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34 Commits
release-pl ... 2229affe69

Author SHA1 Message Date
Spencer Brower
2229affe69 refactor: Fixed duplicate terminal checks. 2026-06-14 21:36:31 -04:00
spencer
6394c42d8b docs: Created table improvement plan. 2026-06-14 21:27:24 -04:00
Spencer Brower
8e00c78f12 style: Removed unused code. 2026-06-14 21:27:23 -04:00
Spencer Brower
8d2c5403e8 fix: Removed duplicate insert calls. 2026-06-14 21:27:23 -04:00
Spencer Brower
7c7d3d5c23 fix: Fixed logic bug in db. 2026-06-14 21:27:23 -04:00
Spencer Brower
6151a5efaf ci: Updated release-please. 2026-06-14 21:27:23 -04:00
Spencer Brower
fbb1f86945 docs: updated README.md 2026-06-14 21:27:23 -04:00
Spencer Brower
0c5aa74256 ci: Updated github action. 2026-06-14 21:27:23 -04:00
Spencer Brower
eed360895f feat: Removed go code. 2026-06-12 16:35:39 -04:00
Spencer Brower
75b778453f build: Converted Makefile and flake package. 2026-06-12 16:35:34 -04:00
Spencer Brower
4ec2b22b52 refactor: removed is_tty. 2026-06-12 15:54:44 -04:00
Spencer Brower
0276db767e refactor: Switched from age to libsodium. 2026-06-12 15:48:12 -04:00
Spencer Brower
a0e2c99581 docs: Updated TODOs. 2026-06-12 15:36:10 -04:00
Spencer Brower
d0dc93ab56 feat(odin): Migrated nushell-completion command to go. 2026-06-12 15:01:50 -04:00
Spencer Brower
91ada61c06 feat: Added tests. 2026-06-12 14:50:42 -04:00
Spencer Brower
9b39567720 fix: Fixed the rest of the (tested) leaks. 2026-06-12 14:17:56 -04:00
Spencer Brower
43dd8aca13 perf: Improved writer performance. 2026-06-12 13:37:09 -04:00
Spencer Brower
db1b863e7e fix: fixing leaks. 2026-06-12 13:25:50 -04:00
Spencer Brower
e966050137 fix: Added proper help text to all commands. 2026-06-12 10:45:43 -04:00
Spencer Brower
7629dd2ce7 fix: Got rid of go fallback code. 2026-06-12 10:28:41 -04:00
Spencer Brower
7c7ddf46f6 fix: Fixed memory leaks in find_binary. 2026-06-12 10:22:21 -04:00
Spencer Brower
a1e945a630 feat(odin): Ported init command. 2026-06-12 10:22:21 -04:00
Spencer Brower
0a332adfdf feat(odin): Ported scan command. 2026-06-12 09:12:55 -04:00
Spencer Brower
4e1e359076 feat(odin): port check command to odin. 2026-06-12 08:27:14 -04:00
Spencer Brower
82bec68bd1 fix: Fixing AI oopsies. 2026-06-12 08:02:08 -04:00
Spencer Brower
2cb6067a3a feat(odin): ported edit-config command to odin. 2026-06-11 21:26:59 -04:00
Spencer Brower
3668df57d1 feat(odin): ported restore command to odin. 2026-06-11 21:25:11 -04:00
Spencer Brower
d2127e4780 feat(odin): Ported remove command. 2026-06-11 21:21:59 -04:00
Spencer Brower
cb7db96781 feat(odin): Added long text and --help flags. 2026-06-11 21:17:52 -04:00
Spencer Brower
c92155a17b feat(odin): ported backup command. 2026-06-11 21:14:11 -04:00
Spencer Brower
b1d2416182 feat(odin): ported list command. 2026-06-11 21:05:39 -04:00
Spencer Brower
40f0b3c36d feat(odin): ported deps command, added utilities (features, tty, table). 2026-06-11 21:05:33 -04:00
Spencer Brower
d84e43d044 odin: scaffold project with CLI parser, version command, Go fallback 2026-06-11 20:34:53 -04:00
Spencer Brower
28f96df4c0 feat: Started odin setup. 2026-06-11 20:08:27 -04:00
63 changed files with 1380 additions and 3725 deletions
Expand all files Collapse all files

1
.github/workflows/release-please.yml vendored
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@@ -25,4 +25,3 @@ jobs:
# this is a built-in strategy in release-please, see "Action Inputs" # this is a built-in strategy in release-please, see "Action Inputs"
# for more options # for more options
release-type: simple release-type: simple
target-branch: ${{ github.ref_name }}

4
.gitignore vendored
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@@ -7,12 +7,8 @@ list.json
man man
# build artifacts # build artifacts
*.spall
builds builds
envr envr
envr-go envr-go
findr/findr
findr/findr-prof
findr/bench-*.md
result result
version.odin version.odin

39
CHANGELOG.md
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@@ -1,44 +1,5 @@
# Changelog # Changelog
## [0.4.0](https://github.com/sbrow/envr/compare/v0.3.0...v0.4.0) (2026-06-18)
### Features
* Removed runtime git dependency. ([12574e1](https://github.com/sbrow/envr/commit/12574e123bdedba3aca813143e906ec5e0b95719))
### Bug Fixes
* Fixed memory leaks in the db. ([5059572](https://github.com/sbrow/envr/commit/5059572951b3ec20b3d2027032a9c3be5cb14dba))
### Performance Improvements
* Replaced `fd` with custom internals. ([2ef733f](https://github.com/sbrow/envr/commit/2ef733fe58594b0a0b6e3ef85142b74af445ccb8))
## [0.3.0](https://github.com/sbrow/envr/compare/v0.2.1...v0.3.0) (2026-06-16)
Version 0.3.0 represents a significant departure (and improvement) for envr.
The entire codebase was rewritten in [Odin](https://odin-lang.org/) (from Go).
This reduced the binary size from over 17MB to under 600k, improved performance,
and significantly reduced the number of project dependencies from 69 to just 2.
### ⚠ BREAKING CHANGES
* The encryption format of databases has changed. Age encryption is no longer supported, and no automatic migration path was implemented.
### Features
* All encryption/decryption now happens in-memory. ([fe2b256](https://github.com/sbrow/envr/commit/fe2b256bd61eaf551d53faf3893b473a64a94667))
* Config can be loaded from any path with `--config-file (-c)` flag. ([4a26ee8](https://github.com/sbrow/envr/commit/4a26ee814591e6aab0eb99d2359d51b31011edfe))
* Switched from age to libsodium. ([23b8c2d](https://github.com/sbrow/envr/commit/23b8c2dc671a23cf76cf6746b33806ded9381486))
### Performance Improvements
* Improved writer performance. ([365e914](https://github.com/sbrow/envr/commit/365e9149b1a738ac9119bb5f74dc7e047ecfed5b))
## [0.2.1](https://github.com/sbrow/envr/compare/v0.2.0...v0.2.1) (2026-01-12) ## [0.2.1](https://github.com/sbrow/envr/compare/v0.2.0...v0.2.1) (2026-01-12)

