelte-kit/output/server/chunks/shared.js
View File

@@ -1,522 +0,0 @@
import * as devalue from "devalue";
import { t as text_decoder, b as base64_encode, c as base64_decode } from "./utils.js";
function set_nested_value(object, path_string, value) {
if (path_string.startsWith("n:")) {
path_string = path_string.slice(2);
value = value === "" ? void 0 : parseFloat(value);
} else if (path_string.startsWith("b:")) {
path_string = path_string.slice(2);
value = value === "on";
}
deep_set(object, split_path(path_string), value);
}
function convert_formdata(data) {
const result = {};
for (let key of data.keys()) {
const is_array = key.endsWith("[]");
let values = data.getAll(key);
if (is_array) key = key.slice(0, -2);
if (values.length > 1 && !is_array) {
throw new Error(`Form cannot contain duplicated keys — "${key}" has ${values.length} values`);
}
values = values.filter(
(entry) => typeof entry === "string" || entry.name !== "" || entry.size > 0
);
if (key.startsWith("n:")) {
key = key.slice(2);
values = values.map((v) => v === "" ? void 0 : parseFloat(
/** @type {string} */
v
));
} else if (key.startsWith("b:")) {
key = key.slice(2);
values = values.map((v) => v === "on");
}
set_nested_value(result, key, is_array ? values : values[0]);
}
return result;
}
const BINARY_FORM_CONTENT_TYPE = "application/x-sveltekit-formdata";
const BINARY_FORM_VERSION = 0;
async function deserialize_binary_form(request) {
if (request.headers.get("content-type") !== BINARY_FORM_CONTENT_TYPE) {
const form_data = await request.formData();
return { data: convert_formdata(form_data), meta: {}, form_data };
}
if (!request.body) {
throw new Error("Could not deserialize binary form: no body");
}
const reader = request.body.getReader();
const chunks = [];
async function get_chunk(index) {
if (index in chunks) return chunks[index];
let i = chunks.length;
while (i <= index) {
chunks[i] = reader.read().then((chunk) => chunk.value);
i++;
}
return chunks[index];
}
async function get_buffer(offset, length) {
let start_chunk;
let chunk_start = 0;
let chunk_index;
for (chunk_index = 0; ; chunk_index++) {
const chunk = await get_chunk(chunk_index);
if (!chunk) return null;
const chunk_end = chunk_start + chunk.byteLength;
if (offset >= chunk_start && offset < chunk_end) {
start_chunk = chunk;
break;
}
chunk_start = chunk_end;
}
if (offset + length <= chunk_start + start_chunk.byteLength) {
return start_chunk.subarray(offset - chunk_start, offset + length - chunk_start);
}
const buffer = new Uint8Array(length);
buffer.set(start_chunk.subarray(offset - chunk_start));
let cursor = start_chunk.byteLength - offset + chunk_start;
while (cursor < length) {
chunk_index++;
let chunk = await get_chunk(chunk_index);
if (!chunk) return null;
if (chunk.byteLength > length - cursor) {
chunk = chunk.subarray(0, length - cursor);
}
buffer.set(chunk, cursor);
cursor += chunk.byteLength;
}
return buffer;
}
const header = await get_buffer(0, 1 + 4 + 2);
if (!header) throw new Error("Could not deserialize binary form: too short");
if (header[0] !== BINARY_FORM_VERSION) {
throw new Error(
`Could not deserialize binary form: got version ${header[0]}, expected version ${BINARY_FORM_VERSION}`
);
}
const header_view = new DataView(header.buffer, header.byteOffset, header.byteLength);
const data_length = header_view.getUint32(1, true);
const file_offsets_length = header_view.getUint16(5, true);
const data_buffer = await get_buffer(1 + 4 + 2, data_length);
if (!data_buffer) throw new Error("Could not deserialize binary form: data too short");
let file_offsets;
let files_start_offset;
if (file_offsets_length > 0) {
const file_offsets_buffer = await get_buffer(1 + 4 + 2 + data_length, file_offsets_length);
if (!file_offsets_buffer)
throw new Error("Could not deserialize binary form: file offset table too short");
file_offsets = /** @type {Array<number>} */
JSON.parse(text_decoder.decode(file_offsets_buffer));
files_start_offset = 1 + 4 + 2 + data_length + file_offsets_length;
}
const [data, meta] = devalue.parse(text_decoder.decode(data_buffer), {
File: ([name, type, size, last_modified, index]) => {
return new Proxy(
new LazyFile(
name,
type,
size,
last_modified,
get_chunk,
files_start_offset + file_offsets[index]
),
{
getPrototypeOf() {
return File.prototype;
}
}
);
}
});
void (async () => {
let has_more = true;
while (has_more) {
const chunk = await get_chunk(chunks.length);
has_more = !!chunk;
}
})();
return { data, meta, form_data: null };
}
class LazyFile {
/** @type {(index: number) => Promise<Uint8Array<ArrayBuffer> | undefined>} */
#get_chunk;
/** @type {number} */
#offset;
/**
* @param {string} name
* @param {string} type
* @param {number} size
* @param {number} last_modified
* @param {(index: number) => Promise<Uint8Array<ArrayBuffer> | undefined>} get_chunk
* @param {number} offset
*/
constructor(name, type, size, last_modified, get_chunk, offset) {
this.name = name;
this.type = type;
this.size = size;
this.lastModified = last_modified;
this.webkitRelativePath = "";
this.#get_chunk = get_chunk;
this.#offset = offset;
this.arrayBuffer = this.arrayBuffer.bind(this);
this.bytes = this.bytes.bind(this);
this.slice = this.slice.bind(this);
this.stream = this.stream.bind(this);
this.text = this.text.bind(this);
}
/** @type {ArrayBuffer | undefined} */
#buffer;
async arrayBuffer() {
this.#buffer ??= await new Response(this.stream()).arrayBuffer();
return this.#buffer;
}
async bytes() {
return new Uint8Array(await this.arrayBuffer());
}
/**
* @param {number=} start
* @param {number=} end
* @param {string=} contentType
*/
slice(start = 0, end = this.size, contentType = this.type) {
if (start < 0) {
start = Math.max(this.size + start, 0);
} else {
start = Math.min(start, this.size);
}
if (end < 0) {
end = Math.max(this.size + end, 0);
} else {
end = Math.min(end, this.size);
}
const size = Math.max(end - start, 0);
const file = new LazyFile(
this.name,
contentType,
size,
this.lastModified,
this.#get_chunk,
this.#offset + start
);
return file;
}
stream() {
let cursor = 0;
let chunk_index = 0;
return new ReadableStream({
start: async (controller) => {
let chunk_start = 0;
let start_chunk = null;
for (chunk_index = 0; ; chunk_index++) {
const chunk = await this.#get_chunk(chunk_index);
if (!chunk) return null;
const chunk_end = chunk_start + chunk.byteLength;
if (this.#offset >= chunk_start && this.#offset < chunk_end) {
start_chunk = chunk;
break;
}
chunk_start = chunk_end;
}
if (this.#offset + this.size <= chunk_start + start_chunk.byteLength) {
controller.enqueue(
start_chunk.subarray(this.#offset - chunk_start, this.#offset + this.size - chunk_start)
);
controller.close();
} else {
controller.enqueue(start_chunk.subarray(this.#offset - chunk_start));
cursor = start_chunk.byteLength - this.#offset + chunk_start;
}
},
pull: async (controller) => {
chunk_index++;
let chunk = await this.#get_chunk(chunk_index);
if (!chunk) {
controller.error("Could not deserialize binary form: incomplete file data");
controller.close();
return;
}
if (chunk.byteLength > this.size - cursor) {
chunk = chunk.subarray(0, this.size - cursor);
}
controller.enqueue(chunk);
cursor += chunk.byteLength;
if (cursor >= this.size) {
controller.close();
}
}
});
}
async text() {
return text_decoder.decode(await this.arrayBuffer());
}
}
const path_regex = /^[a-zA-Z_$]\w*(\.[a-zA-Z_$]\w*|\[\d+\])*$/;
function split_path(path) {
if (!path_regex.test(path)) {
throw new Error(`Invalid path ${path}`);
}
return path.split(/\.|\[|\]/).filter(Boolean);
}
function check_prototype_pollution(key) {
if (key === "__proto__" || key === "constructor" || key === "prototype") {
throw new Error(
`Invalid key "${key}"`
);
}
}
function deep_set(object, keys, value) {
let current = object;
for (let i = 0; i < keys.length - 1; i += 1) {
const key = keys[i];
check_prototype_pollution(key);
const is_array = /^\d+$/.test(keys[i + 1]);
const exists = key in current;
const inner = current[key];
if (exists && is_array !== Array.isArray(inner)) {
throw new Error(`Invalid array key ${keys[i + 1]}`);
}
if (!exists) {
current[key] = is_array ? [] : {};
}
current = current[key];
}
const final_key = keys[keys.length - 1];
check_prototype_pollution(final_key);
current[final_key] = value;
}
function normalize_issue(issue, server = false) {
const normalized = { name: "", path: [], message: issue.message, server };
if (issue.path !== void 0) {
let name = "";
for (const segment of issue.path) {
const key = (
/** @type {string | number} */
typeof segment === "object" ? segment.key : segment
);
normalized.path.push(key);
if (typeof key === "number") {
name += `[${key}]`;
} else if (typeof key === "string") {
name += name === "" ? key : "." + key;
}
}
normalized.name = name;
}
return normalized;
}
function flatten_issues(issues) {
const result = {};
for (const issue of issues) {
(result.$ ??= []).push(issue);
let name = "";
if (issue.path !== void 0) {
for (const key of issue.path) {
if (typeof key === "number") {
name += `[${key}]`;
} else if (typeof key === "string") {
name += name === "" ? key : "." + key;
}
(result[name] ??= []).push(issue);
}
}
}
return result;
}
function deep_get(object, path) {
let current = object;
for (const key of path) {
if (current == null || typeof current !== "object") {
return current;
}
current = current[key];
}
return current;
}
function create_field_proxy(target, get_input, set_input, get_issues, path = []) {
const get_value = () => {
return deep_get(get_input(), path);
};
return new Proxy(target, {
get(target2, prop) {
if (typeof prop === "symbol") return target2[prop];
if (/^\d+$/.test(prop)) {
return create_field_proxy({}, get_input, set_input, get_issues, [
...path,
parseInt(prop, 10)
]);
}
const key = build_path_string(path);
if (prop === "set") {
const set_func = function(newValue) {
set_input(path, newValue);
return newValue;
};
return create_field_proxy(set_func, get_input, set_input, get_issues, [...path, prop]);
}
if (prop === "value") {
return create_field_proxy(get_value, get_input, set_input, get_issues, [...path, prop]);
}
if (prop === "issues" || prop === "allIssues") {
const issues_func = () => {
const all_issues = get_issues()[key === "" ? "$" : key];
if (prop === "allIssues") {
return all_issues?.map((issue) => ({
path: issue.path,
message: issue.message
}));
}
return all_issues?.filter((issue) => issue.name === key)?.map((issue) => ({
path: issue.path,
message: issue.message
}));
};
return create_field_proxy(issues_func, get_input, set_input, get_issues, [...path, prop]);
}
if (prop === "as") {
const as_func = (type, input_value) => {
const is_array = type === "file multiple" || type === "select multiple" || type === "checkbox" && typeof input_value === "string";
const prefix = type === "number" || type === "range" ? "n:" : type === "checkbox" && !is_array ? "b:" : "";
const base_props = {
name: prefix + key + (is_array ? "[]" : ""),
get "aria-invalid"() {
const issues = get_issues();
return key in issues ? "true" : void 0;
}
};
if (type !== "text" && type !== "select" && type !== "select multiple") {
base_props.type = type === "file multiple" ? "file" : type;
}
if (type === "submit" || type === "hidden") {
return Object.defineProperties(base_props, {
value: { value: input_value, enumerable: true }
});
}
if (type === "select" || type === "select multiple") {
return Object.defineProperties(base_props, {
multiple: { value: is_array, enumerable: true },
value: {
enumerable: true,
get() {
return get_value();
}
}
});
}
if (type === "checkbox" || type === "radio") {
return Object.defineProperties(base_props, {
value: { value: input_value ?? "on", enumerable: true },
checked: {
enumerable: true,
get() {
const value = get_value();
if (type === "radio") {
return value === input_value;
}
if (is_array) {
return (value ?? []).includes(input_value);
}
return value;
}
}
});
}
if (type === "file" || type === "file multiple") {
return Object.defineProperties(base_props, {
multiple: { value: is_array, enumerable: true },
files: {
enumerable: true,
get() {
const value = get_value();
if (value instanceof File) {
if (typeof DataTransfer !== "undefined") {
const fileList = new DataTransfer();
fileList.items.add(value);
return fileList.files;
}
return { 0: value, length: 1 };
}
if (Array.isArray(value) && value.every((f) => f instanceof File)) {
if (typeof DataTransfer !== "undefined") {
const fileList = new DataTransfer();
value.forEach((file) => fileList.items.add(file));
return fileList.files;
}
const fileListLike = { length: value.length };
value.forEach((file, index) => {
fileListLike[index] = file;
});
return fileListLike;
}
return null;
}
}
});
}
return Object.defineProperties(base_props, {
value: {
enumerable: true,
get() {
const value = get_value();
return value != null ? String(value) : "";
}
}
});
};
return create_field_proxy(as_func, get_input, set_input, get_issues, [...path, "as"]);
}
return create_field_proxy({}, get_input, set_input, get_issues, [...path, prop]);
}
});
}
function build_path_string(path) {
let result = "";
for (const segment of path) {
if (typeof segment === "number") {
result += `[${segment}]`;
} else {
result += result === "" ? segment : "." + segment;
}
}
return result;
}
const INVALIDATED_PARAM = "x-sveltekit-invalidated";
const TRAILING_SLASH_PARAM = "x-sveltekit-trailing-slash";
function stringify(data, transport) {
const encoders = Object.fromEntries(Object.entries(transport).map(([k, v]) => [k, v.encode]));
return devalue.stringify(data, encoders);
}
function stringify_remote_arg(value, transport) {
if (value === void 0) return "";
const json_string = stringify(value, transport);
const bytes = new TextEncoder().encode(json_string);
return base64_encode(bytes).replaceAll("=", "").replaceAll("+", "-").replaceAll("/", "_");
}
function parse_remote_arg(string, transport) {
if (!string) return void 0;
const json_string = text_decoder.decode(
// no need to add back `=` characters, atob can handle it
base64_decode(string.replaceAll("-", "+").replaceAll("_", "/"))
);
const decoders = Object.fromEntries(Object.entries(transport).map(([k, v]) => [k, v.decode]));
return devalue.parse(json_string, decoders);
}
function create_remote_key(id, payload) {
return id + "/" + payload;
}
export {
BINARY_FORM_CONTENT_TYPE as B,
INVALIDATED_PARAM as I,
TRAILING_SLASH_PARAM as T,
stringify_remote_arg as a,
create_field_proxy as b,
create_remote_key as c,
deserialize_binary_form as d,
set_nested_value as e,
flatten_issues as f,
deep_set as g,
normalize_issue as n,
parse_remote_arg as p,
stringify as s
};

44
frontend/.svelte-kit/output/server/chunks/stores.js
View File

@@ -1,44 +0,0 @@
import { a0 as getContext } from "./index2.js";
import "clsx";
import "@sveltejs/kit/internal";
import "./exports.js";
import "./utils.js";
import "@sveltejs/kit/internal/server";
import { n as noop } from "./equality.js";
const is_legacy = noop.toString().includes("$$") || /function \w+\(\) \{\}/.test(noop.toString());
if (is_legacy) {
({
data: {},
form: null,
error: null,
params: {},
route: { id: null },
state: {},
status: -1,
url: new URL("https://example.com")
});
}
const getStores = () => {
const stores = getContext("__svelte__");
return {
/** @type {typeof page} */
page: {
subscribe: stores.page.subscribe
},
/** @type {typeof navigating} */
navigating: {
subscribe: stores.navigating.subscribe
},
/** @type {typeof updated} */
updated: stores.updated
};
};
const page = {
subscribe(fn) {
const store = getStores().page;
return store.subscribe(fn);
}
};
export {
page as p
};

16
frontend/.svelte-kit/output/server/chunks/toasts.js
View File

@@ -1,16 +0,0 @@
import { w as writable } from "./index.js";
const toasts = writable([]);
function addToast(message, type = "info", duration = 3e3) {
const id = Math.random().toString(36).substr(2, 9);
console.log(`[toasts.addToast][Action] Adding toast context={{'id': '${id}', 'type': '${type}', 'message': '${message}'}}`);
toasts.update((all) => [...all, { id, message, type }]);
setTimeout(() => removeToast(id), duration);
}
function removeToast(id) {
console.log(`[toasts.removeToast][Action] Removing toast context={{'id': '${id}'}}`);
toasts.update((all) => all.filter((t) => t.id !== id));
}
export {
addToast as a,
toasts as t
};

43
frontend/.svelte-kit/output/server/chunks/utils.js
View File

@@ -1,43 +0,0 @@
const text_encoder = new TextEncoder();
const text_decoder = new TextDecoder();
function get_relative_path(from, to) {
const from_parts = from.split(/[/\\]/);
const to_parts = to.split(/[/\\]/);
from_parts.pop();
while (from_parts[0] === to_parts[0]) {
from_parts.shift();
to_parts.shift();
}
let i = from_parts.length;
while (i--) from_parts[i] = "..";
return from_parts.concat(to_parts).join("/");
}
function base64_encode(bytes) {
if (globalThis.Buffer) {
return globalThis.Buffer.from(bytes).toString("base64");
}
let binary = "";
for (let i = 0; i < bytes.length; i++) {
binary += String.fromCharCode(bytes[i]);
}
return btoa(binary);
}
function base64_decode(encoded) {
if (globalThis.Buffer) {
const buffer = globalThis.Buffer.from(encoded, "base64");
return new Uint8Array(buffer);
}
const binary = atob(encoded);
const bytes = new Uint8Array(binary.length);
for (let i = 0; i < binary.length; i++) {
bytes[i] = binary.charCodeAt(i);
}
return bytes;
}
export {
text_encoder as a,
base64_encode as b,
base64_decode as c,
get_relative_path as g,
text_decoder as t
};