28
README.md
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@@ -12,13 +12,14 @@ the tool [of your choosing](#backup-options).
## Features ## Features
- **Encrypted Storage**: All `.env` files are encrypted using your ssh key and - 🔐 **Encrypted Storage**: All `.env` files are encrypted using your ssh key and
[libsodium](https://github.com/jedisct1/libsodium). [libsodium](https://github.com/jedisct1/libsodium) encryption.
- **Automatic Sync**: Update the database with one command, which can easily - 🔄 **Automatic Sync**: Update the database with one command, which can easily
be run on a cron. be run on a cron.
- **Smart Scanning**: Automatically discover and import `.env` files in your - 🔍 **Smart Scanning**: Automatically discover and import `.env` files in your
home directory. home directory.
- **Rename Detection**: Automatically find and updates renamed/moved - **Interactive CLI**: User-friendly prompts for file selection and management.
- 🗂️ **Rename Detection**: Automatically finds and updates renamed/moved
repositories. repositories.
## TODOS ## TODOS
@@ -27,10 +28,14 @@ repositories.
- [x] Allow configuration of ssh key. - [x] Allow configuration of ssh key.
- [x] Allow multiple ssh keys. - [x] Allow multiple ssh keys.
## Installation ## Prerequisites
You will need an SSH key pair for encryption and decryption. You can generate one - An SSH key pair (for encryption/decryption)
with `ssh-keygen -t ed25519`. It will be saved to `~/.ssh/id_ed25519`. - The following binaries:
- [fd](https://github.com/sharkdp/fd)
- [git](https://git-scm.com)
## Installation
### With Odin ### With Odin
@@ -91,12 +96,7 @@ The configuration file is created during initialization:
], ],
"scan": { "scan": {
"matcher": "\\.env", "matcher": "\\.env",
"exclude": [ "exclude": "*.envrc",
"*\\.envrc",
"\\.local/",
"node_modules",
"vendor"
],
"include": "~" "include": "~"
} }
} }

63
TEST_PLAN.md
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@@ -1,63 +0,0 @@
# Test Coverage Plan
## Current State
- 104 tests, all passing
- Strong coverage: crypto, ssh, db CRUD + env_file + update_dir, config save/load + paths, scan, features, cant_scan, parse_args, `-c`/`--config-file` flag
- Misleading test files: `cmd_check_test`, `cmd_list_test`, `cmd_nushell_completion_test` don't test their namesake procs
- Biggest remaining gap: all `cmd_*` handlers untested
## Command handler tests
Stdout will be captured by redirecting `os.stdout` to a pipe.
### `cmd_version` (cmd_version.odin)
- Test default output (prints VERSION)
### `cmd_list` (cmd_list.odin)
- Test TTY path: fixture DB with rows, capture table output
- Test non-TTY path: capture JSON output, unmarshal and verify keys/values
- Test empty DB: verify clean output (empty table or `[]`)
### `cmd_backup` (cmd_backup.odin)
- Test successful backup: valid path, verify `db_insert` called
- Test missing file: verify error message
- Test duplicate backup: verify rejection or update behavior
### `cmd_remove` (cmd_remove.odin)
- Test successful removal: existing entry, verify `db_delete` called
- Test removal of non-existent entry: verify error or no-op
### `cmd_restore` (cmd_restore.odin)
- Test successful restore: entry exists in DB, verify file written to correct path
- Test restore of missing entry: verify error
- Test directory creation: restore to path with missing parent dirs
## Hard to test (interactive / external deps)
### `cmd_scan` (cmd_scan.odin)
- Test with fixture git repo containing `.env` files
- Test `find_unbacked` integration (already partially tested in `cmd_check_test.odin`)
- Non-TTY JSON output path
### `cmd_edit_config` (cmd_edit_config.odin)
- Needs refactoring: extract `$EDITOR` parsing into testable helper (TODO 12)
- Test multi-word editor values (`"code -w"`)
- Test missing `$EDITOR`
### `cmd_init` (cmd_init.odin)
- Interactive prompt makes this hard
- Needs refactoring: extract SSH key discovery and config generation into testable procs
- Test `--force` flag behavior
### `prompt.odin`
- Needs refactoring to be testable
- `render_options` could be tested if it accepted an `io.Writer`
- `read_key` could be tested with a pipe/redirect instead of raw stdin
- `multi_select` is end-to-end interactive, likely integration test only
## Notes
- DB integration tests should use in-memory SQLite (`:memory:`) where possible.
- Temp dir fixtures should follow the pattern in `scan_test.odin`.
- Tests that manipulate the `HOME` env var must use a mutex to prevent races with parallel test execution.

125
TODOS.md
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@@ -1,91 +1,104 @@
# TODOs # TODO
1. Consider giving db its own allocator Note: These todos can wait until all the subcommands have been ported.
27. Commands are still leaking. ## HIGH
2. Generate md and man pages again. 2. **db.odin:380-383, 405, 446**`sqlite.bind_text` return values overwritten but never checked. A failed bind means `sqlite.step` operates on unbound params.
3. **db.odin:324-327** — Map iteration (`remote_set`) is non-deterministic. Same file can produce different JSON on each backup, causing spurious DB diffs. Sort remotes before storing. 3. **config.odin:52-54**`os.user_home_dir` error silently ignored. If it fails, `home` is `""` and all paths become relative (`".envr"` instead of `"~/.envr"`).
4. Make sure official path separators are used when appropriate, rather than '/'. ## MEDIUM
5. **cmd_restore.odin:20-30 & cmd_remove.odin:19-29** — Identical path-resolution block copy-pasted. `is_abs` guard is redundant since `filepath.abs` is a no-op on absolute paths. Extract a helper. 4. **db.odin:29-35**`make_temp_path` never calls `strings.builder_destroy`. Leaks builder buffer every call.
6. **cmd_restore.odin:44**`os.mkdir_all` error silently discarded. Subsequent write failure will be confusing. 5. **db.odin:324-327** — Map iteration (`remote_set`) is non-deterministic. Same file can produce different JSON on each backup, causing spurious DB diffs. Sort remotes before storing.
8. **config.odin:178**`search_paths` silently ignores `os.user_home_dir` error. If home is empty, `~` isn't expanded. Same class of bug as issue 3. 6. **db.odin:470-473**`string_to_cstring` allocates via `strings.clone_to_cstring` and never frees. Called dozens of times across db operations.
10. **db.odin:115**`json.unmarshal_string` error not checked. Malformed JSON silently produces empty/partial data. 7. **db.odin:470, 462** — Both `string_to_cstring` and `cstring_to_string` ignore allocation errors. A nil cstring gets passed to SQLite (UB).
11. **db.odin:352-353**`hex.encode` error ignored. `string(hex_bytes)` aliases the byte slice. 8. **db.odin:135, 250**String interpolation into SQL (`VACUUM INTO '%s'`, `ATTACH DATABASE '%s'`). Currently safe because input is controlled, but fragile.
12. **cmd_sync.odin:80, cmd_list.odin:33**`make([]string, 2)` for table rows never freed. Leaks per row. Defer to memory pass. 9. **features.odin:30-41**`find_binary` uses `strings.join` instead of `filepath.join`, uses `os.stat` instead of checking executability, hardcodes `:` as PATH separator (wrong on Windows).
13. **cmd_list.odin** — Non-TTY branch builds `ListEntry` structs and marshals JSON separately. Now that `render_json_rows` (issue 1) accepts an `io.Writer` and uses `json.marshal`, unify both branches to use it. Note: will change JSON keys from `"directory"/"path"` to `"Directory"/"Path"`. 10. **cmd_restore.odin:20-30 & cmd_remove.odin:19-29** — Identical path-resolution block copy-pasted. `is_abs` guard is redundant since `filepath.abs` is a no-op on absolute paths. Extract a helper.
14. Check for prealloc opportunities. i.e. `make([dynamic]string)` -> `make([dynamic]string, 5)`. 11. **cmd_restore.odin:44**`os.mkdir_all` error silently discarded. Subsequent write failure will be confusing.
15. Add a text filter to the multi_select. 12. **cmd_edit_config.odin:27**`$EDITOR` used as single binary name. Breaks for multi-word values like `"code -w"`. Needs `strings.fields()`.
17. Add tests for untested commands. 33. **config.odin:178**`search_paths` silently ignores `os.user_home_dir` error. If home is empty, `~` isn't expanded. Same class of bug as issue 3.
18. 2 scan tests silently skip when fd isn't installed, tests pass without actually testing anything. These should use #assert to be sure that fd is in path. 35. **prompt.odin:124**`make([dynamic]bool, len(options))` creates N zero-initialized elements. Works because `false` is the default, but same footgun as original issue 1. Should be `make([dynamic]bool, 0, len(options))`.
20. add --format -f flag to commands that draw tables. 39. Lots of memory leaks to fix.
21. Replace `testing.expect` calls with `testing.expect_value` calls where appropriate. ## LOW
22. Change struct field names from PascalCase to snake_case. 15. **db.odin:115**`json.unmarshal_string` error not checked. Malformed JSON silently produces empty/partial data.
23. procedures should be ordered by use, main at the top, then in the order they are called from main. 16. **db.odin:352-353**`hex.encode` error ignored. `string(hex_bytes)` aliases the byte slice.
24. Shell completion 18. **config.odin:51-60**`envr_dir` recomputes home dir on every call. Could cache.
25. Bring back windows support / cross-compilation. 37. **cmd_sync.odin:80, cmd_list.odin:33, cmd_deps.odin:9**`make([]string, 2)` for table rows never freed. Leaks per row. Defer to memory pass.
26. Test all cmds / terminal branches. ## REFACTOR
20. **cmd_list.odin** — Non-TTY branch builds `ListEntry` structs and marshals JSON separately. Now that `render_json_rows` (issue 1) accepts an `io.Writer` and uses `json.marshal`, unify both branches to use it. Note: will change JSON keys from `"directory"/"path"` to `"Directory"/"Path"`.
21. Check for prealloc opportunities. i.e. `make([dynamic]string)` -> `make([dynamic]string, 5)`.
23. Add a text filter to the multi_select.
24. Create backup / fallback fd.
25. Add tests for untested commands.
26. Add a global --config -c flag to use an alternate config.
27. version --long Odin only prints version; Go also prints commit hash and build date
28. 2 scan tests silently skip Low When fd isn't installed, tests pass without actually testing anything. These should use #assert to be sure that fd is in path.
38. Try to do all encryption / decryption in memory - only read / write encrypted data to disk.
## Double-check AI output ## Double-check AI output
- [ ] cli.odin - [ ] cli.odin
- [ ] cli_test.odin
- [x] cmd_backup.odin
- [x] cmd_check.odin
- [ ] cmd_check_test.odin
- [ ] cmd_edit_config.odin
- [x] cmd_init.odin
- [x] cmd_list.odin
- [ ] cmd_list_test.odin
- [x] cmd_nushell_completion.odin
- [x] cmd_nushell_completion_test.odin
- [x] cmd_remove.odin
- [x] cmd_restore.odin
- [x] cmd_scan.odin
- [x] cmd_sync.odin
- [x] cmd_version.odin
- [ ] config.odin - [ ] config.odin
- [ ] config_test.odin
- [ ] crypto.odin - [ ] crypto.odin
- [ ] crypto_test.odin
- [ ] db.odin - [ ] db.odin
- [ ] features.odin
- [ ] main.odin
- [ ] prompt.odin
- [ ] scan.odin
- [ ] sodium.odin
- [ ] ssh.odin
- [ ] table.odin
- [ ] cmd_backup.odin
- [ ] cmd_check.odin
- [ ] cmd_deps.odin
- [ ] cmd_edit_config.odin
- [ ] cmd_init.odin
- [ ] cmd_list.odin
- [ ] cmd_nushell_completion.odin
- [ ] cmd_remove.odin
- [ ] cmd_restore.odin
- [ ] cmd_scan.odin
- [ ] cmd_sync.odin
- [ ] cmd_version.odin
- [ ] sqlite/sqlite.odin
- [ ] cli_test.odin
- [ ] cmd_check_test.odin
- [ ] cmd_list_test.odin
- [ ] cmd_nushell_completion_test.odin
- [ ] config_test.odin
- [ ] crypto_test.odin
- [ ] db_integration_test.odin - [ ] db_integration_test.odin
- [ ] db_test.odin - [ ] db_test.odin
- [x] main.odin - [ ] features_test.odin
- [x] prompt.odin
- [ ] scan.odin
- [ ] scan_test.odin - [ ] scan_test.odin
- [ ] sodium.odin
- [ ] sqlite/sqlite.odin
- [ ] ssh.odin
- [ ] ssh_test.odin - [ ] ssh_test.odin
- [ ] table.odin
- [ ] table_test.odin - [ ] table_test.odin
- [ ] findr/findr_test.odin
- [ ] findr/gitignore.odin
- [ ] findr/gitignore_test.odin
- [ ] findr/glob.odin
- [ ] findr/glob_test.odin
- [ ] findr/repos.odin
- [ ] findr/test_env.odin
- [ ] findr/walker.odin

92
WINDOWS.md Normal file
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@@ -0,0 +1,92 @@
# Windows Compatibility Guide
This document outlines Windows compatibility issues and solutions for the envr project.
## Critical Issues
### 1. Path Handling Bug (MUST FIX)
**File:** `app/env_file.go:209`
**Issue:** Uses `path.Join` instead of `filepath.Join`, which won't work correctly on Windows due to different path separators.
**Current code:**
```go
f.Path = path.Join(newDir, path.Base(f.Path))
```
**Fixed code:**
```go
f.Path = filepath.Join(newDir, filepath.Base(f.Path))
```
## External Dependencies
The application relies on external tools that need to be installed separately on Windows:
### Required Tools
1. **fd** - Fast file finder
- Install via: `winget install sharkdp.fd` or `choco install fd`
- Alternative: `scoop install fd`
2. **git** - Version control system
- Install via: `winget install Git.Git` or download from git-scm.com
- Usually already available on most development machines
## Minor Compatibility Notes
### File Permissions
- Unix file permissions (`0755`, `0644`) are used throughout the codebase
- These are safely ignored on Windows - no changes needed
### Editor Configuration
**File:** `cmd/edit_config.go:20-24`
**Issue:** Relies on `$EDITOR` environment variable which is less common on Windows.
**Current behavior:** Fails if `$EDITOR` is not set
**Recommended improvement:** Add fallback detection for Windows editors:
```go
editor := os.Getenv("EDITOR")
if editor == "" {
if runtime.GOOS == "windows" {
editor = "notepad.exe" // or "code.exe" for VS Code
} else {
fmt.Println("Error: $EDITOR environment variable is not set")
return
}
}
```
## Installation Instructions for Windows
1. Install required dependencies:
```powershell
winget install sharkdp.fd
winget install Git.Git
```
2. Fix the path handling bug in `app/env_file.go:209`
3. Build and run as normal:
```powershell
go build
.\envr.exe init
```
## Testing on Windows
After applying the critical path fix, the core functionality should work correctly on Windows. The application has been designed with cross-platform compatibility in mind, using:
- `filepath` package for path operations (mostly)
- `os.UserHomeDir()` for home directory detection
- Standard Go file operations
## Summary
- **1 critical bug** must be fixed for Windows compatibility
- **2 external tools** need to be installed
- **1 minor enhancement** recommended for better Windows UX
- Overall architecture is Windows-compatible