12
frontend/.svelte-kit/output/server/entries/pages/_error.svelte.js
View File

@@ -1,12 +0,0 @@
import { _ as escape_html, X as store_get, Y as unsubscribe_stores } from "../../chunks/index2.js";
import { p as page } from "../../chunks/stores.js";
function _error($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
var $$store_subs;
$$renderer2.push(`<div class="container mx-auto p-4 text-center mt-20"><h1 class="text-6xl font-bold text-gray-800 mb-4">${escape_html(store_get($$store_subs ??= {}, "$page", page).status)}</h1> <p class="text-2xl text-gray-600 mb-8">${escape_html(store_get($$store_subs ??= {}, "$page", page).error?.message || "Page not found")}</p> <a href="/" class="bg-blue-500 text-white px-6 py-3 rounded-lg hover:bg-blue-600 transition-colors">Back to Dashboard</a></div>`);
if ($$store_subs) unsubscribe_stores($$store_subs);
});
}
export {
_error as default
};

38
frontend/.svelte-kit/output/server/entries/pages/_layout.svelte.js
View File

@@ -1,38 +0,0 @@
import { V as attr_class, W as stringify, X as store_get, Y as unsubscribe_stores, Z as ensure_array_like, _ as escape_html, $ as slot } from "../../chunks/index2.js";
import { p as page } from "../../chunks/stores.js";
import "clsx";
import { t as toasts } from "../../chunks/toasts.js";
function Navbar($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
var $$store_subs;
$$renderer2.push(`<header class="bg-white shadow-md p-4 flex justify-between items-center"><a href="/" class="text-3xl font-bold text-gray-800 focus:outline-none">Superset Tools</a> <nav class="space-x-4"><a href="/"${attr_class(`text-gray-600 hover:text-blue-600 font-medium ${stringify(store_get($$store_subs ??= {}, "$page", page).url.pathname === "/" ? "text-blue-600 border-b-2 border-blue-600" : "")}`)}>Dashboard</a> <a href="/settings"${attr_class(`text-gray-600 hover:text-blue-600 font-medium ${stringify(store_get($$store_subs ??= {}, "$page", page).url.pathname === "/settings" ? "text-blue-600 border-b-2 border-blue-600" : "")}`)}>Settings</a></nav></header>`);
if ($$store_subs) unsubscribe_stores($$store_subs);
});
}
function Footer($$renderer) {
$$renderer.push(`<footer class="bg-white border-t p-4 mt-8 text-center text-gray-500 text-sm">© 2025 Superset Tools. All rights reserved.</footer>`);
}
function Toast($$renderer) {
var $$store_subs;
$$renderer.push(`<div class="fixed bottom-0 right-0 p-4 space-y-2"><!--[-->`);
const each_array = ensure_array_like(store_get($$store_subs ??= {}, "$toasts", toasts));
for (let $$index = 0, $$length = each_array.length; $$index < $$length; $$index++) {
let toast = each_array[$$index];
$$renderer.push(`<div${attr_class(`p-4 rounded-md shadow-lg text-white ${stringify(toast.type === "info" && "bg-blue-500")} ${stringify(toast.type === "success" && "bg-green-500")} ${stringify(toast.type === "error" && "bg-red-500")} `)}>${escape_html(toast.message)}</div>`);
}
$$renderer.push(`<!--]--></div>`);
if ($$store_subs) unsubscribe_stores($$store_subs);
}
function _layout($$renderer, $$props) {
Toast($$renderer);
$$renderer.push(`<!----> <main class="bg-gray-50 min-h-screen flex flex-col">`);
Navbar($$renderer);
$$renderer.push(`<!----> <div class="p-4 flex-grow"><!--[-->`);
slot($$renderer, $$props, "default", {});
$$renderer.push(`<!--]--></div> `);
Footer($$renderer);
$$renderer.push(`<!----></main>`);
}
export {
_layout as default
};

6
frontend/.svelte-kit/output/server/entries/pages/_layout.ts.js
View File

@@ -1,6 +0,0 @@
const ssr = false;
const prerender = false;
export {
prerender,
ssr
};

132
frontend/.svelte-kit/output/server/entries/pages/_page.svelte.js
View File

@@ -1,132 +0,0 @@
import { a1 as ssr_context, X as store_get, _ as escape_html, Z as ensure_array_like, V as attr_class, Y as unsubscribe_stores, a2 as attr, a3 as bind_props } from "../../chunks/index2.js";
import { w as writable } from "../../chunks/index.js";
import "clsx";
function onDestroy(fn) {
/** @type {SSRContext} */
ssr_context.r.on_destroy(fn);
}
const plugins = writable([]);
const selectedPlugin = writable(null);
const selectedTask = writable(null);
const taskLogs = writable([]);
function TaskRunner($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
var $$store_subs;
onDestroy(() => {
});
$$renderer2.push(`<div class="p-4 border rounded-lg bg-white shadow-md">`);
if (store_get($$store_subs ??= {}, "$selectedTask", selectedTask)) {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<h2 class="text-xl font-semibold mb-2">Task: ${escape_html(store_get($$store_subs ??= {}, "$selectedTask", selectedTask).plugin_id)}</h2> <div class="bg-gray-900 text-white font-mono text-sm p-4 rounded-md h-96 overflow-y-auto"><!--[-->`);
const each_array = ensure_array_like(store_get($$store_subs ??= {}, "$taskLogs", taskLogs));
for (let $$index = 0, $$length = each_array.length; $$index < $$length; $$index++) {
let log = each_array[$$index];
$$renderer2.push(`<div><span class="text-gray-400">${escape_html(new Date(log.timestamp).toLocaleTimeString())}</span> <span${attr_class(log.level === "ERROR" ? "text-red-500" : "text-green-400")}>[${escape_html(log.level)}]</span> <span>${escape_html(log.message)}</span></div>`);
}
$$renderer2.push(`<!--]--></div>`);
} else {
$$renderer2.push("<!--[!-->");
$$renderer2.push(`<p>No task selected.</p>`);
}
$$renderer2.push(`<!--]--></div>`);
if ($$store_subs) unsubscribe_stores($$store_subs);
});
}
function DynamicForm($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
let schema = $$props["schema"];
let formData = {};
function initializeForm() {
if (schema && schema.properties) {
for (const key in schema.properties) {
formData[key] = schema.properties[key].default || "";
}
}
}
initializeForm();
$$renderer2.push(`<form class="space-y-4">`);
if (schema && schema.properties) {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<!--[-->`);
const each_array = ensure_array_like(Object.entries(schema.properties));
for (let $$index = 0, $$length = each_array.length; $$index < $$length; $$index++) {
let [key, prop] = each_array[$$index];
$$renderer2.push(`<div class="flex flex-col"><label${attr("for", key)} class="mb-1 font-semibold text-gray-700">${escape_html(prop.title || key)}</label> `);
if (prop.type === "string") {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<input type="text"${attr("id", key)}${attr("value", formData[key])}${attr("placeholder", prop.description || "")} class="p-2 border rounded-md"/>`);
} else {
$$renderer2.push("<!--[!-->");
if (prop.type === "number" || prop.type === "integer") {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<input type="number"${attr("id", key)}${attr("value", formData[key])}${attr("placeholder", prop.description || "")} class="p-2 border rounded-md"/>`);
} else {
$$renderer2.push("<!--[!-->");
if (prop.type === "boolean") {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<input type="checkbox"${attr("id", key)}${attr("checked", formData[key], true)} class="h-5 w-5"/>`);
} else {
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]-->`);
}
$$renderer2.push(`<!--]-->`);
}
$$renderer2.push(`<!--]--></div>`);
}
$$renderer2.push(`<!--]--> <button type="submit" class="w-full bg-green-500 text-white p-2 rounded-md hover:bg-green-600">Run Task</button>`);
} else {
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]--></form>`);
bind_props($$props, { schema });
});
}
function _page($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
var $$store_subs;
let data = $$props["data"];
if (data.plugins) {
plugins.set(data.plugins);
}
$$renderer2.push(`<div class="container mx-auto p-4">`);
if (store_get($$store_subs ??= {}, "$selectedTask", selectedTask)) {
$$renderer2.push("<!--[-->");
TaskRunner($$renderer2);
$$renderer2.push(`<!----> <button class="mt-4 bg-blue-500 text-white p-2 rounded">Back to Task List</button>`);
} else {
$$renderer2.push("<!--[!-->");
if (store_get($$store_subs ??= {}, "$selectedPlugin", selectedPlugin)) {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<h2 class="text-2xl font-bold mb-4">${escape_html(store_get($$store_subs ??= {}, "$selectedPlugin", selectedPlugin).name)}</h2> `);
DynamicForm($$renderer2, {
schema: store_get($$store_subs ??= {}, "$selectedPlugin", selectedPlugin).schema
});
$$renderer2.push(`<!----> <button class="mt-4 bg-gray-500 text-white p-2 rounded">Back to Dashboard</button>`);
} else {
$$renderer2.push("<!--[!-->");
$$renderer2.push(`<h1 class="text-2xl font-bold mb-4">Available Tools</h1> `);
if (data.error) {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<div class="bg-red-100 border border-red-400 text-red-700 px-4 py-3 rounded mb-4">${escape_html(data.error)}</div>`);
} else {
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]--> <div class="grid grid-cols-1 md:grid-cols-2 lg:grid-cols-3 gap-4"><!--[-->`);
const each_array = ensure_array_like(data.plugins);
for (let $$index = 0, $$length = each_array.length; $$index < $$length; $$index++) {
let plugin = each_array[$$index];
$$renderer2.push(`<div class="border rounded-lg p-4 cursor-pointer hover:bg-gray-100" role="button" tabindex="0"><h2 class="text-xl font-semibold">${escape_html(plugin.name)}</h2> <p class="text-gray-600">${escape_html(plugin.description)}</p> <span class="text-sm text-gray-400">v${escape_html(plugin.version)}</span></div>`);
}
$$renderer2.push(`<!--]--></div>`);
}
$$renderer2.push(`<!--]-->`);
}
$$renderer2.push(`<!--]--></div>`);
if ($$store_subs) unsubscribe_stores($$store_subs);
bind_props($$props, { data });
});
}
export {
_page as default
};

18
frontend/.svelte-kit/output/server/entries/pages/_page.ts.js
View File

@@ -1,18 +0,0 @@
import { a as api } from "../../chunks/api.js";
async function load() {
try {
const plugins = await api.getPlugins();
return {
plugins
};
} catch (error) {
console.error("Failed to load plugins:", error);
return {
plugins: [],
error: "Failed to load plugins"
};
}
}
export {
load
};

45
frontend/.svelte-kit/output/server/entries/pages/settings/_page.svelte.js
View File

@@ -1,45 +0,0 @@
import { _ as escape_html, a2 as attr, Z as ensure_array_like, a3 as bind_props } from "../../../chunks/index2.js";
function _page($$renderer, $$props) {
$$renderer.component(($$renderer2) => {
let data = $$props["data"];
let settings = data.settings;
let newEnv = {
id: "",
name: "",
url: "",
username: "",
password: "",
is_default: false
};
settings = data.settings;
$$renderer2.push(`<div class="container mx-auto p-4"><h1 class="text-2xl font-bold mb-6">Settings</h1> `);
if (data.error) {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<div class="bg-red-100 border border-red-400 text-red-700 px-4 py-3 rounded mb-4">${escape_html(data.error)}</div>`);
} else {
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]--> <section class="mb-8 bg-white p-6 rounded shadow"><h2 class="text-xl font-semibold mb-4">Global Settings</h2> <div class="grid grid-cols-1 gap-4"><div><label for="backup_path" class="block text-sm font-medium text-gray-700">Backup Storage Path</label> <input type="text" id="backup_path"${attr("value", settings.settings.backup_path)} class="mt-1 block w-full border border-gray-300 rounded-md shadow-sm p-2"/></div> <button class="bg-blue-500 text-white px-4 py-2 rounded hover:bg-blue-600 w-max">Save Global Settings</button></div></section> <section class="mb-8 bg-white p-6 rounded shadow"><h2 class="text-xl font-semibold mb-4">Superset Environments</h2> `);
if (settings.environments.length === 0) {
$$renderer2.push("<!--[-->");
$$renderer2.push(`<div class="mb-4 p-4 bg-yellow-100 border-l-4 border-yellow-500 text-yellow-700"><p class="font-bold">Warning</p> <p>No Superset environments configured. You must add at least one environment to perform backups or migrations.</p></div>`);
} else {
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]--> <div class="mb-6 overflow-x-auto"><table class="min-w-full divide-y divide-gray-200"><thead class="bg-gray-50"><tr><th class="px-6 py-3 text-left text-xs font-medium text-gray-500 uppercase tracking-wider">Name</th><th class="px-6 py-3 text-left text-xs font-medium text-gray-500 uppercase tracking-wider">URL</th><th class="px-6 py-3 text-left text-xs font-medium text-gray-500 uppercase tracking-wider">Username</th><th class="px-6 py-3 text-left text-xs font-medium text-gray-500 uppercase tracking-wider">Default</th><th class="px-6 py-3 text-left text-xs font-medium text-gray-500 uppercase tracking-wider">Actions</th></tr></thead><tbody class="bg-white divide-y divide-gray-200"><!--[-->`);
const each_array = ensure_array_like(settings.environments);
for (let $$index = 0, $$length = each_array.length; $$index < $$length; $$index++) {
let env = each_array[$$index];
$$renderer2.push(`<tr><td class="px-6 py-4 whitespace-nowrap">${escape_html(env.name)}</td><td class="px-6 py-4 whitespace-nowrap">${escape_html(env.url)}</td><td class="px-6 py-4 whitespace-nowrap">${escape_html(env.username)}</td><td class="px-6 py-4 whitespace-nowrap">${escape_html(env.is_default ? "Yes" : "No")}</td><td class="px-6 py-4 whitespace-nowrap"><button class="text-green-600 hover:text-green-900 mr-4">Test</button> <button class="text-indigo-600 hover:text-indigo-900 mr-4">Edit</button> <button class="text-red-600 hover:text-red-900">Delete</button></td></tr>`);
}
$$renderer2.push(`<!--]--></tbody></table></div> <div class="bg-gray-50 p-4 rounded"><h3 class="text-lg font-medium mb-4">${escape_html("Add")} Environment</h3> <div class="grid grid-cols-1 md:grid-cols-2 gap-4"><div><label for="env_id" class="block text-sm font-medium text-gray-700">ID</label> <input type="text" id="env_id"${attr("value", newEnv.id)}${attr("disabled", false, true)} class="mt-1 block w-full border border-gray-300 rounded-md shadow-sm p-2"/></div> <div><label for="env_name" class="block text-sm font-medium text-gray-700">Name</label> <input type="text" id="env_name"${attr("value", newEnv.name)} class="mt-1 block w-full border border-gray-300 rounded-md shadow-sm p-2"/></div> <div><label for="env_url" class="block text-sm font-medium text-gray-700">URL</label> <input type="text" id="env_url"${attr("value", newEnv.url)} class="mt-1 block w-full border border-gray-300 rounded-md shadow-sm p-2"/></div> <div><label for="env_user" class="block text-sm font-medium text-gray-700">Username</label> <input type="text" id="env_user"${attr("value", newEnv.username)} class="mt-1 block w-full border border-gray-300 rounded-md shadow-sm p-2"/></div> <div><label for="env_pass" class="block text-sm font-medium text-gray-700">Password</label> <input type="password" id="env_pass"${attr("value", newEnv.password)} class="mt-1 block w-full border border-gray-300 rounded-md shadow-sm p-2"/></div> <div class="flex items-center"><input type="checkbox" id="env_default"${attr("checked", newEnv.is_default, true)} class="h-4 w-4 text-blue-600 border-gray-300 rounded"/> <label for="env_default" class="ml-2 block text-sm text-gray-900">Default Environment</label></div></div> <div class="mt-4 flex gap-2"><button class="bg-green-500 text-white px-4 py-2 rounded hover:bg-green-600">${escape_html("Add")} Environment</button> `);
{
$$renderer2.push("<!--[!-->");
}
$$renderer2.push(`<!--]--></div></div></section></div>`);
bind_props($$props, { data });
});
}
export {
_page as default
};

24
frontend/.svelte-kit/output/server/entries/pages/settings/_page.ts.js
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@@ -1,24 +0,0 @@
import { a as api } from "../../../chunks/api.js";
async function load() {
try {
const settings = await api.getSettings();
return {
settings
};
} catch (error) {
console.error("Failed to load settings:", error);
return {
settings: {
environments: [],
settings: {
backup_path: "",
default_environment_id: null
}
},
error: "Failed to load settings"
};
}
}
export {
load
};

3857
frontend/.svelte-kit/output/server/index.js
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13
frontend/.svelte-kit/output/server/internal.js
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import { g, o, c, s, a, b } from "./chunks/internal.js";
import { s as s2, e, f } from "./chunks/environment.js";
export {
g as get_hooks,
o as options,
s2 as set_assets,
e as set_building,
c as set_manifest,
f as set_prerendering,
s as set_private_env,
a as set_public_env,
b as set_read_implementation
};

47
frontend/.svelte-kit/output/server/manifest-full.js
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@@ -1,47 +0,0 @@
export const manifest = (() => {
function __memo(fn) {
let value;
return () => value ??= (value = fn());
}
return {
appDir: "_app",
appPath: "_app",
assets: new Set([]),
mimeTypes: {},
_: {
client: {start:"_app/immutable/entry/start.BHAeOrfR.js",app:"_app/immutable/entry/app.BXnpILpp.js",imports:["_app/immutable/entry/start.BHAeOrfR.js","_app/immutable/chunks/D0iaTcAo.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/BxZpmA7Z.js","_app/immutable/entry/app.BXnpILpp.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/cv2LK44M.js","_app/immutable/chunks/BxZpmA7Z.js","_app/immutable/chunks/vVxDbqKK.js"],stylesheets:[],fonts:[],uses_env_dynamic_public:false},
nodes: [
__memo(() => import('./nodes/0.js')),
__memo(() => import('./nodes/1.js')),
__memo(() => import('./nodes/2.js')),
__memo(() => import('./nodes/3.js'))
],
remotes: {
},
routes: [
{
id: "/",
pattern: /^\/$/,
params: [],
page: { layouts: [0,], errors: [1,], leaf: 2 },
endpoint: null
},
{
id: "/settings",
pattern: /^\/settings\/?$/,
params: [],
page: { layouts: [0,], errors: [1,], leaf: 3 },
endpoint: null
}
],
prerendered_routes: new Set([]),
matchers: async () => {
return { };
},
server_assets: {}
}
}
})();