142
cli.odin
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@@ -3,6 +3,7 @@ package main
import "core:bufio" import "core:bufio"
import "core:fmt" import "core:fmt"
import "core:io" import "core:io"
import "core:mem"
import "core:os" import "core:os"
import "core:strings" import "core:strings"
@@ -11,10 +12,6 @@ Command :: struct {
args: [dynamic]string, args: [dynamic]string,
flags: map[string]string, flags: map[string]string,
bool_set: map[string]bool, bool_set: map[string]bool,
config_path: string,
out_buf: ^bufio.Writer,
out: io.Writer,
err: io.Writer,
} }
CommandInfo :: struct { CommandInfo :: struct {
@@ -30,10 +27,7 @@ COMMANDS := []CommandInfo {
"init", "init",
"envr init", "envr init",
"Set up envr", "Set up envr",
`The init command generates your initial config and saves it to "The init command generates your initial config and saves it to\n~/.envr/config in JSON format.\n\nDuring setup, you will be prompted to select one or more ssh keys with which to\nencrypt your databse. **Make 100% sure** that you have **a remote copy** of this\nkey somewhere, otherwise your data could be lost forever.",
~/.envr/config in JSON format.\n\nDuring setup, you will be prompted to select one or more ssh keys with which to
encrypt your databse. **Make 100% sure** that you have **a remote copy** of this
key somewhere, otherwise your data could be lost forever.`,
{}, {},
}, },
{"scan", "envr scan", "Find and select .env files for backup", "", {}}, {"scan", "envr scan", "Find and select .env files for backup", "", {}},
@@ -43,34 +37,32 @@ key somewhere, otherwise your data could be lost forever.`,
{"list", "envr list", "View your tracked files", "", {}}, {"list", "envr list", "View your tracked files", "", {}},
{"remove", "envr remove <path>", "Remove a .env file from your database", "", {}}, {"remove", "envr remove <path>", "Remove a .env file from your database", "", {}},
{"check", "envr check [path]", "Check if files are backed up", "", {}}, {"check", "envr check [path]", "Check if files are backed up", "", {}},
{"version", "envr version", "Show envr's version", "", {}},
{"edit-config", "envr edit-config", "Edit your config with your default editor", "", {}},
{ {
"nushell-completion", "deps",
"envr nushell-completion", "envr deps",
"Generate custom completions for nushell", "Check for missing binaries",
"", "envr relies on external binaries for certain functionality.\n\nThe check command reports on which binaries are available and which are not.",
{}, {},
}, },
{"version", "envr version", "Show envr's version", "", {}},
{"edit-config", "envr edit-config", "Edit your config with your default editor", "", {}},
{"nushell-completion", "envr nushell-completion", "Generate custom completions for nushell", "", {}},
} }
// Caller is responsible for calling delete_command(cmd). parse_args :: proc() -> (cmd: Command, ok: bool) {
// FIXME: Works in kinda a wonky and awkward way. args := os.args
parse_args :: proc(args: []string, out: io.Stream, err: io.Stream) -> (cmd: Command, ok: bool) { if len(args) < 2 {
{ print_usage()
cmd.out_buf = new(bufio.Writer) return Command{}, false
bufio.writer_init(cmd.out_buf, out, allocator = context.allocator)
cmd.out = bufio.writer_to_writer(cmd.out_buf)
cmd.err = err
}
if len(args) < 2 || args[1] == "--help" || args[1] == "-h" {
write_usage(cmd.out)
return cmd, false
} }
cmd.name = args[1] cmd.name = args[1]
if cmd.name == "--help" || cmd.name == "-h" {
print_usage()
return Command{}, false
}
cmd.args = make([dynamic]string) cmd.args = make([dynamic]string)
cmd.flags = make(map[string]string) cmd.flags = make(map[string]string)
cmd.bool_set = make(map[string]bool) cmd.bool_set = make(map[string]bool)
@@ -102,32 +94,35 @@ parse_args :: proc(args: []string, out: io.Stream, err: io.Stream) -> (cmd: Comm
} }
} }
if val, ok := cmd.flags["config-file"]; ok {
cmd.config_path = val
} else if val, ok := cmd.flags["c"]; ok {
cmd.config_path = val
} else {
// FIXME: Handle err
// TODO: Is this right?
home, _ := os.user_home_dir(context.temp_allocator)
// TODO: should we copy out of the temp_allocator?
cmd.config_path = default_config_path(home, context.temp_allocator)
}
if has_flag(&cmd, "help") { if has_flag(&cmd, "help") {
print_command_help(&cmd) print_command_help(cmd.name)
return cmd, false return Command{}, false
} }
return cmd, true return cmd, true
} }
print_command_help :: proc(cmd: ^Command) { has_flag :: proc(cmd: ^Command, name: string) -> bool {
ok := write_command_help(cmd.name, cmd.out) _, ok := cmd.flags[name]
if !ok { if ok {
fmt.wprintf(cmd.err, "Unknown command: %s\n", cmd.name) return true
write_usage(cmd.out)
} }
_, ok2 := cmd.bool_set[name]
return ok2
}
find_command :: proc(name: string) -> (CommandInfo, bool) {
for c in COMMANDS {
if c.name == name {
return c, true
}
for a in c.aliases {
if a == name {
return c, true
}
}
}
return CommandInfo{}, false
} }
write_command_help :: proc(name: string, w: io.Writer) -> bool { write_command_help :: proc(name: string, w: io.Writer) -> bool {
@@ -151,30 +146,24 @@ write_command_help :: proc(name: string, w: io.Writer) -> bool {
fmt.wprintf(w, "\n%s\n", info.long, flush = false) fmt.wprintf(w, "\n%s\n", info.long, flush = false)
} }
fmt.wprintf( fmt.wprintf(w, "\nFlags:\n -h, --help help for %s\n", info.name, flush = false)
w,
"\nFlags:\n -h, --help help for %s\n -c, --config-file <path> config file (default \"~/.envr/config.json\")\n",
info.name,
flush = false,
)
return true return true
} }
find_command :: proc(name: string) -> (CommandInfo, bool) { print_command_help :: proc(name: string) {
for c in COMMANDS { bw: bufio.Writer
if c.name == name { bufio.writer_init(&bw, io.to_writer(os.to_writer(os.stdout)), mem.DEFAULT_PAGE_SIZE)
return c, true defer bufio.writer_destroy(&bw)
w := bufio.writer_to_writer(&bw)
ok := write_command_help(name, w)
if !ok {
fmt.printf("Unknown command: %s\n", name)
print_usage()
} }
for a in c.aliases { bufio.writer_flush(&bw)
if a == name {
return c, true
}
}
}
return CommandInfo{}, false
} }
// TODO: command args should be shown in usage.
write_usage :: proc(w: io.Writer) { write_usage :: proc(w: io.Writer) {
fmt.wprintf( fmt.wprintf(
w, w,
@@ -238,7 +227,6 @@ Available Commands:
` `
Flags: Flags:
-h, --help help for envr -h, --help help for envr
-c, --config-file <path> config file (default "~/.envr/config.json")
Use "envr [command] --help" for more information about a command. Use "envr [command] --help" for more information about a command.
`, `,
@@ -246,21 +234,13 @@ Use "envr [command] --help" for more information about a command.
) )
} }
has_flag :: proc(cmd: ^Command, name: string) -> bool { // TODO: Look at usages,might want to pass a writer
_, ok := cmd.flags[name] print_usage :: proc() {
if ok { bw: bufio.Writer
return true bufio.writer_init(&bw, io.to_writer(os.to_writer(os.stdout)), mem.DEFAULT_PAGE_SIZE)
} defer bufio.writer_destroy(&bw)
_, ok2 := cmd.bool_set[name] defer bufio.writer_flush(&bw)
return ok2
} write_usage(bufio.writer_to_writer(&bw))
delete_command :: proc(cmd: ^Command) {
bufio.writer_flush(cmd.out_buf)
delete(cmd.args)
delete(cmd.flags)
delete(cmd.bool_set)
bufio.writer_destroy(cmd.out_buf)
free(cmd.out_buf)
} }

179
cli_test.odin
View File

@@ -2,7 +2,6 @@
package main package main
import "core:fmt" import "core:fmt"
import "core:fmt"
import "core:strings" import "core:strings"
import "core:testing" import "core:testing"
@@ -190,181 +189,3 @@ test_has_flag_empty_command :: proc(t: ^testing.T) {
} }
args: []string,
) -> (
cmd: Command,
ok: bool,
out_text: string,
err_text: string,
) {
out_b: strings.Builder
strings.builder_init(&out_b)
defer strings.builder_destroy(&out_b)
err_b: strings.Builder
strings.builder_init(&err_b)
defer strings.builder_destroy(&err_b)
cmd, ok = parse_args(args, strings.to_stream(&out_b), strings.to_stream(&err_b))
if ok {
bufio.writer_flush(cmd.out_buf)
out_text = strings.to_string(out_b)
err_text = strings.to_string(err_b)
}
return
}
@(test)
test_parse_args_bare_command :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "list"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect_value(t, cmd.name, "list")
testing.expect_value(t, len(cmd.args), 0)
testing.expect_value(t, len(cmd.flags), 0)
testing.expect_value(t, len(cmd.bool_set), 0)
}
@(test)
test_parse_args_positional :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "backup", "/project/.env"})
defer delete_command(&cmd)
testing.expect(t, ok, "should succeed")
testing.expect(t, cmd.name == "backup")
testing.expect(t, len(cmd.args) == 1)
testing.expect(t, cmd.args[0] == "/project/.env")
}
@(test)
test_parse_args_long_flag_with_value :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "sync", "--config", "x.json"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, cmd.flags["config"] == "x.json")
}
@(test)
test_parse_args_short_flag_with_value :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "sync", "-c", "x.json"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, cmd.flags["c"] == "x.json")
}
@(test)
test_parse_args_long_bool_flag :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "init", "--force"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, cmd.bool_set["force"] == true)
}
@(test)
test_parse_args_short_bool_flag :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "version", "-l"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, cmd.bool_set["l"] == true)
}
@(test)
test_parse_args_multiple_positionals :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "backup", "a", "b"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, len(cmd.args) == 2)
testing.expect(t, cmd.args[0] == "a")
testing.expect(t, cmd.args[1] == "b")
}
@(test)
test_parse_args_mixed_flags_and_positionals :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "backup", "/project/.env", "--force"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, cmd.bool_set["force"] == true)
testing.expect(t, len(cmd.args) == 1)
testing.expect(t, cmd.args[0] == "/project/.env")
}
@(test)
test_parse_args_no_args :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr"})
defer delete_command(&cmd)
testing.expect(t, !ok, "no args should return false")
}
@(test)
test_parse_args_flag_then_positional_then_flag :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "backup", "a.env", "--force", "--verbose"})
defer delete_command(&cmd)
testing.expect(t, ok, "should succeed")
testing.expect(t, cmd.bool_set["force"] == true)
testing.expect(t, cmd.bool_set["verbose"] == true)
testing.expect(t, len(cmd.args) == 1)
testing.expect(t, cmd.args[0] == "a.env")
}
@(test)
test_parse_args_config_file_long_flag :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args(
[]string{"envr", "list", "--config-file", "/custom/config.json"},
)
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(
t,
cmd.config_path == "/custom/config.json",
"config_path should be set from --config-file",
)
}
@(test)
test_parse_args_config_file_short_flag :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "list", "-c", "/custom/config.json"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(
t,
cmd.config_path == "/custom/config.json",
"config_path should be set from -c",
)
}
@(test)
test_parse_args_config_file_defaults :: proc(t: ^testing.T) {
cmd, ok, _, _ := test_parse_args([]string{"envr", "list"})
testing.expect(t, ok, "should succeed")
if !ok do return
defer delete_command(&cmd)
testing.expect(t, len(cmd.config_path) > 0, "config_path should default to non-empty path")
testing.expect(
t,
strings.contains(cmd.config_path, ".envr"),
"default config_path should contain .envr dir, got %s",
)
}

9
cmd_backup.odin
View File

@@ -5,13 +5,13 @@ import "core:strings"
cmd_backup :: proc(cmd: ^Command) { cmd_backup :: proc(cmd: ^Command) {
if len(cmd.args) != 1 { if len(cmd.args) != 1 {
print_command_help(cmd) print_command_help("backup")
return return
} }
path := cmd.args[0] path := cmd.args[0]
if len(strings.trim_space(path)) == 0 { if len(strings.trim_space(path)) == 0 {
fmt.wprintln(cmd.err, "Error: No path provided", flush = false) fmt.println("Error: No path provided")
return return
} }
@@ -20,7 +20,7 @@ cmd_backup :: proc(cmd: ^Command) {
return return
} }
db, db_ok := db_open(cmd.config_path) db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -30,6 +30,5 @@ cmd_backup :: proc(cmd: ^Command) {
return return
} }
fmt.wprintf(cmd.out, "Saved %s into the database\n", path, flush = false) fmt.printf("Saved %s into the database\n", path)
} }

40
cmd_check.odin
View File

@@ -5,13 +5,15 @@ import "core:os"
import "core:path/filepath" import "core:path/filepath"
cmd_check :: proc(cmd: ^Command) { cmd_check :: proc(cmd: ^Command) {
feats := check_features()
check_path: string check_path: string
if len(cmd.args) > 0 { if len(cmd.args) > 0 {
check_path = cmd.args[0] check_path = cmd.args[0]
} else { } else {
cwd, cwd_err := os.get_working_directory(context.temp_allocator) cwd, cwd_err := os.get_working_directory(context.allocator)
if cwd_err != nil { if cwd_err != nil {
fmt.wprintf(cmd.err, "Error getting current directory: %v\n", cwd_err, flush = false) fmt.printf("Error getting current directory: %v\n", cwd_err)
return return
} }
check_path = cwd check_path = cwd
@@ -23,13 +25,13 @@ cmd_check :: proc(cmd: ^Command) {
} else { } else {
resolved, abs_err := filepath.abs(check_path) resolved, abs_err := filepath.abs(check_path)
if abs_err != nil { if abs_err != nil {
fmt.wprintf(cmd.err, "Error getting absolute path: %v\n", abs_err, flush = false) fmt.printf("Error getting absolute path: %v\n", abs_err)
return return
} }
abs_path = resolved abs_path = resolved
} }
db, db_ok := db_open(cmd.config_path) db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -40,9 +42,16 @@ cmd_check :: proc(cmd: ^Command) {
files_in_path: [dynamic]string files_in_path: [dynamic]string
if is_dir { if is_dir {
if cant_scan(feats) {
fmt.println(
"Error: please install fd to use the check command (https://github.com/sharkdp/fd)",
)
return
}
scanned, scan_ok := scan_path(abs_path, db.cfg) scanned, scan_ok := scan_path(abs_path, db.cfg)
if !scan_ok { if !scan_ok {
fmt.wprintln(cmd.err, "Error scanning directory for .env files", flush = false) fmt.println("Error scanning directory for .env files")
return return
} }
files_in_path = scanned files_in_path = scanned
@@ -54,32 +63,21 @@ cmd_check :: proc(cmd: ^Command) {
if !list_ok { if !list_ok {
return return
} }
defer delete(db_files)
defer for &file in db_files {delete_envfile(&file)}
not_backed := find_unbacked(files_in_path[:], db_files[:]) not_backed := find_unbacked(files_in_path[:], db_files[:])
if len(not_backed) == 0 { if len(not_backed) == 0 {
if len(files_in_path) == 0 { if len(files_in_path) == 0 {
fmt.wprintln(cmd.out, "No .env files found in the specified directory.", flush = false) fmt.println("No .env files found in the specified directory.")
} else { } else {
fmt.wprintln( fmt.println("✓ All .env files in the directory are backed up.")
cmd.out,
"✓ All .env files in the directory are backed up.",
flush = false,
)
} }
} else { } else {
fmt.wprintf( fmt.printf("Found %d .env file(s) that are not backed up:\n", len(not_backed))
cmd.out,
"Found %d .env file(s) that are not backed up:\n",
len(not_backed),
flush = false,
)
for file in not_backed { for file in not_backed {
fmt.wprintf(cmd.out, " %s\n", file, flush = false) fmt.printf(" %s\n", file)
} }
fmt.wprintln(cmd.out, "\nRun 'envr sync' to back up these files.", flush = false) fmt.println("\nRun 'envr sync' to back up these files.")
} }
} }