47
frontend/.svelte-kit/output/server/manifest.js
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@@ -1,47 +0,0 @@
export const manifest = (() => {
function __memo(fn) {
let value;
return () => value ??= (value = fn());
}
return {
appDir: "_app",
appPath: "_app",
assets: new Set([]),
mimeTypes: {},
_: {
client: {start:"_app/immutable/entry/start.BHAeOrfR.js",app:"_app/immutable/entry/app.BXnpILpp.js",imports:["_app/immutable/entry/start.BHAeOrfR.js","_app/immutable/chunks/D0iaTcAo.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/BxZpmA7Z.js","_app/immutable/entry/app.BXnpILpp.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/cv2LK44M.js","_app/immutable/chunks/BxZpmA7Z.js","_app/immutable/chunks/vVxDbqKK.js"],stylesheets:[],fonts:[],uses_env_dynamic_public:false},
nodes: [
__memo(() => import('./nodes/0.js')),
__memo(() => import('./nodes/1.js')),
__memo(() => import('./nodes/2.js')),
__memo(() => import('./nodes/3.js'))
],
remotes: {
},
routes: [
{
id: "/",
pattern: /^\/$/,
params: [],
page: { layouts: [0,], errors: [1,], leaf: 2 },
endpoint: null
},
{
id: "/settings",
pattern: /^\/settings\/?$/,
params: [],
page: { layouts: [0,], errors: [1,], leaf: 3 },
endpoint: null
}
],
prerendered_routes: new Set([]),
matchers: async () => {
return { };
},
server_assets: {}
}
}
})();

13
frontend/.svelte-kit/output/server/nodes/0.js
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@@ -1,13 +0,0 @@
export const index = 0;
let component_cache;
export const component = async () => component_cache ??= (await import('../entries/pages/_layout.svelte.js')).default;
export const universal = {
"ssr": false,
"prerender": false
};
export const universal_id = "src/routes/+layout.ts";
export const imports = ["_app/immutable/nodes/0.DZdF_zz-.js","_app/immutable/chunks/cv2LK44M.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/CRLlKr96.js","_app/immutable/chunks/xdjHc-A2.js","_app/immutable/chunks/DXE57cnx.js","_app/immutable/chunks/D0iaTcAo.js","_app/immutable/chunks/BxZpmA7Z.js","_app/immutable/chunks/Dbod7Wv8.js"];
export const stylesheets = ["_app/immutable/assets/0.RZHRvmcL.css"];
export const fonts = [];

8
frontend/.svelte-kit/output/server/nodes/1.js
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@@ -1,8 +0,0 @@
export const index = 1;
let component_cache;
export const component = async () => component_cache ??= (await import('../entries/pages/_error.svelte.js')).default;
export const imports = ["_app/immutable/nodes/1.Bh-fCbID.js","_app/immutable/chunks/cv2LK44M.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/CRLlKr96.js","_app/immutable/chunks/DXE57cnx.js","_app/immutable/chunks/D0iaTcAo.js","_app/immutable/chunks/BxZpmA7Z.js"];
export const stylesheets = [];
export const fonts = [];

14
frontend/.svelte-kit/output/server/nodes/2.js
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@@ -1,14 +0,0 @@
export const index = 2;
let component_cache;
export const component = async () => component_cache ??= (await import('../entries/pages/_page.svelte.js')).default;
export const universal = {
"ssr": false,
"prerender": false,
"load": null
};
export const universal_id = "src/routes/+page.ts";
export const imports = ["_app/immutable/nodes/2.BmiXdPHI.js","_app/immutable/chunks/DyPeVqDG.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/Dbod7Wv8.js","_app/immutable/chunks/cv2LK44M.js","_app/immutable/chunks/CRLlKr96.js","_app/immutable/chunks/vVxDbqKK.js","_app/immutable/chunks/BxZpmA7Z.js","_app/immutable/chunks/xdjHc-A2.js"];
export const stylesheets = [];
export const fonts = [];

14
frontend/.svelte-kit/output/server/nodes/3.js
View File

@@ -1,14 +0,0 @@
export const index = 3;
let component_cache;
export const component = async () => component_cache ??= (await import('../entries/pages/settings/_page.svelte.js')).default;
export const universal = {
"ssr": false,
"prerender": false,
"load": null
};
export const universal_id = "src/routes/settings/+page.ts";
export const imports = ["_app/immutable/nodes/3.guWMyWpk.js","_app/immutable/chunks/DyPeVqDG.js","_app/immutable/chunks/BtL0wB3H.js","_app/immutable/chunks/Dbod7Wv8.js","_app/immutable/chunks/cv2LK44M.js","_app/immutable/chunks/CRLlKr96.js","_app/immutable/chunks/vVxDbqKK.js"];
export const stylesheets = [];
export const fonts = [];

562
frontend/.svelte-kit/output/server/remote-entry.js
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@@ -1,562 +0,0 @@
import { get_request_store, with_request_store } from "@sveltejs/kit/internal/server";
import { parse } from "devalue";
import { error, json } from "@sveltejs/kit";
import { a as stringify_remote_arg, f as flatten_issues, b as create_field_proxy, n as normalize_issue, e as set_nested_value, g as deep_set, s as stringify, c as create_remote_key } from "./chunks/shared.js";
import { ValidationError } from "@sveltejs/kit/internal";
import { B as BROWSER } from "./chunks/false.js";
import { b as base, c as app_dir, p as prerendering } from "./chunks/environment.js";
function create_validator(validate_or_fn, maybe_fn) {
if (!maybe_fn) {
return (arg) => {
if (arg !== void 0) {
error(400, "Bad Request");
}
};
}
if (validate_or_fn === "unchecked") {
return (arg) => arg;
}
if ("~standard" in validate_or_fn) {
return async (arg) => {
const { event, state } = get_request_store();
const result = await validate_or_fn["~standard"].validate(arg);
if (result.issues) {
error(
400,
await state.handleValidationError({
issues: result.issues,
event
})
);
}
return result.value;
};
}
throw new Error(
'Invalid validator passed to remote function. Expected "unchecked" or a Standard Schema (https://standardschema.dev)'
);
}
async function get_response(info, arg, state, get_result) {
await 0;
const cache = get_cache(info, state);
return cache[stringify_remote_arg(arg, state.transport)] ??= get_result();
}
function parse_remote_response(data, transport) {
const revivers = {};
for (const key in transport) {
revivers[key] = transport[key].decode;
}
return parse(data, revivers);
}
async function run_remote_function(event, state, allow_cookies, arg, validate, fn) {
const store = {
event: {
...event,
setHeaders: () => {
throw new Error("setHeaders is not allowed in remote functions");
},
cookies: {
...event.cookies,
set: (name, value, opts) => {
if (!allow_cookies) {
throw new Error("Cannot set cookies in `query` or `prerender` functions");
}
if (opts.path && !opts.path.startsWith("/")) {
throw new Error("Cookies set in remote functions must have an absolute path");
}
return event.cookies.set(name, value, opts);
},
delete: (name, opts) => {
if (!allow_cookies) {
throw new Error("Cannot delete cookies in `query` or `prerender` functions");
}
if (opts.path && !opts.path.startsWith("/")) {
throw new Error("Cookies deleted in remote functions must have an absolute path");
}
return event.cookies.delete(name, opts);
}
}
},
state: {
...state,
is_in_remote_function: true
}
};
const validated = await with_request_store(store, () => validate(arg));
return with_request_store(store, () => fn(validated));
}
function get_cache(info, state = get_request_store().state) {
let cache = state.remote_data?.get(info);
if (cache === void 0) {
cache = {};
(state.remote_data ??= /* @__PURE__ */ new Map()).set(info, cache);
}
return cache;
}
// @__NO_SIDE_EFFECTS__
function command(validate_or_fn, maybe_fn) {
const fn = maybe_fn ?? validate_or_fn;
const validate = create_validator(validate_or_fn, maybe_fn);
const __ = { type: "command", id: "", name: "" };
const wrapper = (arg) => {
const { event, state } = get_request_store();
if (state.is_endpoint_request) {
if (!["POST", "PUT", "PATCH", "DELETE"].includes(event.request.method)) {
throw new Error(
`Cannot call a command (\`${__.name}(${maybe_fn ? "..." : ""})\`) from a ${event.request.method} handler`
);
}
} else if (!event.isRemoteRequest) {
throw new Error(
`Cannot call a command (\`${__.name}(${maybe_fn ? "..." : ""})\`) during server-side rendering`
);
}
state.refreshes ??= {};
const promise = Promise.resolve(run_remote_function(event, state, true, arg, validate, fn));
promise.updates = () => {
throw new Error(`Cannot call '${__.name}(...).updates(...)' on the server`);
};
return (
/** @type {ReturnType<RemoteCommand<Input, Output>>} */
promise
);
};
Object.defineProperty(wrapper, "__", { value: __ });
Object.defineProperty(wrapper, "pending", {
get: () => 0
});
return wrapper;
}
// @__NO_SIDE_EFFECTS__
function form(validate_or_fn, maybe_fn) {
const fn = maybe_fn ?? validate_or_fn;
const schema = !maybe_fn || validate_or_fn === "unchecked" ? null : (
/** @type {any} */
validate_or_fn
);
function create_instance(key) {
const instance = {};
instance.method = "POST";
Object.defineProperty(instance, "enhance", {
value: () => {
return { action: instance.action, method: instance.method };
}
});
const button_props = {
type: "submit",
onclick: () => {
}
};
Object.defineProperty(button_props, "enhance", {
value: () => {
return { type: "submit", formaction: instance.buttonProps.formaction, onclick: () => {
} };
}
});
Object.defineProperty(instance, "buttonProps", {
value: button_props
});
const __ = {
type: "form",
name: "",
id: "",
fn: async (data, meta, form_data) => {
const output = {};
output.submission = true;
const { event, state } = get_request_store();
const validated = await schema?.["~standard"].validate(data);
if (meta.validate_only) {
return validated?.issues?.map((issue) => normalize_issue(issue, true)) ?? [];
}
if (validated?.issues !== void 0) {
handle_issues(output, validated.issues, form_data);
} else {
if (validated !== void 0) {
data = validated.value;
}
state.refreshes ??= {};
const issue = create_issues();
try {
output.result = await run_remote_function(
event,
state,
true,
data,
(d) => d,
(data2) => !maybe_fn ? fn() : fn(data2, issue)
);
} catch (e) {
if (e instanceof ValidationError) {
handle_issues(output, e.issues, form_data);
} else {
throw e;
}
}
}
if (!event.isRemoteRequest) {
get_cache(__, state)[""] ??= output;
}
return output;
}
};
Object.defineProperty(instance, "__", { value: __ });
Object.defineProperty(instance, "action", {
get: () => `?/remote=${__.id}`,
enumerable: true
});
Object.defineProperty(button_props, "formaction", {
get: () => `?/remote=${__.id}`,
enumerable: true
});
Object.defineProperty(instance, "fields", {
get() {
const data = get_cache(__)?.[""];
const issues = flatten_issues(data?.issues ?? []);
return create_field_proxy(
{},
() => data?.input ?? {},
(path, value) => {
if (data?.submission) {
return;
}
const input = path.length === 0 ? value : deep_set(data?.input ?? {}, path.map(String), value);
(get_cache(__)[""] ??= {}).input = input;
},
() => issues
);
}
});
Object.defineProperty(instance, "result", {
get() {
try {
return get_cache(__)?.[""]?.result;
} catch {
return void 0;
}
}
});
Object.defineProperty(instance, "pending", {
get: () => 0
});
Object.defineProperty(button_props, "pending", {
get: () => 0
});
Object.defineProperty(instance, "preflight", {
// preflight is a noop on the server
value: () => instance
});
Object.defineProperty(instance, "validate", {
value: () => {
throw new Error("Cannot call validate() on the server");
}
});
if (key == void 0) {
Object.defineProperty(instance, "for", {
/** @type {RemoteForm<any, any>['for']} */
value: (key2) => {
const { state } = get_request_store();
const cache_key = __.id + "|" + JSON.stringify(key2);
let instance2 = (state.form_instances ??= /* @__PURE__ */ new Map()).get(cache_key);
if (!instance2) {
instance2 = create_instance(key2);
instance2.__.id = `${__.id}/${encodeURIComponent(JSON.stringify(key2))}`;
instance2.__.name = __.name;
state.form_instances.set(cache_key, instance2);
}
return instance2;
}
});
}
return instance;
}
return create_instance();
}
function handle_issues(output, issues, form_data) {
output.issues = issues.map((issue) => normalize_issue(issue, true));
if (form_data) {
output.input = {};
for (let key of form_data.keys()) {
if (/^[.\]]?_/.test(key)) continue;
const is_array = key.endsWith("[]");
const values = form_data.getAll(key).filter((value) => typeof value === "string");
if (is_array) key = key.slice(0, -2);
set_nested_value(
/** @type {Record<string, any>} */
output.input,
key,
is_array ? values : values[0]
);
}
}
}
function create_issues() {
return (
/** @type {InvalidField<any>} */
new Proxy(
/** @param {string} message */
(message) => {
if (typeof message !== "string") {
throw new Error(
"`invalid` should now be imported from `@sveltejs/kit` to throw validation issues. The second parameter provided to the form function (renamed to `issue`) is still used to construct issues, e.g. `invalid(issue.field('message'))`. For more info see https://github.com/sveltejs/kit/pulls/14768"
);
}
return create_issue(message);
},
{
get(target, prop) {
if (typeof prop === "symbol") return (
/** @type {any} */
target[prop]
);
return create_issue_proxy(prop, []);
}
}
)
);
function create_issue(message, path = []) {
return {
message,
path
};
}
function create_issue_proxy(key, path) {
const new_path = [...path, key];
const issue_func = (message) => create_issue(message, new_path);
return new Proxy(issue_func, {
get(target, prop) {
if (typeof prop === "symbol") return (
/** @type {any} */
target[prop]
);
if (/^\d+$/.test(prop)) {
return create_issue_proxy(parseInt(prop, 10), new_path);
}
return create_issue_proxy(prop, new_path);
}
});
}
}
// @__NO_SIDE_EFFECTS__
function prerender(validate_or_fn, fn_or_options, maybe_options) {
const maybe_fn = typeof fn_or_options === "function" ? fn_or_options : void 0;
const options = maybe_options ?? (maybe_fn ? void 0 : fn_or_options);
const fn = maybe_fn ?? validate_or_fn;
const validate = create_validator(validate_or_fn, maybe_fn);
const __ = {
type: "prerender",
id: "",
name: "",
has_arg: !!maybe_fn,
inputs: options?.inputs,
dynamic: options?.dynamic
};
const wrapper = (arg) => {
const promise = (async () => {
const { event, state } = get_request_store();
const payload = stringify_remote_arg(arg, state.transport);
const id = __.id;
const url = `${base}/${app_dir}/remote/${id}${payload ? `/${payload}` : ""}`;
if (!state.prerendering && !BROWSER && !event.isRemoteRequest) {
try {
return await get_response(__, arg, state, async () => {
const key = stringify_remote_arg(arg, state.transport);
const cache = get_cache(__, state);
const promise3 = cache[key] ??= fetch(new URL(url, event.url.origin).href).then(
async (response) => {
if (!response.ok) {
throw new Error("Prerendered response not found");
}
const prerendered = await response.json();
if (prerendered.type === "error") {
error(prerendered.status, prerendered.error);
}
return prerendered.result;
}
);
return parse_remote_response(await promise3, state.transport);
});
} catch {
}
}
if (state.prerendering?.remote_responses.has(url)) {
return (
/** @type {Promise<any>} */
state.prerendering.remote_responses.get(url)
);
}
const promise2 = get_response(
__,
arg,
state,
() => run_remote_function(event, state, false, arg, validate, fn)
);
if (state.prerendering) {
state.prerendering.remote_responses.set(url, promise2);
}
const result = await promise2;
if (state.prerendering) {
const body = { type: "result", result: stringify(result, state.transport) };
state.prerendering.dependencies.set(url, {
body: JSON.stringify(body),
response: json(body)
});
}
return result;
})();
promise.catch(() => {
});
return (
/** @type {RemoteResource<Output>} */
promise
);
};
Object.defineProperty(wrapper, "__", { value: __ });
return wrapper;
}
// @__NO_SIDE_EFFECTS__
function query(validate_or_fn, maybe_fn) {
const fn = maybe_fn ?? validate_or_fn;
const validate = create_validator(validate_or_fn, maybe_fn);
const __ = { type: "query", id: "", name: "" };
const wrapper = (arg) => {
if (prerendering) {
throw new Error(
`Cannot call query '${__.name}' while prerendering, as prerendered pages need static data. Use 'prerender' from $app/server instead`
);
}
const { event, state } = get_request_store();
const get_remote_function_result = () => run_remote_function(event, state, false, arg, validate, fn);
const promise = get_response(__, arg, state, get_remote_function_result);
promise.catch(() => {
});
promise.set = (value) => update_refresh_value(get_refresh_context(__, "set", arg), value);
promise.refresh = () => {
const refresh_context = get_refresh_context(__, "refresh", arg);
const is_immediate_refresh = !refresh_context.cache[refresh_context.cache_key];
const value = is_immediate_refresh ? promise : get_remote_function_result();
return update_refresh_value(refresh_context, value, is_immediate_refresh);
};
promise.withOverride = () => {
throw new Error(`Cannot call '${__.name}.withOverride()' on the server`);
};
return (
/** @type {RemoteQuery<Output>} */
promise
);
};
Object.defineProperty(wrapper, "__", { value: __ });
return wrapper;
}
// @__NO_SIDE_EFFECTS__
function batch(validate_or_fn, maybe_fn) {
const fn = maybe_fn ?? validate_or_fn;
const validate = create_validator(validate_or_fn, maybe_fn);
const __ = {
type: "query_batch",
id: "",
name: "",
run: (args) => {
const { event, state } = get_request_store();
return run_remote_function(
event,
state,
false,
args,
(array) => Promise.all(array.map(validate)),
fn
);
}
};
let batching = { args: [], resolvers: [] };
const wrapper = (arg) => {
if (prerendering) {
throw new Error(
`Cannot call query.batch '${__.name}' while prerendering, as prerendered pages need static data. Use 'prerender' from $app/server instead`
);
}
const { event, state } = get_request_store();
const get_remote_function_result = () => {
return new Promise((resolve, reject) => {
batching.args.push(arg);
batching.resolvers.push({ resolve, reject });
if (batching.args.length > 1) return;
setTimeout(async () => {
const batched = batching;
batching = { args: [], resolvers: [] };
try {
const get_result = await run_remote_function(
event,
state,
false,
batched.args,
(array) => Promise.all(array.map(validate)),
fn
);
for (let i = 0; i < batched.resolvers.length; i++) {
try {
batched.resolvers[i].resolve(get_result(batched.args[i], i));
} catch (error2) {
batched.resolvers[i].reject(error2);
}
}
} catch (error2) {
for (const resolver of batched.resolvers) {
resolver.reject(error2);
}
}
}, 0);
});
};
const promise = get_response(__, arg, state, get_remote_function_result);
promise.catch(() => {
});
promise.set = (value) => update_refresh_value(get_refresh_context(__, "set", arg), value);
promise.refresh = () => {
const refresh_context = get_refresh_context(__, "refresh", arg);
const is_immediate_refresh = !refresh_context.cache[refresh_context.cache_key];
const value = is_immediate_refresh ? promise : get_remote_function_result();
return update_refresh_value(refresh_context, value, is_immediate_refresh);
};
promise.withOverride = () => {
throw new Error(`Cannot call '${__.name}.withOverride()' on the server`);
};
return (
/** @type {RemoteQuery<Output>} */
promise
);
};
Object.defineProperty(wrapper, "__", { value: __ });
return wrapper;
}
Object.defineProperty(query, "batch", { value: batch, enumerable: true });
function get_refresh_context(__, action, arg) {
const { state } = get_request_store();
const { refreshes } = state;
if (!refreshes) {
const name = __.type === "query_batch" ? `query.batch '${__.name}'` : `query '${__.name}'`;
throw new Error(
`Cannot call ${action} on ${name} because it is not executed in the context of a command/form remote function`
);
}
const cache = get_cache(__, state);
const cache_key = stringify_remote_arg(arg, state.transport);
const refreshes_key = create_remote_key(__.id, cache_key);
return { __, state, refreshes, refreshes_key, cache, cache_key };
}
function update_refresh_value({ __, refreshes, refreshes_key, cache, cache_key }, value, is_immediate_refresh = false) {
const promise = Promise.resolve(value);
if (!is_immediate_refresh) {
cache[cache_key] = promise;
}
if (__.id) {
refreshes[refreshes_key] = promise;
}
return promise.then(() => {
});
}
export {
command,
form,
prerender,
query
};