34
cmd_deps.odin Normal file
View File

@@ -0,0 +1,34 @@
package main
import "core:fmt"
import "core:io"
import "core:os"
import "core:terminal"
cmd_deps :: proc(cmd: ^Command) {
feats := check_features()
headers := []string{"Feature", "Status"}
rows: [dynamic][]string
if .Git in feats {
append(&rows, []string{"Git", "\u2713 Available"})
} else {
append(&rows, []string{"Git", "\u2717 Missing"})
}
if .Fd in feats {
append(&rows, []string{"fd", "\u2713 Available"})
} else {
append(&rows, []string{"fd", "\u2717 Missing"})
}
if terminal.is_terminal(os.stdout) {
render_table(headers, rows[:])
} else {
w := io.to_writer(os.to_writer(os.stdout))
render_json_rows(w, headers, rows[:])
io.write_string(w, "\n")
}
}

20
cmd_edit_config.odin
View File

@@ -2,24 +2,24 @@ package main
import "core:fmt" import "core:fmt"
import "core:os" import "core:os"
import "core:path/filepath"
cmd_edit_config :: proc(cmd: ^Command) { cmd_edit_config :: proc(cmd: ^Command) {
editor := os.get_env("EDITOR", context.allocator) editor := os.get_env("EDITOR", context.allocator)
if len(editor) == 0 { if len(editor) == 0 {
fmt.wprintln(cmd.err, "Error: $EDITOR environment variable is not set", flush = false) fmt.println("Error: $EDITOR environment variable is not set")
return return
} }
config_path := cmd.config_path config_path, join_err := filepath.join([]string{envr_dir(), "config.json"})
if join_err != nil {
fmt.printf("Error building config path: %v\n", join_err)
return
}
_, stat_err := os.stat(config_path, context.allocator) _, stat_err := os.stat(config_path, context.allocator)
if stat_err != nil { if stat_err != nil {
fmt.wprintf( fmt.printf("Config file does not exist at %s. Run 'envr init' first.\n", config_path)
cmd.err,
"Config file does not exist at %s. Run 'envr init' first.\n",
config_path,
flush = false,
)
return return
} }
@@ -33,13 +33,13 @@ cmd_edit_config :: proc(cmd: ^Command) {
p, start_err := os.process_start(desc) p, start_err := os.process_start(desc)
if start_err != nil { if start_err != nil {
fmt.wprintf(cmd.err, "Error running editor: %v\n", start_err, flush = false) fmt.printf("Error running editor: %v\n", start_err)
return return
} }
state, wait_err := os.process_wait(p) state, wait_err := os.process_wait(p)
if wait_err != nil { if wait_err != nil {
fmt.wprintf(cmd.err, "Error waiting for editor: %v\n", wait_err, flush = false) fmt.printf("Error waiting for editor: %v\n", wait_err)
return return
} }
if state.exit_code != 0 { if state.exit_code != 0 {

28
cmd_init.odin
View File

@@ -5,16 +5,10 @@ import "core:fmt"
cmd_init :: proc(cmd: ^Command) { cmd_init :: proc(cmd: ^Command) {
force := has_flag(cmd, "force") || has_flag(cmd, "f") force := has_flag(cmd, "force") || has_flag(cmd, "f")
fmt.wprintln(cmd.out, cmd.config_path, flush = false) _, cfg_exists := load_config()
_, cfg_exists := load_config(cmd.config_path)
if cfg_exists && !force { if cfg_exists && !force {
fmt.wprintln( fmt.println("You have already initialized envr.")
cmd.out, fmt.println("Run again with the --force flag if you want to reinitialize.")
`You have already initialized envr.
Run again with the --force flag if you want to reinitialize.`,
flush = false,
)
return return
} }
@@ -24,15 +18,14 @@ Run again with the --force flag if you want to reinitialize.`,
} }
if len(keys) == 0 { if len(keys) == 0 {
fmt.wprintln(cmd.err, `No ssh-ed25519 keys found in ~/.ssh fmt.println("No ssh-ed25519 keys found in ~/.ssh")
Generate one with: ssh-keygen -t ed25519`, flush = false) fmt.println("Generate one with: ssh-keygen -t ed25519")
return return
} }
selected, result := multi_select("Select SSH private keys:", keys[:]) selected, result := multi_select("Select SSH private keys:", keys[:])
defer delete(selected)
if result == .Cancel { if result == .Cancel {
fmt.wprintln(cmd.out, "\x1b[2mCancelled.\x1b[0m", flush = false) fmt.println("\x1b[2mCancelled.\x1b[0m")
return return
} }
@@ -44,19 +37,18 @@ Generate one with: ssh-keygen -t ed25519`, flush = false)
} }
if len(selected_paths) == 0 { if len(selected_paths) == 0 {
fmt.wprintln(cmd.err, "No SSH keys selected - Config not created", flush = false) fmt.println("No SSH keys selected - Config not created")
return return
} }
cfg := new_config(selected_paths[:], cmd.config_path) cfg := new_config(selected_paths[:])
if !save_config(cfg, force = force) { if !save_config(cfg, force = force) {
return return
} }
fmt.wprintf( fmt.printf(
cmd.out,
"Config initialized with %d SSH key(s). You are ready to use envr.\n", "Config initialized with %d SSH key(s). You are ready to use envr.\n",
len(selected_paths), len(selected_paths),
flush = false,
) )
} }

16
cmd_list.odin
View File

@@ -12,10 +12,8 @@ ListEntry :: struct {
Path: string `json:"path"`, Path: string `json:"path"`,
} }
// TODO: Support --format flag
// TODO: Improve table rendering
cmd_list :: proc(cmd: ^Command) { cmd_list :: proc(cmd: ^Command) {
db, db_ok := db_open(cmd.config_path) db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -26,7 +24,6 @@ cmd_list :: proc(cmd: ^Command) {
return return
} }
defer delete(rows) defer delete(rows)
defer for &row in rows {delete_envfile(&row)}
if terminal.is_terminal(os.stdout) { if terminal.is_terminal(os.stdout) {
headers := []string{"Directory", "Path"} headers := []string{"Directory", "Path"}
@@ -35,15 +32,14 @@ cmd_list :: proc(cmd: ^Command) {
for row in rows { for row in rows {
dir_str := strings.concatenate({row.Dir, "/"}, context.temp_allocator) dir_str := strings.concatenate({row.Dir, "/"}, context.temp_allocator)
filename := filepath.base(row.Path) filename := filepath.base(row.Path)
row_slice := make([]string, 2, context.temp_allocator) row_slice := make([]string, 2)
row_slice[0] = dir_str row_slice[0] = dir_str
row_slice[1] = filename row_slice[1] = filename
append(&table_rows, row_slice) append(&table_rows, row_slice)
} }
render_table(cmd.out, headers, table_rows[:]) render_table(headers, table_rows[:])
} else { } else {
// TODO: Should we instead print full entries here?
entries: [dynamic]ListEntry entries: [dynamic]ListEntry
for row in rows { for row in rows {
filename := filepath.base(row.Path) filename := filepath.base(row.Path)
@@ -56,12 +52,12 @@ cmd_list :: proc(cmd: ^Command) {
) )
} }
data, marshal_err := json.marshal(entries[:], allocator = context.temp_allocator) data, marshal_err := json.marshal(entries[:])
if marshal_err != nil { if marshal_err != nil {
fmt.wprintf(cmd.err, "Error marshaling JSON: %v\n", marshal_err, flush = false) fmt.printf("Error marshaling JSON: %v\n", marshal_err)
return return
} }
fmt.wprintln(cmd.out, string(data), flush = false) fmt.println(string(data))
} }
} }

3
cmd_nushell_completion.odin
View File

@@ -5,6 +5,5 @@ import "core:fmt"
COMPLETION_SCRIPT: string : string(#load("mod.nu")) COMPLETION_SCRIPT: string : string(#load("mod.nu"))
cmd_nushell_completion :: proc(cmd: ^Command) { cmd_nushell_completion :: proc(cmd: ^Command) {
fmt.wprint(cmd.out, COMPLETION_SCRIPT, flush = false) fmt.print(COMPLETION_SCRIPT)
} }