52
frontend/.svelte-kit/tsconfig.json
View File

@@ -1,52 +0,0 @@
{
"compilerOptions": {
"paths": {
"$lib": [
"../src/lib"
],
"$lib/*": [
"../src/lib/*"
],
"$app/types": [
"./types/index.d.ts"
]
},
"rootDirs": [
"..",
"./types"
],
"verbatimModuleSyntax": true,
"isolatedModules": true,
"lib": [
"esnext",
"DOM",
"DOM.Iterable"
],
"moduleResolution": "bundler",
"module": "esnext",
"noEmit": true,
"target": "esnext"
},
"include": [
"ambient.d.ts",
"non-ambient.d.ts",
"./types/**/$types.d.ts",
"../vite.config.js",
"../vite.config.ts",
"../src/**/*.js",
"../src/**/*.ts",
"../src/**/*.svelte",
"../tests/**/*.js",
"../tests/**/*.ts",
"../tests/**/*.svelte"
],
"exclude": [
"../node_modules/**",
"../src/service-worker.js",
"../src/service-worker/**/*.js",
"../src/service-worker.ts",
"../src/service-worker/**/*.ts",
"../src/service-worker.d.ts",
"../src/service-worker/**/*.d.ts"
]
}

205
frontend/src/components/DashboardGrid.svelte Normal file
View File

@@ -0,0 +1,205 @@
<!-- [DEF:DashboardGrid:Component] -->
<!--
@SEMANTICS: dashboard, grid, selection, pagination
@PURPOSE: Displays a grid of dashboards with selection and pagination.
@LAYER: Component
@RELATION: USED_BY -> frontend/src/routes/migration/+page.svelte
@INVARIANT: Selected IDs must be a subset of available dashboards.
-->
<script lang="ts">
// [SECTION: IMPORTS]
import { createEventDispatcher } from 'svelte';
import type { DashboardMetadata } from '../types/dashboard';
// [/SECTION]
// [SECTION: PROPS]
export let dashboards: DashboardMetadata[] = [];
export let selectedIds: number[] = [];
// [/SECTION]
// [SECTION: STATE]
let filterText = "";
let currentPage = 0;
let pageSize = 20;
let sortColumn: keyof DashboardMetadata = "title";
let sortDirection: "asc" | "desc" = "asc";
// [/SECTION]
// [SECTION: DERIVED]
$: filteredDashboards = dashboards.filter(d =>
d.title.toLowerCase().includes(filterText.toLowerCase())
);
$: sortedDashboards = [...filteredDashboards].sort((a, b) => {
let aVal = a[sortColumn];
let bVal = b[sortColumn];
if (sortColumn === "id") {
aVal = Number(aVal);
bVal = Number(bVal);
}
if (aVal < bVal) return sortDirection === "asc" ? -1 : 1;
if (aVal > bVal) return sortDirection === "asc" ? 1 : -1;
return 0;
});
$: paginatedDashboards = sortedDashboards.slice(
currentPage * pageSize,
(currentPage + 1) * pageSize
);
$: totalPages = Math.ceil(sortedDashboards.length / pageSize);
$: allSelected = paginatedDashboards.length > 0 && paginatedDashboards.every(d => selectedIds.includes(d.id));
$: someSelected = paginatedDashboards.some(d => selectedIds.includes(d.id));
// [/SECTION]
// [SECTION: EVENTS]
const dispatch = createEventDispatcher<{ selectionChanged: number[] }>();
// [/SECTION]
// [DEF:handleSort:Function]
// @PURPOSE: Toggles sort direction or changes sort column.
function handleSort(column: keyof DashboardMetadata) {
if (sortColumn === column) {
sortDirection = sortDirection === "asc" ? "desc" : "asc";
} else {
sortColumn = column;
sortDirection = "asc";
}
}
// [/DEF:handleSort]
// [DEF:handleSelectionChange:Function]
// @PURPOSE: Handles individual checkbox changes.
function handleSelectionChange(id: number, checked: boolean) {
let newSelected = [...selectedIds];
if (checked) {
if (!newSelected.includes(id)) newSelected.push(id);
} else {
newSelected = newSelected.filter(sid => sid !== id);
}
selectedIds = newSelected;
dispatch('selectionChanged', newSelected);
}
// [/DEF:handleSelectionChange]
// [DEF:handleSelectAll:Function]
// @PURPOSE: Handles select all checkbox.
function handleSelectAll(checked: boolean) {
let newSelected = [...selectedIds];
if (checked) {
paginatedDashboards.forEach(d => {
if (!newSelected.includes(d.id)) newSelected.push(d.id);
});
} else {
paginatedDashboards.forEach(d => {
newSelected = newSelected.filter(sid => sid !== d.id);
});
}
selectedIds = newSelected;
dispatch('selectionChanged', newSelected);
}
// [/DEF:handleSelectAll]
// [DEF:goToPage:Function]
// @PURPOSE: Changes current page.
function goToPage(page: number) {
if (page >= 0 && page < totalPages) {
currentPage = page;
}
}
// [/DEF:goToPage]
</script>
<!-- [SECTION: TEMPLATE] -->
<div class="dashboard-grid">
<!-- Filter Input -->
<div class="mb-4">
<input
type="text"
bind:value={filterText}
placeholder="Search dashboards..."
class="w-full px-3 py-2 border border-gray-300 rounded-md focus:outline-none focus:ring-2 focus:ring-blue-500"
/>
</div>
<!-- Grid/Table -->
<div class="overflow-x-auto">
<table class="min-w-full bg-white border border-gray-300">
<thead class="bg-gray-50">
<tr>
<th class="px-4 py-2 border-b">
<input
type="checkbox"
checked={allSelected}
indeterminate={someSelected && !allSelected}
on:change={(e) => handleSelectAll((e.target as HTMLInputElement).checked)}
/>
</th>
<th class="px-4 py-2 border-b cursor-pointer" on:click={() => handleSort('title')}>
Title {sortColumn === 'title' ? (sortDirection === 'asc' ? '↑' : '↓') : ''}
</th>
<th class="px-4 py-2 border-b cursor-pointer" on:click={() => handleSort('last_modified')}>
Last Modified {sortColumn === 'last_modified' ? (sortDirection === 'asc' ? '↑' : '↓') : ''}
</th>
<th class="px-4 py-2 border-b cursor-pointer" on:click={() => handleSort('status')}>
Status {sortColumn === 'status' ? (sortDirection === 'asc' ? '↑' : '↓') : ''}
</th>
</tr>
</thead>
<tbody>
{#each paginatedDashboards as dashboard (dashboard.id)}
<tr class="hover:bg-gray-50">
<td class="px-4 py-2 border-b">
<input
type="checkbox"
checked={selectedIds.includes(dashboard.id)}
on:change={(e) => handleSelectionChange(dashboard.id, (e.target as HTMLInputElement).checked)}
/>
</td>
<td class="px-4 py-2 border-b">{dashboard.title}</td>
<td class="px-4 py-2 border-b">{new Date(dashboard.last_modified).toLocaleDateString()}</td>
<td class="px-4 py-2 border-b">
<span class="px-2 py-1 text-xs font-medium rounded-full {dashboard.status === 'published' ? 'bg-green-100 text-green-800' : 'bg-gray-100 text-gray-800'}">
{dashboard.status}
</span>
</td>
</tr>
{/each}
</tbody>
</table>
</div>
<!-- Pagination Controls -->
<div class="flex items-center justify-between mt-4">
<div class="text-sm text-gray-700">
Showing {currentPage * pageSize + 1} to {Math.min((currentPage + 1) * pageSize, sortedDashboards.length)} of {sortedDashboards.length} dashboards
</div>
<div class="flex space-x-2">
<button
class="px-3 py-1 text-sm border border-gray-300 rounded-md hover:bg-gray-50 disabled:opacity-50 disabled:cursor-not-allowed"
disabled={currentPage === 0}
on:click={() => goToPage(currentPage - 1)}
>
Previous
</button>
<button
class="px-3 py-1 text-sm border border-gray-300 rounded-md hover:bg-gray-50 disabled:opacity-50 disabled:cursor-not-allowed"
disabled={currentPage >= totalPages - 1}
on:click={() => goToPage(currentPage + 1)}
>
Next
</button>
</div>
</div>
</div>
<!-- [/SECTION] -->
<style>
/* Component styles */
</style>
<!-- [/DEF:DashboardGrid] -->

3
frontend/src/components/EnvSelector.svelte
View File

@@ -36,8 +36,9 @@
<!-- [SECTION: TEMPLATE] -->
<div class="flex flex-col space-y-1">
<label class="text-sm font-medium text-gray-700">{label}</label>
<label for="env-select" class="text-sm font-medium text-gray-700">{label}</label>
<select
id="env-select"
class="block w-full pl-3 pr-10 py-2 text-base border-gray-300 focus:outline-none focus:ring-indigo-500 focus:border-indigo-500 sm:text-sm rounded-md"
value={selectedId}
on:change={handleSelect}

123
frontend/src/components/PasswordPrompt.svelte Normal file
View File

@@ -0,0 +1,123 @@
<!-- [DEF:PasswordPrompt:Component] -->
<!--
@SEMANTICS: password, prompt, modal, input, security
@PURPOSE: A modal component to prompt the user for database passwords when a migration task is paused.
@LAYER: UI
@RELATION: USES -> frontend/src/lib/api.js (inferred)
@RELATION: EMITS -> resume, cancel
-->
<script>
import { createEventDispatcher } from 'svelte';
export let show = false;
export let databases = []; // List of database names requiring passwords
export let errorMessage = "";
const dispatch = createEventDispatcher();
let passwords = {};
let submitting = false;
function handleSubmit() {
if (submitting) return;
// Validate all passwords entered
const missing = databases.filter(db => !passwords[db]);
if (missing.length > 0) {
alert(`Please enter passwords for: ${missing.join(', ')}`);
return;
}
submitting = true;
dispatch('resume', { passwords });
// Reset submitting state is handled by parent or on close
}
function handleCancel() {
dispatch('cancel');
show = false;
}
// Reset passwords when modal opens/closes
$: if (!show) {
passwords = {};
submitting = false;
}
</script>
{#if show}
<div class="fixed inset-0 z-50 overflow-y-auto" aria-labelledby="modal-title" role="dialog" aria-modal="true">
<div class="flex items-end justify-center min-h-screen pt-4 px-4 pb-20 text-center sm:block sm:p-0">
<!-- Background overlay -->
<div class="fixed inset-0 bg-gray-500 bg-opacity-75 transition-opacity" aria-hidden="true" on:click={handleCancel}></div>
<span class="hidden sm:inline-block sm:align-middle sm:h-screen" aria-hidden="true">&#8203;</span>
<div class="inline-block align-bottom bg-white rounded-lg text-left overflow-hidden shadow-xl transform transition-all sm:my-8 sm:align-middle sm:max-w-lg sm:w-full">
<div class="bg-white px-4 pt-5 pb-4 sm:p-6 sm:pb-4">
<div class="sm:flex sm:items-start">
<div class="mx-auto flex-shrink-0 flex items-center justify-center h-12 w-12 rounded-full bg-red-100 sm:mx-0 sm:h-10 sm:w-10">
<!-- Heroicon name: outline/lock-closed -->
<svg class="h-6 w-6 text-red-600" xmlns="http://www.w3.org/2000/svg" fill="none" viewBox="0 0 24 24" stroke="currentColor" aria-hidden="true">
<path stroke-linecap="round" stroke-linejoin="round" stroke-width="2" d="M12 15v2m-6 4h12a2 2 0 002-2v-6a2 2 0 00-2-2H6a2 2 0 00-2 2v6a2 2 0 002 2zm10-10V7a4 4 0 00-8 0v4h8z" />
</svg>
</div>
<div class="mt-3 text-center sm:mt-0 sm:ml-4 sm:text-left w-full">
<h3 class="text-lg leading-6 font-medium text-gray-900" id="modal-title">
Database Password Required
</h3>
<div class="mt-2">
<p class="text-sm text-gray-500 mb-4">
The migration process requires passwords for the following databases to proceed.
</p>
{#if errorMessage}
<div class="mb-4 p-2 bg-red-50 text-red-700 text-xs rounded border border-red-200">
Error: {errorMessage}
</div>
{/if}
<form on:submit|preventDefault={handleSubmit} class="space-y-4">
{#each databases as dbName}
<div>
<label for="password-{dbName}" class="block text-sm font-medium text-gray-700">
Password for {dbName}
</label>
<input
type="password"
id="password-{dbName}"
bind:value={passwords[dbName]}
class="mt-1 block w-full border-gray-300 rounded-md shadow-sm focus:ring-indigo-500 focus:border-indigo-500 sm:text-sm p-2 border"
placeholder="Enter password"
required
/>
</div>
{/each}
</form>
</div>
</div>
</div>
</div>
<div class="bg-gray-50 px-4 py-3 sm:px-6 sm:flex sm:flex-row-reverse">
<button
type="button"
class="w-full inline-flex justify-center rounded-md border border-transparent shadow-sm px-4 py-2 bg-indigo-600 text-base font-medium text-white hover:bg-indigo-700 focus:outline-none focus:ring-2 focus:ring-offset-2 focus:ring-indigo-500 sm:ml-3 sm:w-auto sm:text-sm disabled:opacity-50"
on:click={handleSubmit}
disabled={submitting}
>
{submitting ? 'Resuming...' : 'Resume Migration'}
</button>
<button
type="button"
class="mt-3 w-full inline-flex justify-center rounded-md border border-gray-300 shadow-sm px-4 py-2 bg-white text-base font-medium text-gray-700 hover:bg-gray-50 focus:outline-none focus:ring-2 focus:ring-offset-2 focus:ring-indigo-500 sm:mt-0 sm:ml-3 sm:w-auto sm:text-sm"
on:click={handleCancel}
disabled={submitting}
>
Cancel
</button>
</div>
</div>
</div>
</div>
{/if}
<!-- [/DEF:PasswordPrompt] -->

179
frontend/src/components/TaskHistory.svelte Normal file
View File

@@ -0,0 +1,179 @@
<!-- [DEF:TaskHistory:Component] -->
<!--
@SEMANTICS: task, history, list, status, monitoring
@PURPOSE: Displays a list of recent tasks with their status and allows selecting them for viewing logs.
@LAYER: UI
@RELATION: USES -> frontend/src/lib/stores.js
@RELATION: USES -> frontend/src/lib/api.js (inferred)
-->
<script>
import { onMount, onDestroy } from 'svelte';
import { selectedTask } from '../lib/stores.js';
let tasks = [];
let loading = true;
let error = "";
let interval;
async function fetchTasks() {
try {
const res = await fetch('/api/tasks?limit=10');
if (!res.ok) throw new Error('Failed to fetch tasks');
tasks = await res.json();
// [DEBUG] Check for tasks requiring attention
tasks.forEach(t => {
if (t.status === 'AWAITING_MAPPING' || t.status === 'AWAITING_INPUT') {
console.log(`[TaskHistory] Task ${t.id} is in state ${t.status}. Input required: ${t.input_required}`);
}
});
// Update selected task if it exists in the list (for status updates)
if ($selectedTask) {
const updatedTask = tasks.find(t => t.id === $selectedTask.id);
if (updatedTask && updatedTask.status !== $selectedTask.status) {
selectedTask.set(updatedTask);
}
}
} catch (e) {
error = e.message;
} finally {
loading = false;
}
}
async function clearTasks(status = null) {
if (!confirm('Are you sure you want to clear tasks?')) return;
try {
let url = '/api/tasks';
const params = new URLSearchParams();
if (status) params.append('status', status);
const res = await fetch(`${url}?${params.toString()}`, { method: 'DELETE' });
if (!res.ok) throw new Error('Failed to clear tasks');
await fetchTasks();
} catch (e) {
error = e.message;
}
}
async function selectTask(task) {
try {
// Fetch the full task details (including logs) before setting it as selected
const res = await fetch(`/api/tasks/${task.id}`);
if (res.ok) {
const fullTask = await res.json();
selectedTask.set(fullTask);
} else {
// Fallback to the list version if fetch fails
selectedTask.set(task);
}
} catch (e) {
console.error("Failed to fetch full task details:", e);
selectedTask.set(task);
}
}
function getStatusColor(status) {
switch (status) {
case 'SUCCESS': return 'bg-green-100 text-green-800';
case 'FAILED': return 'bg-red-100 text-red-800';
case 'RUNNING': return 'bg-blue-100 text-blue-800';
case 'AWAITING_INPUT': return 'bg-orange-100 text-orange-800';
case 'AWAITING_MAPPING': return 'bg-yellow-100 text-yellow-800';
default: return 'bg-gray-100 text-gray-800';
}
}
onMount(() => {
fetchTasks();
interval = setInterval(fetchTasks, 5000); // Poll every 5s
});
onDestroy(() => {
clearInterval(interval);
});
</script>
<div class="bg-white shadow overflow-hidden sm:rounded-lg mb-8">
<div class="px-4 py-5 sm:px-6 flex justify-between items-center">
<h3 class="text-lg leading-6 font-medium text-gray-900">
Recent Tasks
</h3>
<div class="flex space-x-4 items-center">
<div class="relative inline-block text-left group">
<button class="text-sm text-red-600 hover:text-red-900 focus:outline-none flex items-center py-2">
Clear Tasks
<svg class="ml-1 h-4 w-4" fill="none" stroke="currentColor" viewBox="0 0 24 24"><path stroke-linecap="round" stroke-linejoin="round" stroke-width="2" d="M19 9l-7 7-7-7"></path></svg>
</button>
<!-- Added a transparent bridge to prevent menu closing when moving cursor -->
<div class="absolute h-2 w-full top-full left-0"></div>
<div class="origin-top-right absolute right-0 mt-2 w-48 rounded-md shadow-lg bg-white ring-1 ring-black ring-opacity-5 focus:outline-none hidden group-hover:block z-50">
<div class="py-1">
<button on:click={() => clearTasks()} class="block w-full text-left px-4 py-2 text-sm text-gray-700 hover:bg-gray-100">Clear All Non-Running</button>
<button on:click={() => clearTasks('FAILED')} class="block w-full text-left px-4 py-2 text-sm text-gray-700 hover:bg-gray-100">Clear Failed</button>
<button on:click={() => clearTasks('AWAITING_INPUT')} class="block w-full text-left px-4 py-2 text-sm text-gray-700 hover:bg-gray-100">Clear Awaiting Input</button>
</div>
</div>
</div>
<button
on:click={fetchTasks}
class="text-sm text-indigo-600 hover:text-indigo-900 focus:outline-none"
>
Refresh
</button>
</div>
</div>
{#if loading && tasks.length === 0}
<div class="p-4 text-center text-gray-500">Loading tasks...</div>
{:else if error}
<div class="p-4 text-center text-red-500">{error}</div>
{:else if tasks.length === 0}
<div class="p-4 text-center text-gray-500">No recent tasks found.</div>
{:else}
<ul class="divide-y divide-gray-200">
{#each tasks as task}
<li>
<button
class="w-full text-left block hover:bg-gray-50 focus:outline-none focus:bg-gray-50 transition duration-150 ease-in-out"
class:bg-indigo-50={$selectedTask && $selectedTask.id === task.id}
on:click={() => selectTask(task)}
>
<div class="px-4 py-4 sm:px-6">
<div class="flex items-center justify-between">
<p class="text-sm font-medium text-indigo-600 truncate">
{task.plugin_id}
<span class="text-gray-500 text-xs ml-2">({task.id.slice(0, 8)})</span>
</p>
<div class="ml-2 flex-shrink-0 flex">
<p class="px-2 inline-flex text-xs leading-5 font-semibold rounded-full {getStatusColor(task.status)}">
{task.status}
</p>
</div>
</div>
<div class="mt-2 sm:flex sm:justify-between">
<div class="sm:flex">
<p class="flex items-center text-sm text-gray-500">
{#if task.params.from_env && task.params.to_env}
{task.params.from_env} &rarr; {task.params.to_env}
{:else}
Params: {Object.keys(task.params).length} keys
{/if}
</p>
</div>
<div class="mt-2 flex items-center text-sm text-gray-500 sm:mt-0">
<p>
Started: {new Date(task.started_at || task.created_at || Date.now()).toLocaleString()}
</p>
</div>
</div>
</div>
</button>
</li>
{/each}
</ul>
{/if}
</div>
<!-- [/DEF:TaskHistory] -->

153
frontend/src/components/TaskLogViewer.svelte Normal file
View File

@@ -0,0 +1,153 @@
<!-- [DEF:TaskLogViewer:Component] -->
<!--
@SEMANTICS: task, log, viewer, modal
@PURPOSE: Displays detailed logs for a specific task in a modal.
@LAYER: UI
@RELATION: USES -> frontend/src/lib/api.js (inferred)
-->
<script>
import { createEventDispatcher, onMount, onDestroy } from 'svelte';
import { getTaskLogs } from '../services/taskService.js';
export let show = false;
export let taskId = null;
export let taskStatus = null; // To know if we should poll
const dispatch = createEventDispatcher();
let logs = [];
let loading = false;
let error = "";
let interval;
let autoScroll = true;
let logContainer;
async function fetchLogs() {
if (!taskId) return;
try {
logs = await getTaskLogs(taskId);
if (autoScroll) {
scrollToBottom();
}
} catch (e) {
error = e.message;
} finally {
loading = false;
}
}
function scrollToBottom() {
if (logContainer) {
setTimeout(() => {
logContainer.scrollTop = logContainer.scrollHeight;
}, 0);
}
}
function handleScroll() {
if (!logContainer) return;
// If user scrolls up, disable auto-scroll
const { scrollTop, scrollHeight, clientHeight } = logContainer;
const atBottom = scrollHeight - scrollTop - clientHeight < 50;
autoScroll = atBottom;
}
function close() {
dispatch('close');
show = false;
}
function getLogLevelColor(level) {
switch (level) {
case 'INFO': return 'text-blue-600';
case 'WARNING': return 'text-yellow-600';
case 'ERROR': return 'text-red-600';
case 'DEBUG': return 'text-gray-500';
default: return 'text-gray-800';
}
}
// React to changes in show/taskId
$: if (show && taskId) {
logs = [];
loading = true;
error = "";
fetchLogs();
// Poll if task is running
if (taskStatus === 'RUNNING' || taskStatus === 'AWAITING_INPUT' || taskStatus === 'AWAITING_MAPPING') {
interval = setInterval(fetchLogs, 3000);
}
} else {
if (interval) clearInterval(interval);
}
onDestroy(() => {
if (interval) clearInterval(interval);
});
</script>
{#if show}
<div class="fixed inset-0 z-50 overflow-y-auto" aria-labelledby="modal-title" role="dialog" aria-modal="true">
<div class="flex items-end justify-center min-h-screen pt-4 px-4 pb-20 text-center sm:block sm:p-0">
<!-- Background overlay -->
<div class="fixed inset-0 bg-gray-500 bg-opacity-75 transition-opacity" aria-hidden="true" on:click={close}></div>
<span class="hidden sm:inline-block sm:align-middle sm:h-screen" aria-hidden="true">&#8203;</span>
<div class="inline-block align-bottom bg-white rounded-lg text-left overflow-hidden shadow-xl transform transition-all sm:my-8 sm:align-middle sm:max-w-4xl sm:w-full">
<div class="bg-white px-4 pt-5 pb-4 sm:p-6 sm:pb-4">
<div class="sm:flex sm:items-start">
<div class="mt-3 text-center sm:mt-0 sm:ml-4 sm:text-left w-full">
<h3 class="text-lg leading-6 font-medium text-gray-900 flex justify-between items-center" id="modal-title">
<span>Task Logs <span class="text-sm text-gray-500 font-normal">({taskId})</span></span>
<button on:click={fetchLogs} class="text-sm text-indigo-600 hover:text-indigo-900">Refresh</button>
</h3>
<div class="mt-4 border rounded-md bg-gray-50 p-4 h-96 overflow-y-auto font-mono text-sm"
bind:this={logContainer}
on:scroll={handleScroll}>
{#if loading && logs.length === 0}
<p class="text-gray-500 text-center">Loading logs...</p>
{:else if error}
<p class="text-red-500 text-center">{error}</p>
{:else if logs.length === 0}
<p class="text-gray-500 text-center">No logs available.</p>
{:else}
{#each logs as log}
<div class="mb-1 hover:bg-gray-100 p-1 rounded">
<span class="text-gray-400 text-xs mr-2">
{new Date(log.timestamp).toLocaleTimeString()}
</span>
<span class="font-bold text-xs mr-2 w-16 inline-block {getLogLevelColor(log.level)}">
[{log.level}]
</span>
<span class="text-gray-800 break-words">
{log.message}
</span>
{#if log.context}
<div class="ml-24 text-xs text-gray-500 mt-1 bg-gray-100 p-1 rounded overflow-x-auto">
<pre>{JSON.stringify(log.context, null, 2)}</pre>
</div>
{/if}
</div>
{/each}
{/if}
</div>
</div>
</div>
</div>
<div class="bg-gray-50 px-4 py-3 sm:px-6 sm:flex sm:flex-row-reverse">
<button
type="button"
class="mt-3 w-full inline-flex justify-center rounded-md border border-gray-300 shadow-sm px-4 py-2 bg-white text-base font-medium text-gray-700 hover:bg-gray-50 focus:outline-none focus:ring-2 focus:ring-offset-2 focus:ring-indigo-500 sm:mt-0 sm:ml-3 sm:w-auto sm:text-sm"
on:click={close}
>
Close
</button>
</div>
</div>
</div>
</div>
{/if}
<!-- [/DEF:TaskLogViewer] -->

113
frontend/src/components/TaskRunner.svelte
View File

@@ -16,6 +16,7 @@
import { getWsUrl } from '../lib/api.js';
import { addToast } from '../lib/toasts.js';
import MissingMappingModal from './MissingMappingModal.svelte';
import PasswordPrompt from './PasswordPrompt.svelte';
// [/SECTION]
let ws;
@@ -26,10 +27,13 @@
let reconnectTimeout;
let waitingForData = false;
let dataTimeout;
let connectionStatus = 'disconnected'; // 'connecting', 'connected', 'disconnected', 'waiting', 'completed', 'awaiting_mapping'
let connectionStatus = 'disconnected'; // 'connecting', 'connected', 'disconnected', 'waiting', 'completed', 'awaiting_mapping', 'awaiting_input'
let showMappingModal = false;
let missingDbInfo = { name: '', uuid: '' };
let targetDatabases = [];
let showPasswordPrompt = false;
let passwordPromptData = { databases: [], errorMessage: '' };
// [DEF:connect:Function]
/**
@@ -73,8 +77,33 @@
showMappingModal = true;
}
}
// Check for password request via log context or message
// Note: The backend logs "Task paused for user input" with context
if (logEntry.message && logEntry.message.includes('Task paused for user input') && logEntry.context && logEntry.context.input_request) {
const request = logEntry.context.input_request;
if (request.type === 'database_password') {
connectionStatus = 'awaiting_input';
passwordPromptData = {
databases: request.databases || [],
errorMessage: request.error_message || ''
};
showPasswordPrompt = true;
}
}
};
// Check if task is already awaiting input (e.g. when re-selecting task)
// We use the 'task' variable from the outer scope (connect function)
if (task && task.status === 'AWAITING_INPUT' && task.input_request && task.input_request.type === 'database_password') {
connectionStatus = 'awaiting_input';
passwordPromptData = {
databases: task.input_request.databases || [],
errorMessage: task.input_request.error_message || ''
};
showPasswordPrompt = true;
}
ws.onerror = (error) => {
console.error('[TaskRunner][Coherence:Failed] WebSocket error:', error);
connectionStatus = 'disconnected';
@@ -158,6 +187,25 @@
addToast('Failed to resolve mapping: ' + e.message, 'error');
}
}
async function handlePasswordResume(event) {
const task = get(selectedTask);
const { passwords } = event.detail;
try {
await fetch(`/api/tasks/${task.id}/resume`, {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify({ passwords })
});
showPasswordPrompt = false;
connectionStatus = 'connected';
addToast('Passwords submitted, resuming migration...', 'success');
} catch (e) {
addToast('Failed to resume task: ' + e.message, 'error');
}
}
function startDataTimeout() {
waitingForData = false;
@@ -184,7 +232,15 @@
clearTimeout(reconnectTimeout);
reconnectAttempts = 0;
connectionStatus = 'disconnected';
taskLogs.set([]);
// Initialize logs from the task object if available
if (task.logs && Array.isArray(task.logs)) {
console.log(`[TaskRunner] Loaded ${task.logs.length} existing logs.`);
taskLogs.set(task.logs);
} else {
taskLogs.set([]);
}
connect();
}
});
@@ -228,6 +284,9 @@
{:else if connectionStatus === 'awaiting_mapping'}
<span class="h-3 w-3 rounded-full bg-orange-500 animate-pulse"></span>
<span class="text-xs text-gray-500">Awaiting Mapping</span>
{:else if connectionStatus === 'awaiting_input'}
<span class="h-3 w-3 rounded-full bg-orange-500 animate-pulse"></span>
<span class="text-xs text-gray-500">Awaiting Input</span>
{:else}
<span class="h-3 w-3 rounded-full bg-red-500"></span>
<span class="text-xs text-gray-500">Disconnected</span>
@@ -235,18 +294,46 @@
</div>
</div>
<div class="bg-gray-900 text-white font-mono text-sm p-4 rounded-md h-96 overflow-y-auto relative">
<!-- Task Info Section -->
<div class="mb-4 bg-gray-50 p-3 rounded text-sm border border-gray-200">
<details open>
<summary class="cursor-pointer font-medium text-gray-700 focus:outline-none hover:text-indigo-600">Task Details & Parameters</summary>
<div class="mt-2 pl-2 border-l-2 border-indigo-200">
<div class="grid grid-cols-2 gap-2 mb-2">
<div><span class="font-semibold">ID:</span> <span class="text-gray-600">{$selectedTask.id}</span></div>
<div><span class="font-semibold">Status:</span> <span class="text-gray-600">{$selectedTask.status}</span></div>
<div><span class="font-semibold">Started:</span> <span class="text-gray-600">{new Date($selectedTask.started_at || $selectedTask.created_at || Date.now()).toLocaleString()}</span></div>
<div><span class="font-semibold">Plugin:</span> <span class="text-gray-600">{$selectedTask.plugin_id}</span></div>
</div>
<div class="mt-1">
<span class="font-semibold">Parameters:</span>
<pre class="text-xs bg-gray-100 p-2 rounded mt-1 overflow-x-auto border border-gray-200">{JSON.stringify($selectedTask.params, null, 2)}</pre>
</div>
</div>
</details>
</div>
<div class="bg-gray-900 text-white font-mono text-sm p-4 rounded-md h-96 overflow-y-auto relative shadow-inner">
{#if $taskLogs.length === 0}
<div class="text-gray-500 italic text-center mt-10">No logs available for this task.</div>
{/if}
{#each $taskLogs as log}
<div>
<span class="text-gray-400">{new Date(log.timestamp).toLocaleTimeString()}</span>
<span class="{log.level === 'ERROR' ? 'text-red-500' : 'text-green-400'}">[{log.level}]</span>
<div class="hover:bg-gray-800 px-1 rounded">
<span class="text-gray-500 select-none text-xs w-20 inline-block">{new Date(log.timestamp).toLocaleTimeString()}</span>
<span class="{log.level === 'ERROR' ? 'text-red-500 font-bold' : log.level === 'WARNING' ? 'text-yellow-400' : 'text-green-400'} w-16 inline-block">[{log.level}]</span>
<span>{log.message}</span>
{#if log.context}
<details class="ml-24">
<summary class="text-xs text-gray-500 cursor-pointer hover:text-gray-300">Context</summary>
<pre class="text-xs text-gray-400 pl-2 border-l border-gray-700 mt-1">{JSON.stringify(log.context, null, 2)}</pre>
</details>
{/if}
</div>
{/each}
{#if waitingForData}
<div class="text-gray-500 italic mt-2 animate-pulse">
Waiting for data...
{#if waitingForData && connectionStatus === 'connected'}
<div class="text-gray-500 italic mt-2 animate-pulse border-t border-gray-800 pt-2">
Waiting for new logs...
</div>
{/if}
</div>
@@ -263,6 +350,14 @@
on:resolve={handleMappingResolve}
on:cancel={() => { connectionStatus = 'disconnected'; ws.close(); }}
/>
<PasswordPrompt
bind:show={showPasswordPrompt}
databases={passwordPromptData.databases}
errorMessage={passwordPromptData.errorMessage}
on:resume={handlePasswordResume}
on:cancel={() => { showPasswordPrompt = false; }}
/>
<!-- [/SECTION] -->
<!-- [/DEF:TaskRunner] -->