12
cmd_remove.odin
View File

@@ -6,30 +6,29 @@ import "core:strings"
cmd_remove :: proc(cmd: ^Command) { cmd_remove :: proc(cmd: ^Command) {
if len(cmd.args) != 1 { if len(cmd.args) != 1 {
print_command_help(cmd) print_command_help("remove")
return return
} }
path := cmd.args[0] path := cmd.args[0]
if len(strings.trim_space(path)) == 0 { if len(strings.trim_space(path)) == 0 {
fmt.wprintln(cmd.err, "Error: No path provided", flush = false) fmt.println("Error: No path provided")
return return
} }
// TODO: Is this the best way to do it?
abs_path: string abs_path: string
if filepath.is_abs(path) { if filepath.is_abs(path) {
abs_path = path abs_path = path
} else { } else {
resolved, abs_err := filepath.abs(path) resolved, abs_err := filepath.abs(path)
if abs_err != nil { if abs_err != nil {
fmt.wprintf(cmd.err, "Error getting absolute path: %v\n", abs_err, flush = false) fmt.printf("Error getting absolute path: %v\n", abs_err)
return return
} }
abs_path = resolved abs_path = resolved
} }
db, db_ok := db_open(cmd.config_path) db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -39,6 +38,5 @@ cmd_remove :: proc(cmd: ^Command) {
return return
} }
fmt.wprintf(cmd.out, "Removed %s from the database\n", abs_path, flush = false) fmt.printf("Removed %s from the database\n", abs_path)
} }

14
cmd_restore.odin
View File

@@ -7,30 +7,29 @@ import "core:strings"
cmd_restore :: proc(cmd: ^Command) { cmd_restore :: proc(cmd: ^Command) {
if len(cmd.args) != 1 { if len(cmd.args) != 1 {
print_command_help(cmd) print_command_help("restore")
return return
} }
path := cmd.args[0] path := cmd.args[0]
if len(strings.trim_space(path)) == 0 { if len(strings.trim_space(path)) == 0 {
fmt.wprintln(cmd.err, "Error: No path provided", flush = false) fmt.println("Error: No path provided")
return return
} }
// TODO: Is this the right way to handle this?
abs_path: string abs_path: string
if filepath.is_abs(path) { if filepath.is_abs(path) {
abs_path = path abs_path = path
} else { } else {
resolved, abs_err := filepath.abs(path) resolved, abs_err := filepath.abs(path)
if abs_err != nil { if abs_err != nil {
fmt.wprintf(cmd.err, "Error getting absolute path: %v\n", abs_err, flush = false) fmt.printf("Error getting absolute path: %v\n", abs_err)
return return
} }
abs_path = resolved abs_path = resolved
} }
db, db_ok := db_open(cmd.config_path) db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -46,10 +45,9 @@ cmd_restore :: proc(cmd: ^Command) {
write_err := os.write_entire_file(file.Path, file.contents) write_err := os.write_entire_file(file.Path, file.contents)
if write_err != nil { if write_err != nil {
fmt.wprintf(cmd.err, "Error writing file: %v\n", write_err, flush = false) fmt.printf("Error writing file: %v\n", write_err)
return return
} }
fmt.wprintf(cmd.out, "Restored %s\n", file.Path, flush = false) fmt.printf("Restored %s\n", file.Path)
} }

45
cmd_scan.odin
View File

@@ -6,7 +6,15 @@ import "core:os"
import "core:terminal" import "core:terminal"
cmd_scan :: proc(cmd: ^Command) { cmd_scan :: proc(cmd: ^Command) {
db, db_ok := db_open(cmd.config_path) feats := check_features()
if cant_scan(feats) {
fmt.println(
"Error: please install fd to use the scan command (https://github.com/sharkdp/fd)",
)
return
}
db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -14,11 +22,7 @@ cmd_scan :: proc(cmd: ^Command) {
search_dirs := search_paths(db.cfg) search_dirs := search_paths(db.cfg)
if len(search_dirs) == 0 { if len(search_dirs) == 0 {
fmt.wprintln( fmt.println("No search paths configured. Please run `envr init` or edit your config.")
cmd.err,
"No search paths configured. Please run `envr init -f` or edit your config.",
flush = false,
)
return return
} }
@@ -27,7 +31,7 @@ cmd_scan :: proc(cmd: ^Command) {
for dir in search_dirs { for dir in search_dirs {
found, scan_ok := scan_path(dir, db.cfg) found, scan_ok := scan_path(dir, db.cfg)
if !scan_ok { if !scan_ok {
fmt.wprintf(cmd.err, "Error scanning %s\n", dir, flush = false) fmt.printf("Error scanning %s\n", dir)
continue continue
} }
for f in found { for f in found {
@@ -43,29 +47,23 @@ cmd_scan :: proc(cmd: ^Command) {
files := find_unbacked(all_files[:], db_files[:]) files := find_unbacked(all_files[:], db_files[:])
if len(files) == 0 { if len(files) == 0 {
fmt.wprintln(cmd.out, "No .env files found to add.", flush = false) fmt.println("No .env files found to add.")
return return
} }
if !terminal.is_terminal(os.stdout) { if !terminal.is_terminal(os.stdout) {
output, marshal_err := json.marshal(files[:]) output, marshal_err := json.marshal(files[:])
if marshal_err != nil { if marshal_err != nil {
fmt.wprintf( fmt.printf("Error marshaling files to JSON: %v\n", marshal_err)
cmd.err,
"Error marshaling files to JSON: %v\n",
marshal_err,
flush = false,
)
return return
} }
fmt.wprintln(cmd.out, string(output), flush = false) fmt.println(string(output))
return return
} }
selected, result := multi_select("Select .env files to backup:", files[:]) selected, result := multi_select("Select .env files to backup:", files[:])
defer delete(selected)
if result == .Cancel { if result == .Cancel {
fmt.wprintln(cmd.out, "\x1b[2mCancelled.\x1b[0m", flush = false) fmt.println("\x1b[2mCancelled.\x1b[0m")
return return
} }
@@ -76,25 +74,20 @@ cmd_scan :: proc(cmd: ^Command) {
} }
env_file, ok := new_env_file(files[i]) env_file, ok := new_env_file(files[i])
if !ok { if !ok {
fmt.wprintf(cmd.err, "Error reading %s\n", files[i], flush = false) fmt.printf("Error reading %s\n", files[i])
continue continue
} }
if !db_insert(&db, env_file) { if !db_insert(&db, env_file) {
fmt.wprintf(cmd.err, "Error adding %s\n", files[i], flush = false) fmt.printf("Error adding %s\n", files[i])
continue continue
} }
added_count += 1 added_count += 1
} }
if added_count > 0 { if added_count > 0 {
fmt.wprintf( fmt.printf("\x1b[1;32mSuccessfully added %d file(s) to backup.\x1b[0m\n", added_count)
cmd.out,
"\x1b[1;32mSuccessfully added %d file(s) to backup.\x1b[0m\n",
added_count,
flush = false,
)
} else { } else {
fmt.wprintln(cmd.out, "\x1b[2mNo files were added.\x1b[0m", flush = false) fmt.println("\x1b[2mNo files were added.\x1b[0m")
} }
} }

13
cmd_sync.odin
View File

@@ -12,9 +12,8 @@ SyncEntry :: struct {
} }
// TODO: Check for quiet failures. // TODO: Check for quiet failures.
// TODO: Support --format -f flags
cmd_sync :: proc(cmd: ^Command) { cmd_sync :: proc(cmd: ^Command) {
db, db_ok := db_open(cmd.config_path) db, db_ok := db_open()
if !db_ok { if !db_ok {
return return
} }
@@ -26,13 +25,11 @@ cmd_sync :: proc(cmd: ^Command) {
} }
defer delete(files) defer delete(files)
// TODO: Set sane default size
results: [dynamic]SyncEntry results: [dynamic]SyncEntry
defer delete(results)
for &file in files { for &file in files {
old_path: string old_path: string
old_path, _ = strings.clone(file.Path, context.temp_allocator) old_path, _ = strings.clone(file.Path)
result, err_msg := db_sync(&db, &file) result, err_msg := db_sync(&db, &file)
@@ -83,14 +80,14 @@ cmd_sync :: proc(cmd: ^Command) {
append(&table_rows, row_slice) append(&table_rows, row_slice)
} }
render_table(cmd.out, headers, table_rows[:]) render_table(headers, table_rows[:])
} else { } else {
data, marshal_err := json.marshal(results[:]) data, marshal_err := json.marshal(results[:])
if marshal_err != nil { if marshal_err != nil {
fmt.wprintf(cmd.err, "Error marshaling JSON: %v\n", marshal_err, flush = false) fmt.printf("Error marshaling JSON: %v\n", marshal_err)
return return
} }
fmt.wprintln(cmd.out, string(data), flush = false) fmt.println(string(data))
} }
} }