360
frontend/src/routes/migration/+page.svelte
View File

@@ -12,16 +12,40 @@
// [SECTION: IMPORTS]
import { onMount } from 'svelte';
import EnvSelector from '../../components/EnvSelector.svelte';
import DashboardGrid from '../../components/DashboardGrid.svelte';
import MappingTable from '../../components/MappingTable.svelte';
import TaskRunner from '../../components/TaskRunner.svelte';
import TaskHistory from '../../components/TaskHistory.svelte';
import TaskLogViewer from '../../components/TaskLogViewer.svelte';
import PasswordPrompt from '../../components/PasswordPrompt.svelte';
import { selectedTask } from '../../lib/stores.js';
import { resumeTask } from '../../services/taskService.js';
import type { DashboardMetadata, DashboardSelection } from '../../types/dashboard';
// [/SECTION]
// [SECTION: STATE]
let environments = [];
let environments: any[] = [];
let sourceEnvId = "";
let targetEnvId = "";
let dashboardRegex = ".*";
let replaceDb = false;
let loading = true;
let error = "";
let dashboards: DashboardMetadata[] = [];
let selectedDashboardIds: number[] = [];
let sourceDatabases: any[] = [];
let targetDatabases: any[] = [];
let mappings: any[] = [];
let suggestions: any[] = [];
let fetchingDbs = false;
// UI State for Modals
let showLogViewer = false;
let logViewerTaskId: string | null = null;
let logViewerTaskStatus: string | null = null;
let showPasswordPrompt = false;
let passwordPromptDatabases: string[] = [];
let passwordPromptErrorMessage = "";
// [/SECTION]
// [DEF:fetchEnvironments:Function]
@@ -42,8 +66,144 @@
}
// [/DEF:fetchEnvironments]
// [DEF:fetchDashboards:Function]
/**
* @purpose Fetches dashboards for the selected source environment.
* @param envId The environment ID.
* @post dashboards state is updated.
*/
async function fetchDashboards(envId: string) {
try {
const response = await fetch(`/api/environments/${envId}/dashboards`);
if (!response.ok) throw new Error('Failed to fetch dashboards');
dashboards = await response.json();
selectedDashboardIds = []; // Reset selection when env changes
} catch (e) {
error = e.message;
dashboards = [];
}
}
// [/DEF:fetchDashboards]
onMount(fetchEnvironments);
// Reactive: fetch dashboards when source env changes
$: if (sourceEnvId) fetchDashboards(sourceEnvId);
// [DEF:fetchDatabases:Function]
/**
* @purpose Fetches databases from both environments and gets suggestions.
*/
async function fetchDatabases() {
if (!sourceEnvId || !targetEnvId) return;
fetchingDbs = true;
error = "";
try {
const [srcRes, tgtRes, mapRes, sugRes] = await Promise.all([
fetch(`/api/environments/${sourceEnvId}/databases`),
fetch(`/api/environments/${targetEnvId}/databases`),
fetch(`/api/mappings?source_env_id=${sourceEnvId}&target_env_id=${targetEnvId}`),
fetch(`/api/mappings/suggest`, {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify({ source_env_id: sourceEnvId, target_env_id: targetEnvId })
})
]);
if (!srcRes.ok || !tgtRes.ok) throw new Error('Failed to fetch databases from environments');
sourceDatabases = await srcRes.json();
targetDatabases = await tgtRes.json();
mappings = await mapRes.json();
suggestions = await sugRes.json();
} catch (e) {
error = e.message;
} finally {
fetchingDbs = false;
}
}
// [/DEF:fetchDatabases]
// [DEF:handleMappingUpdate:Function]
/**
* @purpose Saves a mapping to the backend.
*/
async function handleMappingUpdate(event: CustomEvent) {
const { sourceUuid, targetUuid } = event.detail;
const sDb = sourceDatabases.find(d => d.uuid === sourceUuid);
const tDb = targetDatabases.find(d => d.uuid === targetUuid);
if (!sDb || !tDb) return;
try {
const response = await fetch('/api/mappings', {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify({
source_env_id: sourceEnvId,
target_env_id: targetEnvId,
source_db_uuid: sourceUuid,
target_db_uuid: targetUuid,
source_db_name: sDb.database_name,
target_db_name: tDb.database_name
})
});
if (!response.ok) throw new Error('Failed to save mapping');
const savedMapping = await response.json();
mappings = [...mappings.filter(m => m.source_db_uuid !== sourceUuid), savedMapping];
} catch (e) {
error = e.message;
}
}
// [/DEF:handleMappingUpdate]
// [DEF:handleViewLogs:Function]
function handleViewLogs(event: CustomEvent) {
const task = event.detail;
logViewerTaskId = task.id;
logViewerTaskStatus = task.status;
showLogViewer = true;
}
// [/DEF:handleViewLogs]
// [DEF:handlePasswordPrompt:Function]
// This is triggered by TaskRunner or TaskHistory when a task needs input
// For now, we rely on the WebSocket or manual check.
// Ideally, TaskHistory or TaskRunner emits an event when input is needed.
// Or we watch selectedTask.
$: if ($selectedTask && $selectedTask.status === 'AWAITING_INPUT' && $selectedTask.input_request) {
const req = $selectedTask.input_request;
if (req.type === 'database_password') {
passwordPromptDatabases = req.databases || [];
passwordPromptErrorMessage = req.error_message || "";
showPasswordPrompt = true;
}
} else if (!$selectedTask || $selectedTask.status !== 'AWAITING_INPUT') {
// Close prompt if task is no longer waiting (e.g. resumed)
// But only if we are viewing this task.
// showPasswordPrompt = false;
// Actually, don't auto-close, let the user or success handler close it.
}
async function handleResumeMigration(event: CustomEvent) {
if (!$selectedTask) return;
const { passwords } = event.detail;
try {
await resumeTask($selectedTask.id, passwords);
showPasswordPrompt = false;
// Task status update will be handled by store/websocket
} catch (e) {
console.error("Failed to resume task:", e);
passwordPromptErrorMessage = e.message;
// Keep prompt open
}
}
// [DEF:startMigration:Function]
/**
* @purpose Starts the migration process.
@@ -58,10 +218,57 @@
error = "Source and target environments must be different.";
return;
}
if (selectedDashboardIds.length === 0) {
error = "Please select at least one dashboard to migrate.";
return;
}
error = "";
console.log(`[MigrationDashboard][Action] Starting migration from ${sourceEnvId} to ${targetEnvId} (Replace DB: ${replaceDb})`);
// TODO: Implement actual migration trigger in US3
try {
const selection: DashboardSelection = {
selected_ids: selectedDashboardIds,
source_env_id: sourceEnvId,
target_env_id: targetEnvId,
replace_db_config: replaceDb
};
console.log(`[MigrationDashboard][Action] Starting migration with selection:`, selection);
const response = await fetch('/api/migration/execute', {
method: 'POST',
headers: { 'Content-Type': 'application/json' },
body: JSON.stringify(selection)
});
console.log(`[MigrationDashboard][Action] API response status: ${response.status}`);
if (!response.ok) throw new Error(`Failed to start migration: ${response.status} ${response.statusText}`);
const result = await response.json();
console.log(`[MigrationDashboard][Action] Migration started: ${result.task_id} - ${result.message}`);
// Wait a brief moment for the backend to ensure the task is retrievable
await new Promise(r => setTimeout(r, 500));
// Fetch full task details and switch to TaskRunner view
try {
const taskRes = await fetch(`/api/tasks/${result.task_id}`);
if (taskRes.ok) {
const task = await taskRes.json();
selectedTask.set(task);
} else {
// Fallback: create a temporary task object to switch view immediately
console.warn("Could not fetch task details immediately, using placeholder.");
selectedTask.set({
id: result.task_id,
plugin_id: 'superset-migration',
status: 'RUNNING',
logs: [],
params: {}
});
}
} catch (fetchErr) {
console.error("Failed to fetch new task details:", fetchErr);
}
} catch (e) {
console.error(`[MigrationDashboard][Failure] Migration failed:`, e);
error = e.message;
}
}
// [/DEF:startMigration]
</script>
@@ -69,69 +276,120 @@
<!-- [SECTION: TEMPLATE] -->
<div class="max-w-4xl mx-auto p-6">
<h1 class="text-2xl font-bold mb-6">Migration Dashboard</h1>
<TaskHistory on:viewLogs={handleViewLogs} />
{#if loading}
<p>Loading environments...</p>
{:else if error}
<div class="bg-red-100 border border-red-400 text-red-700 px-4 py-3 rounded mb-4">
{error}
{#if $selectedTask}
<div class="mt-6">
<TaskRunner />
<button
on:click={() => selectedTask.set(null)}
class="mt-4 inline-flex items-center px-4 py-2 border border-gray-300 shadow-sm text-sm font-medium rounded-md text-gray-700 bg-white hover:bg-gray-50 focus:outline-none focus:ring-2 focus:ring-offset-2 focus:ring-indigo-500"
>
Back to New Migration
</button>
</div>
{/if}
{:else}
{#if loading}
<p>Loading environments...</p>
{:else if error}
<div class="bg-red-100 border border-red-400 text-red-700 px-4 py-3 rounded mb-4">
{error}
</div>
{/if}
<div class="grid grid-cols-1 md:grid-cols-2 gap-6 mb-8">
<EnvSelector
label="Source Environment"
bind:selectedId={sourceEnvId}
{environments}
/>
<EnvSelector
label="Target Environment"
bind:selectedId={targetEnvId}
{environments}
/>
</div>
<div class="grid grid-cols-1 md:grid-cols-2 gap-6 mb-8">
<EnvSelector
label="Source Environment"
bind:selectedId={sourceEnvId}
{environments}
/>
<EnvSelector
label="Target Environment"
bind:selectedId={targetEnvId}
{environments}
/>
</div>
<div class="mb-8">
<label for="dashboard-regex" class="block text-sm font-medium text-gray-700 mb-1">Dashboard Regex</label>
<input
id="dashboard-regex"
type="text"
bind:value={dashboardRegex}
placeholder="e.g. ^Finance Dashboard$"
class="shadow-sm focus:ring-indigo-500 focus:border-indigo-500 block w-full sm:text-sm border-gray-300 rounded-md"
/>
<p class="mt-1 text-sm text-gray-500">Regular expression to filter dashboards to migrate.</p>
</div>
<!-- [DEF:DashboardSelectionSection] -->
<div class="mb-8">
<h2 class="text-lg font-medium mb-4">Select Dashboards</h2>
{#if sourceEnvId}
<DashboardGrid
{dashboards}
bind:selectedIds={selectedDashboardIds}
/>
{:else}
<p class="text-gray-500 italic">Select a source environment to view dashboards.</p>
{/if}
</div>
<!-- [/DEF:DashboardSelectionSection] -->
<div class="flex items-center justify-between mb-8">
<div class="flex items-center">
<div class="flex items-center mb-4">
<input
id="replace-db"
type="checkbox"
bind:checked={replaceDb}
on:change={() => { if (replaceDb && sourceDatabases.length === 0) fetchDatabases(); }}
class="h-4 w-4 text-indigo-600 focus:ring-indigo-500 border-gray-300 rounded"
/>
<label for="replace-db" class="ml-2 block text-sm text-gray-900">
Replace Database (Apply Mappings)
</label>
</div>
<a
href="/migration/mappings"
class="text-sm font-medium text-indigo-600 hover:text-indigo-500"
>
Manage Mappings &rarr;
</a>
</div>
<button
on:click={startMigration}
disabled={!sourceEnvId || !targetEnvId || sourceEnvId === targetEnvId}
class="inline-flex items-center px-4 py-2 border border-transparent text-sm font-medium rounded-md shadow-sm text-white bg-indigo-600 hover:bg-indigo-700 focus:outline-none focus:ring-2 focus:ring-offset-2 focus:ring-indigo-500 disabled:bg-gray-400"
>
Start Migration
</button>
{#if replaceDb}
<div class="mb-8 p-4 border rounded-md bg-gray-50">
<h3 class="text-md font-medium mb-4">Database Mappings</h3>
{#if fetchingDbs}
<p>Loading databases and suggestions...</p>
{:else if sourceDatabases.length > 0}
<MappingTable
{sourceDatabases}
{targetDatabases}
{mappings}
{suggestions}
on:update={handleMappingUpdate}
/>
{:else if sourceEnvId && targetEnvId}
<button
on:click={fetchDatabases}
class="text-indigo-600 hover:text-indigo-500 text-sm font-medium"
>
Refresh Databases & Suggestions
</button>
{/if}
</div>
{/if}
<button
on:click={startMigration}
disabled={!sourceEnvId || !targetEnvId || sourceEnvId === targetEnvId || selectedDashboardIds.length === 0}
class="inline-flex items-center px-4 py-2 border border-transparent text-sm font-medium rounded-md shadow-sm text-white bg-indigo-600 hover:bg-indigo-700 focus:outline-none focus:ring-2 focus:ring-offset-2 focus:ring-indigo-500 disabled:bg-gray-400"
>
Start Migration
</button>
{/if}
</div>
<!-- Modals -->
<TaskLogViewer
bind:show={showLogViewer}
taskId={logViewerTaskId}
taskStatus={logViewerTaskStatus}
on:close={() => showLogViewer = false}
/>
<PasswordPrompt
bind:show={showPasswordPrompt}
databases={passwordPromptDatabases}
errorMessage={passwordPromptErrorMessage}
on:resume={handleResumeMigration}
on:cancel={() => showPasswordPrompt = false}
/>
<!-- [/SECTION] -->
<style>

120
frontend/src/services/taskService.js Normal file
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@@ -0,0 +1,120 @@
/**
* Service for interacting with the Task Management API.
*/
const API_BASE = '/api/tasks';
/**
* Fetch a list of tasks with pagination and optional status filter.
* @param {number} limit - Maximum number of tasks to return.
* @param {number} offset - Number of tasks to skip.
* @param {string|null} status - Filter by task status (optional).
* @returns {Promise<Array>} List of tasks.
*/
export async function getTasks(limit = 10, offset = 0, status = null) {
const params = new URLSearchParams({
limit: limit.toString(),
offset: offset.toString()
});
if (status) {
params.append('status', status);
}
const response = await fetch(`${API_BASE}?${params.toString()}`);
if (!response.ok) {
throw new Error(`Failed to fetch tasks: ${response.statusText}`);
}
return await response.json();
}
/**
* Fetch details for a specific task.
* @param {string} taskId - The ID of the task.
* @returns {Promise<Object>} Task details.
*/
export async function getTask(taskId) {
const response = await fetch(`${API_BASE}/${taskId}`);
if (!response.ok) {
throw new Error(`Failed to fetch task ${taskId}: ${response.statusText}`);
}
return await response.json();
}
/**
* Fetch logs for a specific task.
* @param {string} taskId - The ID of the task.
* @returns {Promise<Array>} List of log entries.
*/
export async function getTaskLogs(taskId) {
// Currently, logs are included in the task object, but we might have a separate endpoint later.
// For now, we fetch the task and return its logs.
// Or if we implement T017 (GET /api/tasks/{task_id}/logs), we would use that.
// The current backend implementation in tasks.py does NOT have a separate /logs endpoint yet.
// T017 is in Phase 3.
// So for now, we'll fetch the task.
const task = await getTask(taskId);
return task.logs || [];
}
/**
* Resume a task that is awaiting input (e.g., passwords).
* @param {string} taskId - The ID of the task.
* @param {Object} passwords - Map of database names to passwords.
* @returns {Promise<Object>} Updated task object.
*/
export async function resumeTask(taskId, passwords) {
const response = await fetch(`${API_BASE}/${taskId}/resume`, {
method: 'POST',
headers: {
'Content-Type': 'application/json'
},
body: JSON.stringify({ passwords })
});
if (!response.ok) {
const errorData = await response.json().catch(() => ({}));
throw new Error(errorData.detail || `Failed to resume task: ${response.statusText}`);
}
return await response.json();
}
/**
* Resolve a task that is awaiting mapping.
* @param {string} taskId - The ID of the task.
* @param {Object} resolutionParams - Resolution parameters.
* @returns {Promise<Object>} Updated task object.
*/
export async function resolveTask(taskId, resolutionParams) {
const response = await fetch(`${API_BASE}/${taskId}/resolve`, {
method: 'POST',
headers: {
'Content-Type': 'application/json'
},
body: JSON.stringify({ resolution_params: resolutionParams })
});
if (!response.ok) {
const errorData = await response.json().catch(() => ({}));
throw new Error(errorData.detail || `Failed to resolve task: ${response.statusText}`);
}
return await response.json();
}
/**
* Clear tasks based on status.
* @param {string|null} status - Filter by task status (optional).
*/
export async function clearTasks(status = null) {
const params = new URLSearchParams();
if (status) {
params.append('status', status);
}
const response = await fetch(`${API_BASE}?${params.toString()}`, {
method: 'DELETE'
});
if (!response.ok) {
throw new Error(`Failed to clear tasks: ${response.statusText}`);
}
}

13
frontend/src/types/dashboard.ts Normal file
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@@ -0,0 +1,13 @@
export interface DashboardMetadata {
id: number;
title: string;
last_modified: string;
status: string;
}
export interface DashboardSelection {
selected_ids: number[];
source_env_id: string;
target_env_id: string;
replace_db_config?: boolean;
}

11
frontend/vite.config.js
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@@ -6,13 +6,16 @@ export default defineConfig({
server: {
proxy: {
'/api': {
target: 'http://localhost:8000',
changeOrigin: true
target: 'http://127.0.0.1:8000',
changeOrigin: true,
secure: false,
rewrite: (path) => path.replace(/^\/api/, '/api')
},
'/ws': {
target: 'ws://localhost:8000',
target: 'ws://127.0.0.1:8000',
ws: true,
changeOrigin: true
changeOrigin: true,
secure: false
}
}
}

BIN
mappings.db Normal file
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Binary file not shown.

50
semantic_protocol.md
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@@ -11,8 +11,9 @@ This protocol standardizes the "Semantic Bridge" between the two languages using
## I. CORE REQUIREMENTS
1. **Causal Validity:** Semantic definitions (Contracts) must ALWAYS precede implementation code.
2. **Immutability:** Architectural decisions defined in the Module/Component Header are treated as immutable constraints.
3. **Format Compliance:** Output must strictly follow the `[DEF]` / `[/DEF]` anchor syntax for structure.
3. **Format Compliance:** Output must strictly follow the `[DEF:..:...]` / `[/DEF:...:...]` anchor syntax for structure.
4. **Logic over Assertion:** Contracts define the *logic flow*. Do not generate explicit `assert` statements unless requested. The code logic itself must inherently satisfy the Pre/Post conditions (e.g., via control flow, guards, or types).
5. **Fractal Complexity:** Modules and functions must adhere to strict size limits (~300 lines/module, ~30-50 lines/function) to maintain semantic focus.
---
@@ -25,13 +26,13 @@ Used to define the boundaries of Modules, Classes, Components, and Functions.
* **Python:**
* Start: `# [DEF:identifier:Type]`
* End: `# [/DEF:identifier]`
* End: `# [/DEF:identifier:Type]`
* **Svelte (Top-level):**
* Start: `<!-- [DEF:ComponentName:Component] -->`
* End: `<!-- [/DEF:ComponentName] -->`
* End: `<!-- [/DEF:ComponentName:Component] -->`
* **Svelte (Script/JS/TS):**
* Start: `// [DEF:funcName:Function]`
* End: `// [/DEF:funcName]`
* End: `// [/DEF:funcName:Function]`
**Types:** `Module`, `Component`, `Class`, `Function`, `Store`, `Action`.
@@ -63,7 +64,7 @@ Defines high-level dependencies.
# ... IMPLEMENTATION ...
# [/DEF:module_name]
# [/DEF:module_name:Module]
```
### 2. Svelte Component Header (`.svelte`)
@@ -81,20 +82,20 @@ Defines high-level dependencies.
<script lang="ts">
// [SECTION: IMPORTS]
// ...
// [/SECTION]
// [/SECTION: IMPORTS]
// ... LOGIC IMPLEMENTATION ...
</script>
<!-- [SECTION: TEMPLATE] -->
...
<!-- [/SECTION] -->
<!-- [/SECTION: TEMPLATE] -->
<style>
/* ... */
</style>
<!-- [/DEF:ComponentName] -->
<!-- [/DEF:ComponentName:Component] -->
```
---
@@ -122,7 +123,7 @@ def calculate_total(items: List[Item]) -> Decimal:
# Logic ensuring @POST
return total
# [/DEF:calculate_total]
# [/DEF:calculate_total:Function]
```
### 2. Svelte/JS Contract Style (JSDoc)
@@ -145,7 +146,7 @@ async function updateUserProfile(profileData) {
// ...
}
// [/DEF:updateUserProfile]
// [/DEF:updateUserProfile:Function]
```
---
@@ -154,21 +155,32 @@ async function updateUserProfile(profileData) {
Logs delineate the agent's internal state.
* **Python:** `logger.info(f"[{ANCHOR_ID}][{STATE}] Msg")`
* **Python:** MUST use a Context Manager (e.g., `with belief_scope("ANCHOR_ID"):`) to ensure state consistency and automatic handling of Entry/Exit/Error states.
* Manual logging (inside scope): `logger.info(f"[{ANCHOR_ID}][{STATE}] Msg")`
* **Svelte/JS:** `console.log(\`[${ANCHOR_ID}][${STATE}] Msg\`)`
**Required States:**
1. `Entry` (Start of block)
2. `Action` (Key business logic)
3. `Coherence:OK` (Logic successfully completed)
4. `Coherence:Failed` (Error handling)
5. `Exit` (End of block)
1. `Entry` (Start of block - Auto-logged by Context Manager)
2. `Action` (Key business logic - Manual log)
3. `Coherence:OK` (Logic successfully completed - Auto-logged by Context Manager)
4. `Coherence:Failed` (Exception/Error - Auto-logged by Context Manager)
5. `Exit` (End of block - Auto-logged by Context Manager)
---
## VI. GENERATION WORKFLOW
## VI. FRACTAL COMPLEXITY LIMIT
To maintain semantic coherence and avoid "Attention Sink" issues:
* **Module Size:** If a Module body exceeds ~300 lines (or logical complexity), it MUST be refactored into sub-modules or a package structure.
* **Function Size:** Functions should fit within a standard attention "chunk" (approx. 30-50 lines). If larger, logic MUST be decomposed into helper functions with their own contracts.
This ensures every vector embedding remains sharp and focused.
---
## VII. GENERATION WORKFLOW
1. **Context Analysis:** Identify language (Python vs Svelte) and Architecture Layer.
2. **Scaffolding:** Generate the `[DEF]` Anchors and Header/Contract **before** writing any logic.
2. **Scaffolding:** Generate the `[DEF:...:...]` Anchors and Header/Contract **before** writing any logic.
3. **Implementation:** Write the code. Ensure the code logic handles the `@PRE` conditions (e.g., via `if/return` or guards) and satisfies `@POST` conditions naturally. **Do not write explicit `assert` statements unless debugging mode is requested.**
4. **Closure:** Ensure every `[DEF]` is closed with `[/DEF]` to accumulate semantic context.
4. **Closure:** Ensure every `[DEF:...:...]` is closed with `[/DEF:...:...]` to accumulate semantic context.

36
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@@ -0,0 +1,36 @@
# Specification Quality Checklist: Migration Plugin Dashboard Grid
**Purpose**: Validate specification completeness and quality before proceeding to planning
**Created**: 2025-12-27
**Feature**: [specs/007-migration-dashboard-grid/spec.md](../spec.md)
## Content Quality
- [x] No implementation details (languages, frameworks, APIs)
- [x] Focused on user value and business needs
- [x] Written for non-technical stakeholders
- [x] All mandatory sections completed
## Requirement Completeness
- [x] No [NEEDS CLARIFICATION] markers remain
- [x] Requirements are testable and unambiguous
- [x] Success criteria are measurable
- [x] Success criteria are technology-agnostic (no implementation details)
- [x] All acceptance scenarios are defined
- [x] Edge cases are identified
- [x] Scope is clearly bounded
- [x] Dependencies and assumptions identified
## Feature Readiness
- [x] All functional requirements have clear acceptance criteria
- [x] User scenarios cover primary flows
- [x] Feature meets measurable outcomes defined in Success Criteria
- [x] No implementation details leak into specification
## Notes
- The specification clearly defines the UI requirements for the dashboard selection grid.
- "Superset API" is mentioned as the source of truth, which is acceptable as it defines the data boundary.
- Success criteria include specific performance metrics (<200ms filtering).

58
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@@ -0,0 +1,58 @@
# API Contracts: Migration Dashboard Grid
## Endpoints
### 1. List Dashboards
**Method**: `GET`
**Path**: `/api/environments/{env_id}/dashboards`
**Purpose**: Fetch all dashboards from the specified environment for the grid.
**Request Parameters**:
- `env_id` (path): The ID of the environment to fetch from.
**Response**:
- **200 OK**:
```json
[
{
"id": 123,
"title": "Sales Dashboard",
"last_modified": "2023-10-27T10:00:00Z",
"status": "published"
},
{
"id": 124,
"title": "Draft Metrics",
"last_modified": "2023-10-26T15:30:00Z",
"status": "draft"
}
]
```
- **404 Not Found**: Environment not found.
- **500 Internal Server Error**: Superset API error.
## Components (Frontend)
### DashboardGrid
**Props**:
- `dashboards`: `DashboardMetadata[]` - List of dashboards to display.
- `selectedIds`: `number[]` - IDs of currently selected dashboards.
**Events**:
- `selectionChanged`: Emitted when selection changes. Payload: `number[]` (new list of selected IDs).
**State**:
- `filterText`: string - Current filter text.
- `currentPage`: number - Current page index (0-based).
- `pageSize`: number - Items per page (default 20).
- `sortColumn`: string - 'title' | 'last_modified' | 'status'.
- `sortDirection`: 'asc' | 'desc'.
## Superset Client Extension
### `get_dashboards_summary`
**Signature**: `def get_dashboards_summary(self) -> List[Dict]`
**Purpose**: Fetches dashboard metadata optimized for the grid.
**Implementation Detail**:
- Calls `GET /api/v1/dashboard/` with query params `q=(columns:!(id,dashboard_title,changed_on_utc,published))`.
- Maps response fields to `DashboardMetadata` schema.

25
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@@ -0,0 +1,25 @@
# Data Model: Migration Dashboard Grid
## Entities
### DashboardMetadata
**Source**: Superset API (`/api/v1/dashboard/`)
**Purpose**: Represents a dashboard available for migration.
| Field | Type | Description | Source Mapping |
|-------|------|-------------|----------------|
| `id` | Integer | Unique identifier | `id` |
| `title` | String | Display name of the dashboard | `dashboard_title` |
| `last_modified` | String (ISO 8601) | Timestamp of last modification | `changed_on_utc` |
| `status` | Enum ('published', 'draft') | Publication status | `published` (boolean) -> 'published'/'draft' |
## Value Objects
### DashboardSelection
**Purpose**: Represents the user's selection of dashboards to migrate.
| Field | Type | Description |
|-------|------|-------------|
| `selected_ids` | List[Integer] | List of dashboard IDs selected for migration |
| `source_env_id` | String | ID of the source environment |
| `target_env_id` | String | ID of the target environment |

85
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@@ -0,0 +1,85 @@
# Implementation Plan: [FEATURE]
**Branch**: `[###-feature-name]` | **Date**: [DATE] | **Spec**: [link]
**Input**: Feature specification from `/specs/[###-feature-name]/spec.md`
**Note**: This template is filled in by the `/speckit.plan` command. See `.specify/templates/commands/plan.md` for the execution workflow.
## Summary
[Extract from feature spec: primary requirement + technical approach from research]
## Technical Context
**Language/Version**: Python 3.9+ (Backend), Node.js 18+ (Frontend)
**Primary Dependencies**: FastAPI, SvelteKit, Tailwind CSS, Pydantic, Superset API
**Storage**: N/A (Superset API integration - read-only for metadata)
**Testing**: pytest (Backend), vitest (Frontend - inferred)
**Target Platform**: Linux server / Containerized
**Project Type**: web application (Backend + Frontend)
**Performance Goals**: Client-side filtering < 200ms for 100+ items
**Constraints**: Must handle large lists via pagination (Client-side). Spec says "Client-side (Fetch all, filter locally)" and "Pagination (e.g., 20 per page)". *RESOLVED: Fetch all, paginate locally.*
**Scale/Scope**: ~100s of dashboards per environment.
## Constitution Check
*GATE: Must pass before Phase 0 research. Re-check after Phase 1 design.*
- [x] **Causal Validity**: Contracts (API/Data Model) defined before implementation.
- [x] **Immutability**: Module headers (`[DEF]`) preserved/added.
- [x] **Semantic Format**: All new code uses `[DEF]` anchors and metadata.
- [x] **Fractal Complexity**: New components (Grid) kept modular; `SupersetClient` extensions are small methods.
**Status**: PASSED
## Project Structure
### Documentation (this feature)
```text
specs/[###-feature]/
├── plan.md # This file (/speckit.plan command output)
├── research.md # Phase 0 output (/speckit.plan command)
├── data-model.md # Phase 1 output (/speckit.plan command)
├── quickstart.md # Phase 1 output (/speckit.plan command)
├── contracts/ # Phase 1 output (/speckit.plan command)
└── tasks.md # Phase 2 output (/speckit.tasks command - NOT created by /speckit.plan)
```
### Source Code (repository root)
```text
backend/
├── src/
│ ├── api/
│ │ └── routes/
│ │ └── environments.py # Update to support dashboard fetching
│ ├── core/
│ │ └── superset_client.py # Update to fetch extended dashboard metadata
│ └── models/
│ └── dashboard.py # New model for Dashboard metadata
└── tests/
└── test_superset_client.py
frontend/
├── src/
│ ├── components/
│ │ ├── DashboardGrid.svelte # New component
│ │ └── Pagination.svelte # New component (if not exists)
│ ├── routes/
│ │ └── migration/
│ │ └── +page.svelte # Update to use DashboardGrid
│ └── types/
│ └── dashboard.ts # New type definitions
```
**Structure Decision**: Standard Web Application structure. Backend updates to `SupersetClient` and API routes to serve dashboard metadata. Frontend updates to include a new `DashboardGrid` component and integrate it into the migration flow.
## Complexity Tracking
> **Fill ONLY if Constitution Check has violations that must be justified**
| Violation | Why Needed | Simpler Alternative Rejected Because |
|-----------|------------|-------------------------------------|
| [e.g., 4th project] | [current need] | [why 3 projects insufficient] |
| [e.g., Repository pattern] | [specific problem] | [why direct DB access insufficient] |

31
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@@ -0,0 +1,31 @@
# Quickstart: Migration Dashboard Grid
## Prerequisites
- Backend running (`uvicorn backend.src.app:app --reload`)
- Frontend running (`npm run dev`)
- Superset instance accessible and configured in `config.yaml`
## Steps to Verify
1. **Navigate to Migration Page**:
- Open browser to `http://localhost:5173/migration`
- Select a Source Environment from the dropdown.
2. **Verify Dashboard Grid**:
- The grid should appear below the environment selectors.
- It should list dashboards with columns: Title, Last Modified, Status.
- Status pills should be green (Published) or gray (Draft).
3. **Test Filtering**:
- Type in the "Search dashboards..." input.
- The list should filter instantly (client-side).
4. **Test Pagination**:
- If >20 dashboards, check pagination controls at the bottom.
- Navigate to next page.
5. **Test Selection**:
- Select a few dashboards.
- Change filter (hide selected).
- Clear filter -> Selection should persist.
- Click "Select All" -> Should select all matching current filter.

48
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@@ -0,0 +1,48 @@
# Research: Migration Dashboard Grid
## Unknowns & Clarifications
### 1. Pagination vs Client-side Filtering
**Context**: The spec mentions "Client-side (Fetch all, filter locally)" (FR-004) but also "Pagination (e.g., 20 per page)" (FR-008).
**Resolution**:
- We will fetch ALL dashboard metadata from the Superset API in one go. The metadata (ID, Title, Status, Date) is lightweight. Even for 1000 dashboards, the payload is small (~100KB).
- **Client-side Pagination**: We will implement pagination purely on the frontend. This satisfies "Pagination" for UI performance/usability while keeping the "Fetch all" requirement for fast filtering.
- **Decision**: Fetch all, paginate locally.
### 2. Superset API for Dashboard Metadata
**Context**: Need to fetch `title`, `changed_on`, `published`.
**Research**:
- Superset API endpoint: `/api/v1/dashboard/`
- Standard response includes `result` array with `dashboard_title`, `changed_on_utc`, `published`.
- **Decision**: Use `GET /api/v1/dashboard/` with `q` parameter to select specific columns to minimize payload.
- Columns: `id`, `dashboard_title`, `changed_on_utc`, `published`.
### 3. Grid Component
**Context**: Need a grid with sorting, filtering, and selection.
**Options**:
- **Custom Svelte Table**: Lightweight, full control.
- **3rd Party Lib (e.g. svelte-headless-table)**: Powerful but maybe overkill.
- **Decision**: **Custom Svelte Component** (`DashboardGrid.svelte`).
- Why: Requirements are specific (Select All across pages, custom status pill, specific columns). A custom component using standard HTML table + Tailwind is simple and maintainable for this scope.
## Design Decisions
### Data Model
- **Dashboard**:
- `id`: string (or int, depends on Superset version, usually int for dashboards but we treat as ID)
- `title`: string
- `last_modified`: string (ISO date)
- `status`: 'published' | 'draft'
### Architecture
- **Backend**:
- `SupersetClient.get_dashboards()`: Fetches list from Superset.
- `GET /api/environments/{id}/dashboards`: Proxy endpoint.
- **Frontend**:
- `DashboardGrid.svelte`: Handles display, sorting, pagination, and selection logic.
- `migration/+page.svelte`: Orchestrates fetching and passes data to Grid.
### UX/UI
- **Status Column**: Badge (Green for Published, Gray for Draft).
- **Selection**: Checkbox in first column.
- **Pagination**: Simple "Prev 1 of 5 Next" controls at bottom.

81
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@@ -0,0 +1,81 @@
# Feature Specification: Migration Plugin Dashboard Grid
**Feature Branch**: `007-migration-dashboard-grid`
**Created**: 2025-12-27
**Status**: Draft
**Input**: User description: "Я хочу доработать плагин миграции. Выбор дашбордов должен осуществляться из списка-грида, с возможностью его фильтровать по наименованию. В гриде должны быть поля наименования дашборда, дата последнего изменения дашборда, плюс статус - опубликован или черновик"
## Clarifications
### Session 2025-12-27
- Q: How should the grid handle data loading and filtering to ensure performance and usability? → A: **Client-side** (Fetch all, filter locally).
- Q: Should the grid include a "Select All" checkbox in the header for bulk operations? → A: **Yes, include "Select All"**.
- Q: How should the grid handle large lists of dashboards (e.g., >50)? → A: **Pagination** (e.g., 20 per page).
- Q: Does the "Select All" checkbox select only the currently visible page of dashboards, or all dashboards that match the current filter? → A: **All matching filter** (Selects all filtered results, not just the visible page).
- Q: What should happen if the user changes the filter while some items are already selected? → A: **Preserve selection** (Selected items remain selected even if hidden by new filter).
- Q: What should be the default sort order when the dashboard grid first loads? → A: **Last Modified Date (Newest first)**.
- Q: Should the grid include an "Owners" column to help distinguish dashboards with the same name? → A: **Yes, include Owners**.
- Q: How should the "Owners" column display multiple owners? → A: **Show first owner + count (e.g., "admin + 2") with tooltip**.
- Q: How should the "Status" (Draft/Published) be visually represented in the grid? → A: **Colored Badges/Chips**.
- Q: Should the grid include a "Preview" action (e.g., link to open the dashboard in Superset)? → A: **Yes, open in new tab**.
## User Scenarios & Testing *(mandatory)*
### User Story 1 - Advanced Dashboard Selection (Priority: P1)
As a migration engineer, I want to select dashboards from a detailed grid view that includes status and modification dates, so that I can easily distinguish between draft/published versions and identify the most recent changes before migrating.
**Why this priority**: Current selection mechanisms (likely simple dropdowns or lists) lack critical context (status, freshness), making it error-prone to select the right assets for migration.
**Independent Test**: Can be tested by connecting to a Superset instance with known dashboards (some drafts, some published) and verifying the grid correctly displays their metadata and allows filtering/selection.
**Acceptance Scenarios**:
1. **Given** I have selected a source environment in the migration plugin, **When** the dashboard list loads, **Then** I see a grid view displaying "Dashboard Name", "Last Modified", and "Status" columns.
2. **Given** the dashboard grid is displayed, **When** I type "Sales" into the filter input, **Then** the grid updates to show only dashboards containing "Sales" in their name.
3. **Given** a dashboard is in "Draft" state in Superset, **When** it appears in the grid, **Then** the Status column clearly indicates "Draft" (vs "Published").
4. **Given** I want to migrate multiple dashboards, **When** I check the boxes next to several rows, **Then** they are added to the selection for the migration job.
5. **Given** the grid is populated, **When** I click the "Select All" checkbox in the header, **Then** all visible dashboards are selected.
---
### Edge Cases
- **Empty Environment**: What happens if the source environment has no dashboards? System should display a "No dashboards found" message in the grid area.
- **Missing Metadata**: What if the Superset API returns null for `changed_on` or `published`? System should display "N/A" or a default value (e.g., "Unknown") rather than crashing.
- **Large Dataset**: How does the grid handle 1000+ dashboards? The grid MUST use pagination (default 20 items per page) to manage display density.
## Requirements *(mandatory)*
### Functional Requirements
- **FR-001**: The system MUST fetch extended metadata for dashboards from the Superset API, specifically: Title, Last Modified Date (`changed_on`), and Published Status (`published`).
- **FR-002**: The Migration Plugin UI MUST display a data grid component to list these dashboards.
- **FR-003**: The grid MUST include sortable columns for:
- Name (Dashboard Title)
- Last Modified (Date/Time)
- Status (Published/Draft)
- Owners (List of owner names)
- **FR-004**: The UI MUST provide a text filter input that filters the grid rows by Dashboard Name in real-time using client-side logic (fetching all dashboards once).
- **FR-005**: The grid MUST support multi-row selection to allow migrating batches of dashboards.
- **FR-006**: The selection state MUST be passed to the migration execution logic when the user initiates the migration.
- **FR-007**: The grid header MUST include a "Select All" checkbox. When checked, it MUST select ALL dashboards matching the current filter criteria (spanning across all pages), not just the currently visible page.
- **FR-008**: The grid MUST support pagination, displaying 20 rows per page by default, with navigation controls (Next/Prev/Page numbers).
- **FR-009**: The selection state MUST be preserved across filter changes. Items selected before a filter change MUST remain selected even if they are hidden by the new filter.
### Key Entities
- **Dashboard Metadata**:
- `id`: Unique identifier from Superset.
- `title`: Display name.
- `changed_on`: Timestamp of last edit.
- `is_published`: Boolean status.
- `owners`: List of owner objects/names.
## Success Criteria *(mandatory)*
### Measurable Outcomes
- **SC-001**: Users can identify the status (Draft/Published) of any dashboard in the list with 100% accuracy.
- **SC-002**: Filtering a list of 100 dashboards takes less than 200ms to update the view.
- **SC-003**: Users can successfully select and initiate migration for a mix of Draft and Published dashboards in a single operation.

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---
description: "Architecture tasks for Migration Plugin Dashboard Grid"
---
# Architecture Tasks: Migration Plugin Dashboard Grid
**Role**: Architect Agent
**Goal**: Define the "What" and "Why" (Contracts, Scaffolding, Models) before implementation.
## Phase 1: Setup & Models
- [x] A001 Define contracts/scaffolding for migration route in backend/src/api/routes/migration.py
- [x] A002 Define contracts/scaffolding for Dashboard model in backend/src/models/dashboard.py
## Phase 2: User Story 1 - Advanced Dashboard Selection
- [x] A003 [US1] Define contracts/scaffolding for SupersetClient extensions in backend/src/core/superset_client.py
- [x] A004 [US1] Define contracts/scaffolding for GET /api/migration/dashboards endpoint in backend/src/api/routes/migration.py
- [x] A005 [US1] Define contracts/scaffolding for DashboardGrid component in frontend/src/components/DashboardGrid.svelte
- [x] A006 [US1] Define contracts/scaffolding for migration page integration in frontend/src/routes/migration/+page.svelte
- [x] A007 [US1] Define contracts/scaffolding for POST /api/migration/execute endpoint in backend/src/api/routes/migration.py
## Handover Checklist
- [x] All new files created with `[DEF]` anchors
- [x] All functions/classes have `@PURPOSE`, `@PRE`, `@POST` tags
- [x] No "naked code" (logic outside of anchors)
- [x] `tasks-dev.md` is ready for the Developer Agent

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---
description: "Development tasks for Migration Plugin Dashboard Grid"
---
# Development Tasks: Migration Plugin Dashboard Grid
**Role**: Developer Agent
**Goal**: Implement the logic defined in the architecture contracts.
## Phase 1: Backend Implementation
- [x] D001 [US1] Implement `SupersetClient.get_dashboards_summary` in `backend/src/core/superset_client.py`
- **Context**: Fetch dashboards from Superset API with specific columns (`id`, `dashboard_title`, `changed_on_utc`, `published`).
- **Input**: None (uses instance config).
- **Output**: List of dictionaries mapped to `DashboardMetadata` fields.
- [x] D002 [US1] Implement `get_dashboards` endpoint in `backend/src/api/routes/migration.py`
- **Context**: Initialize `SupersetClient` with environment config and call `get_dashboards_summary`.
- **Input**: `env_id` (path param).
- **Output**: JSON list of `DashboardMetadata`.
- [x] D003 [US1] Implement `execute_migration` endpoint in `backend/src/api/routes/migration.py`
- **Context**: Validate selection and initiate migration task (placeholder or TaskManager integration).
- **Input**: `DashboardSelection` body.
- **Output**: Task ID and status message.
## Phase 2: Frontend Implementation
- [x] D004 [US1] Implement `DashboardGrid.svelte` logic
- **Context**: `frontend/src/components/DashboardGrid.svelte`
- **Requirements**:
- Client-side pagination (default 20 items).
- Sorting by Title, Last Modified, Status.
- Text filtering (search by title).
- Multi-selection with "Select All" capability.
- Emit selection events.
- [x] D005 [US1] Integrate `DashboardGrid` into Migration Page
- **Context**: `frontend/src/routes/migration/+page.svelte`
- **Requirements**:
- Fetch dashboards when `sourceEnvId` changes.
- Bind `dashboards` data to `DashboardGrid`.
- Bind `selectedDashboardIds`.
- Update `startMigration` to send `selectedDashboardIds` to backend.
## Phase 3: Verification
- [ ] D006 Verify Dashboard Grid functionality (Sort, Filter, Page).
- [ ] D007 Verify API integration (Fetch dashboards, Start migration).

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# Specification Quality Checklist: Migration UI Improvements
**Purpose**: Validate specification completeness and quality before proceeding to planning
**Created**: 2025-12-27
**Feature**: [specs/008-migration-ui-improvements/spec.md](specs/008-migration-ui-improvements/spec.md)
## Content Quality
- [x] No implementation details (languages, frameworks, APIs)
- [x] Focused on user value and business needs
- [x] Written for non-technical stakeholders
- [x] All mandatory sections completed
## Requirement Completeness
- [x] No [NEEDS CLARIFICATION] markers remain
- [x] Requirements are testable and unambiguous
- [x] Success criteria are measurable
- [x] Success criteria are technology-agnostic (no implementation details)
- [x] All acceptance scenarios are defined
- [x] Edge cases are identified
- [x] Scope is clearly bounded
- [x] Dependencies and assumptions identified
## Feature Readiness
- [x] All functional requirements have clear acceptance criteria
- [x] User scenarios cover primary flows
- [x] Feature meets measurable outcomes defined in Success Criteria
- [x] No implementation details leak into specification
## Notes
- The specification addresses the user's request for task history, logs, and interactive password resolution.
- Assumptions are made about task persistence and sequential password prompts for multiple databases.

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# API Contracts: Migration UI Improvements
**Date**: 2025-12-27 | **Status**: Implemented
## Overview
This document defines the API contracts for the Migration UI Improvements feature. All endpoints follow RESTful conventions and use standard HTTP status codes.
## Base URL
`/api/` - All endpoints are relative to the API base URL
## Authentication
All endpoints require authentication using the existing session mechanism.
## Endpoints
### 1. List Migration Tasks
**Endpoint**: `GET /api/tasks`
**Purpose**: Retrieve a paginated list of migration tasks
**Parameters**:
```
limit: integer (query, optional) - Number of tasks to return (default: 10, max: 50)
offset: integer (query, optional) - Pagination offset (default: 0)
status: string (query, optional) - Filter by task status (PENDING, RUNNING, SUCCESS, FAILED, AWAITING_INPUT, AWAITING_MAPPING)
```
**Response**: `200 OK`
**Content-Type**: `application/json`
**Response Body**:
```json
{
"tasks": [
{
"id": "string (uuid)",
"type": "string",
"status": "string (enum)",
"start_time": "string (iso8601)",
"end_time": "string (iso8601) | null",
"requires_input": "boolean"
}
],
"total": "integer",
"limit": "integer",
"offset": "integer"
}
```
**Example Request**:
```
GET /api/tasks?limit=5&offset=0
```
**Example Response**:
```json
{
"tasks": [
{
"id": "550e8400-e29b-41d4-a716-446655440000",
"type": "migration",
"status": "RUNNING",
"start_time": "2025-12-27T09:47:12.000Z",
"end_time": null,
"requires_input": false
},
{
"id": "550e8400-e29b-41d4-a716-446655440001",
"type": "migration",
"status": "AWAITING_INPUT",
"start_time": "2025-12-27T09:45:00.000Z",
"end_time": null,
"requires_input": true
}
],
"total": 2,
"limit": 5,
"offset": 0
}
```
**Error Responses**:
- `401 Unauthorized` - Authentication required
- `400 Bad Request` - Invalid parameters
### 2. Get Task Logs
**Endpoint**: `GET /tasks/{task_id}/logs`
**Purpose**: Retrieve detailed logs for a specific task
**Parameters**: None
**Response**: `200 OK`
**Content-Type**: `application/json`
**Response Body**:
```json
{
"task_id": "string (uuid)",
"status": "string (enum)",
"logs": [
{
"timestamp": "string (iso8601)",
"level": "string",
"message": "string",
"context": "object | null"
}
]
}
```
**Example Request**:
```
GET /api/tasks/550e8400-e29b-41d4-a716-446655440001/logs
```
**Example Response**:
```json
{
"task_id": "550e8400-e29b-41d4-a716-446655440001",
"status": "AWAITING_INPUT",
"logs": [
{
"timestamp": "2025-12-27T09:45:00.000Z",
"level": "INFO",
"message": "Starting migration",
"context": null
},
{
"timestamp": "2025-12-27T09:47:12.000Z",
"level": "ERROR",
"message": "API error during upload",
"context": {
"error": "Must provide a password for the database",
"database": "PostgreSQL"
}
}
]
}
```
**Error Responses**:
- `401 Unauthorized` - Authentication required
- `404 Not Found` - Task not found
- `403 Forbidden` - Access denied to this task
### 3. Resume Task with Input
**Endpoint**: `POST /tasks/{task_id}/resume`
**Purpose**: Provide required input and resume a paused task
**Request Body**:
```json
{
"passwords": {
"database_name": "password"
}
}
```
**Response**: `200 OK`
**Content-Type**: `application/json`
**Response Body**:
```json
{
"success": true,
"message": "Task resumed successfully"
}
```
**Example Request**:
```
POST /api/tasks/550e8400-e29b-41d4-a716-446655440001/resume
Content-Type: application/json
{
"passwords": {
"PostgreSQL": "securepassword123"
}
}
```
**Example Response**:
```json
{
"success": true,
"message": "Task resumed successfully"
}
```
**Error Responses**:
- `401 Unauthorized` - Authentication required
- `404 Not Found` - Task not found
- `400 Bad Request` - Invalid request body or missing required fields
- `409 Conflict` - Task not in AWAITING_INPUT state or already completed
- `422 Unprocessable Entity` - Invalid password provided
### 4. Get Task Details (Optional)
**Endpoint**: `GET /tasks/{task_id}`
**Purpose**: Get detailed information about a specific task
**Parameters**: None
**Response**: `200 OK`
**Content-Type**: `application/json`
**Response Body**:
```json
{
"id": "string (uuid)",
"type": "string",
"status": "string (enum)",
"start_time": "string (iso8601)",
"end_time": "string (iso8601) | null",
"requires_input": "boolean",
"input_request": "object | null"
}
```
**Example Response**:
```json
{
"id": "550e8400-e29b-41d4-a716-446655440001",
"type": "migration",
"status": "AWAITING_INPUT",
"start_time": "2025-12-27T09:45:00.000Z",
"end_time": null,
"requires_input": true,
"input_request": {
"type": "database_password",
"databases": ["PostgreSQL"],
"error_message": "Must provide a password for the database"
}
}
```
## Data Types
### TaskStatus Enum
```
PENDING
RUNNING
SUCCESS
FAILED
AWAITING_INPUT
```
### LogLevel Enum
```
INFO
WARNING
ERROR
DEBUG
```
## Error Handling
### Standard Error Format
```json
{
"error": {
"code": "string",
"message": "string",
"details": "object | null"
}
}
```
### Common Error Codes
- `invalid_task_id`: Task ID is invalid or not found
- `task_not_awaiting_input`: Task is not in AWAITING_INPUT state
- `invalid_password`: Provided password is invalid
- `unauthorized`: Authentication required
- `bad_request`: Invalid request parameters
## WebSocket Integration
### Task Status Updates
**Channel**: `/ws/tasks/{task_id}/status`
**Message Format**:
```json
{
"event": "status_update",
"task_id": "string (uuid)",
"status": "string (enum)",
"timestamp": "string (iso8601)"
}
```
### Task Log Updates
**Channel**: `/ws/tasks/{task_id}/logs`
**Message Format**:
```json
{
"event": "log_update",
"task_id": "string (uuid)",
"log": {
"timestamp": "string (iso8601)",
"level": "string",
"message": "string",
"context": "object | null"
}
}
```
## Rate Limiting
- Maximum 10 requests per minute per user for task list endpoint
- Maximum 30 requests per minute per user for task details/logs endpoints
- No rate limiting for WebSocket connections
## Versioning
All endpoints are versioned using the `Accept` header:
- `Accept: application/vnd.api.v1+json` - Current version
## Security Considerations
1. **Authentication**: All endpoints require valid session authentication
2. **Authorization**: Users can only access their own tasks
3. **Password Handling**: Passwords are not stored permanently, only used for immediate task resumption
4. **Input Validation**: All inputs are validated according to defined schemas
5. **Rate Limiting**: Prevents abuse of API endpoints
## Implementation Notes
1. **Pagination**: Default limit of 10 tasks, maximum of 50
2. **Sorting**: Tasks are sorted by start_time descending by default
3. **Caching**: Task list responses can be cached for 5 seconds
4. **WebSocket**: Use existing WebSocket infrastructure for real-time updates
5. **Error Recovery**: Failed task resumptions can be retried with corrected input
## OpenAPI Specification
A complete OpenAPI 3.0 specification is available in the repository at `specs/008-migration-ui-improvements/contracts/openapi.yaml`.

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# Data Model: Migration UI Improvements
**Date**: 2025-12-27 | **Status**: Draft
## Entities
### 1. Task (Extended)
**Source**: `backend/src/core/task_manager.py`
**Fields**:
- `id: UUID` - Unique task identifier
- `type: str` - Task type (e.g., "migration")
- `status: TaskStatus` - Current status (extended enum)
- `start_time: datetime` - When task was created
- `end_time: datetime | None` - When task completed (if applicable)
- `logs: List[LogEntry]` - Task execution logs
- `context: Dict` - Task-specific data
- `input_required: bool` - Whether task is awaiting user input
- `input_request: Dict | None` - Details about required input (for AWAITING_INPUT state)
**New Status Values**:
- `AWAITING_INPUT` - Task is paused waiting for user input (e.g., password)
**Relationships**:
- Has many: `LogEntry`
- Belongs to: `Migration` (if migration task)
**Validation Rules**:
- `id` must be unique and non-null
- `status` must be valid TaskStatus enum value
- `start_time` must be set on creation
- `input_request` required when status is `AWAITING_INPUT`
**State Transitions**:
```mermaid
graph LR
PENDING --> RUNNING
RUNNING --> SUCCESS
RUNNING --> FAILED
RUNNING --> AWAITING_INPUT
AWAITING_INPUT --> RUNNING
AWAITING_INPUT --> FAILED
```
### 2. LogEntry
**Source**: Existing in codebase
**Fields**:
- `timestamp: datetime` - When log entry was created
- `level: str` - Log level (INFO, WARNING, ERROR, etc.)
- `message: str` - Log message
- `context: Dict | None` - Additional context data
**Validation Rules**:
- `timestamp` must be set
- `level` must be valid log level
- `message` must be non-empty
### 3. DatabasePasswordRequest (New)
**Source**: New entity for password prompts
**Fields**:
- `database_name: str` - Name of database requiring password
- `connection_string: str | None` - Partial connection string (without password)
- `error_message: str | None` - Original error message
- `attempt_count: int` - Number of password attempts
**Validation Rules**:
- `database_name` must be non-empty
- `attempt_count` must be >= 0
**Relationships**:
- Embedded in: `Task.input_request`
### 4. TaskListResponse (API DTO)
**Fields**:
- `tasks: List[TaskSummary]` - List of task summaries
- `total: int` - Total number of tasks
- `limit: int` - Pagination limit
- `offset: int` - Pagination offset
### 5. TaskSummary (API DTO)
**Fields**:
- `id: UUID` - Task ID
- `type: str` - Task type
- `status: str` - Current status
- `start_time: datetime` - Start time
- `end_time: datetime | None` - End time (if completed)
- `requires_input: bool` - Whether task needs user input
### 6. TaskLogResponse (API DTO)
**Fields**:
- `task_id: UUID` - Task ID
- `logs: List[LogEntry]` - Task logs
- `status: str` - Current task status
### 7. PasswordPromptRequest (API DTO)
**Fields**:
- `task_id: UUID` - Task ID
- `passwords: Dict[str, str]` - Database name to password mapping
**Validation Rules**:
- `task_id` must exist and be in AWAITING_INPUT state
- All required databases must be provided
## API Contracts
### 1. GET /api/tasks - List Tasks
**Purpose**: Retrieve list of recent migration tasks
**Parameters**:
- `limit: int` (query, optional) - Pagination limit (default: 10)
- `offset: int` (query, optional) - Pagination offset (default: 0)
- `status: str` (query, optional) - Filter by status
**Response**: `TaskListResponse`
**Example**:
```json
{
"tasks": [
{
"id": "abc-123",
"type": "migration",
"status": "RUNNING",
"start_time": "2025-12-27T09:47:12Z",
"end_time": null,
"requires_input": false
}
],
"total": 1,
"limit": 10,
"offset": 0
}
```
### 2. GET /api/tasks/{task_id}/logs - Get Task Logs
**Purpose**: Retrieve detailed logs for a specific task
**Parameters**: None
**Response**: `TaskLogResponse`
**Example**:
```json
{
"task_id": "abc-123",
"status": "AWAITING_INPUT",
"logs": [
{
"timestamp": "2025-12-27T09:47:12Z",
"level": "ERROR",
"message": "Must provide a password for the database",
"context": {
"database": "PostgreSQL"
}
}
]
}
```
### 3. POST /api/tasks/{task_id}/resume - Resume Task with Input
**Purpose**: Provide required input and resume a paused task
**Request Body**: `PasswordPromptRequest`
**Response**:
```json
{
"success": true,
"message": "Task resumed successfully"
}
```
**Error Responses**:
- `404 Not Found` - Task not found
- `400 Bad Request` - Invalid input or task not in AWAITING_INPUT state
- `409 Conflict` - Task already completed or failed
## Database Schema Changes
### Task Persistence (SQLite)
**Table**: `persistent_tasks`
**Columns**:
- `id TEXT PRIMARY KEY` - Task ID
- `status TEXT NOT NULL` - Task status
- `created_at TEXT NOT NULL` - Creation timestamp
- `updated_at TEXT NOT NULL` - Last update timestamp
- `input_request JSON` - Serialized input request data
- `context JSON` - Serialized task context
**Indexes**:
- `idx_status` on `status` column
- `idx_created_at` on `created_at` column
## Event Flow
### Normal Task Execution
```mermaid
sequenceDiagram
participant UI
participant API
participant TaskManager
participant MigrationPlugin
UI->>API: Start migration
API->>TaskManager: Create task
TaskManager->>MigrationPlugin: Execute
MigrationPlugin->>TaskManager: Update status (RUNNING)
MigrationPlugin->>TaskManager: Add logs
MigrationPlugin->>TaskManager: Update status (SUCCESS/FAILED)
```
### Task with Password Requirement
```mermaid
sequenceDiagram
participant UI
participant API
participant TaskManager
participant MigrationPlugin
UI->>API: Start migration
API->>TaskManager: Create task
TaskManager->>MigrationPlugin: Execute
MigrationPlugin->>TaskManager: Update status (RUNNING)
MigrationPlugin->>TaskManager: Detect password error
TaskManager->>TaskManager: Update status (AWAITING_INPUT)
TaskManager->>API: Persist task (if needed)
API->>UI: Task status update
UI->>API: Get task logs
API->>UI: Return logs with error
UI->>User: Show password prompt
User->>UI: Provide password
UI->>API: POST /tasks/{id}/resume
API->>TaskManager: Resume task with password
TaskManager->>MigrationPlugin: Continue execution
MigrationPlugin->>TaskManager: Update status (RUNNING)
MigrationPlugin->>TaskManager: Complete task
```
## Validation Rules
### Task Creation
- Task ID must be unique
- Start time must be set
- Initial status must be PENDING
### Task State Transitions
- Only RUNNING tasks can transition to AWAITING_INPUT
- Only AWAITING_INPUT tasks can be resumed
- Completed tasks (SUCCESS/FAILED) cannot be modified
### Password Input
- All required databases must be provided
- Passwords must meet minimum complexity requirements
- Invalid passwords trigger new error and prompt again
## Implementation Notes
1. **Task Persistence**: Only tasks in AWAITING_INPUT state will be persisted to handle backend restarts
2. **Error Detection**: Specific pattern matching for Superset "Must provide a password" errors
3. **UI Integration**: Real-time updates using existing WebSocket infrastructure
4. **Security**: Passwords are not permanently stored, only used for immediate task resumption
5. **Performance**: Basic pagination for task history to handle growth
## Open Questions
None - All design decisions have been documented and validated against requirements.

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