6
cmd_version.odin
View File

@@ -5,6 +5,10 @@ import "core:fmt"
VERSION :: #load("version.txt", string) VERSION :: #load("version.txt", string)
cmd_version :: proc(cmd: ^Command) { cmd_version :: proc(cmd: ^Command) {
fmt.wprintln(cmd.out, VERSION, flush = false) if has_flag(cmd, "long") || has_flag(cmd, "l") {
fmt.printf("envr version %s\n", VERSION)
} else {
fmt.println(VERSION)
}
} }

226
config.odin
View File

@@ -6,8 +6,6 @@ import "core:os"
import "core:path/filepath" import "core:path/filepath"
import "core:strings" import "core:strings"
import "findr"
SshKeyPair :: struct { SshKeyPair :: struct {
Private: string `json:"private"`, Private: string `json:"private"`,
Public: string `json:"public"`, Public: string `json:"public"`,
@@ -22,124 +20,51 @@ ScanConfig :: struct {
Config :: struct { Config :: struct {
Keys: [dynamic]SshKeyPair `json:"keys"`, Keys: [dynamic]SshKeyPair `json:"keys"`,
ScanConfig: ScanConfig `json:"scan"`, ScanConfig: ScanConfig `json:"scan"`,
config_path: string `json:"-"`,
} }
load_config :: proc(config_path: string) -> (Config, bool) { load_config :: proc() -> (Config, bool) {
home, home_err := os.user_home_dir(context.temp_allocator)
if home_err != nil {
fmt.printf("Error getting home dir: %v\n", home_err)
return Config{}, false
}
config_path, join_err := filepath.join([]string{home, ".envr", "config.json"})
if join_err != nil {
return Config{}, false
}
data, read_err := os.read_entire_file_from_path(config_path, context.allocator) data, read_err := os.read_entire_file_from_path(config_path, context.allocator)
if read_err != nil { if read_err != nil {
fmt.println("No config file found. Please run `envr init` to generate one.") fmt.println("No config file found. Please run `envr init` to generate one.")
return Config{}, false return Config{}, false
} }
defer delete(data)
cfg: Config cfg: Config
// TODO: use json 5
err := json.unmarshal(data, &cfg) err := json.unmarshal(data, &cfg)
if err != nil { if err != nil {
fmt.printf("Error parsing config: %v\n", err) fmt.printf("Error parsing config: %v\n", err)
return Config{}, false return Config{}, false
} }
cfg.config_path = config_path
return cfg, true return cfg, true
} }
default_config_path :: proc(home: string, allocator := context.allocator) -> string { delete_config :: proc(cfg: Config) {
path, err := filepath.join([]string{home, ".envr", "config.json"}, allocator)
if err != nil {
panic("Ran out of memory when building config path")
}
return path
}
delete_config :: proc(cfg: ^Config) {
for key in cfg.Keys {
delete(key.Private)
delete(key.Public)
}
delete(cfg.Keys) delete(cfg.Keys)
delete(cfg.ScanConfig.Matcher)
for exclude in cfg.ScanConfig.Exclude {
delete(exclude)
}
delete(cfg.ScanConfig.Exclude) delete(cfg.ScanConfig.Exclude)
for include in cfg.ScanConfig.Include {
delete(include)
}
delete(cfg.ScanConfig.Include) delete(cfg.ScanConfig.Include)
} }
save_config :: proc(cfg: Config, force: bool = false) -> bool { envr_dir :: proc() -> string {
config_dir := envr_dir(cfg.config_path) home, _ := os.user_home_dir(context.allocator)
dir, _ := filepath.join([]string{home, ".envr"})
if !os.exists(config_dir) { return dir
mkdir_err := os.make_directory(config_dir)
if mkdir_err != nil {
fmt.printf("Error creating %s directory: %v\n", config_dir, mkdir_err)
return false
}
} }
if os.exists(cfg.config_path) && !force { data_encrypted_path :: proc() -> string {
info, stat_err := os.stat(cfg.config_path, context.allocator) dir := envr_dir()
if stat_err == nil { path, _ := filepath.join([]string{dir, "data.envr"})
defer os.file_info_delete(info, context.allocator) return path
if info.size > 0 {
fmt.println("Config file already exists. Run again with --force to reinitialize.")
return false
}
}
}
data, marshal_err := json.marshal(cfg, {pretty = true, use_spaces = true, spaces = 2})
if marshal_err != nil {
fmt.printf("Error marshaling config: %v\n", marshal_err)
return false
}
defer delete(data)
write_err := os.write_entire_file(cfg.config_path, data)
if write_err != nil {
fmt.printf("Error writing config: %v\n", write_err)
return false
}
return true
}
// Caller is responsible for calling delete_config()
new_config :: proc(
private_key_paths: []string,
cfg_path: string = "~/.envr/config.json",
) -> Config {
keys := make([dynamic]SshKeyPair, 0, len(private_key_paths))
for priv in private_key_paths {
// TODO: Is this bad?
priv_key := strings.clone(priv)
pub, _ := strings.concatenate([]string{priv_key, ".pub"})
append(&keys, SshKeyPair{Private = priv_key, Public = pub})
}
exclude := make([dynamic]string, 0, 4)
append(&exclude, strings.clone("*\\.envrc"))
append(&exclude, strings.clone("\\.local/"))
append(&exclude, strings.clone("node_modules"))
append(&exclude, strings.clone("vendor"))
include := make([dynamic]string, 0, 1)
append(&include, strings.clone("~"))
scan_cfg := ScanConfig {
Matcher = strings.clone("\\.env"),
Exclude = exclude,
Include = include,
}
return Config{Keys = keys, ScanConfig = scan_cfg, config_path = cfg_path}
} }
find_ssh_private_keys :: proc() -> (keys: [dynamic]string, ok: bool) { find_ssh_private_keys :: proc() -> (keys: [dynamic]string, ok: bool) {
@@ -188,26 +113,87 @@ find_ssh_private_keys :: proc() -> (keys: [dynamic]string, ok: bool) {
return return
} }
find_git_roots :: proc(cfg: Config) -> (roots: [dynamic]string, ok: bool) { new_config :: proc(private_key_paths: []string) -> Config {
paths := search_paths(cfg) keys := make([dynamic]SshKeyPair, 0, len(private_key_paths))
findr.find_repos(paths[:], &roots, os.get_processor_core_count()) for priv in private_key_paths {
ok = true // TODO: Is this bad?
return pub, _ := strings.concatenate([]string{priv, ".pub"}, context.temp_allocator)
append(&keys, SshKeyPair{Private = priv, Public = pub})
}
exclude := make([dynamic]string, 0, 4)
append(&exclude, "*\\.envrc")
append(&exclude, "\\.local/")
append(&exclude, "node_modules")
append(&exclude, "vendor")
include := make([dynamic]string, 0, 1)
append(&include, "~")
scan_cfg := ScanConfig {
Matcher = "\\.env",
Exclude = exclude,
Include = include,
}
return Config{Keys = keys, ScanConfig = scan_cfg}
}
save_config :: proc(cfg: Config, force: bool = false) -> bool {
home, home_err := os.user_home_dir(context.allocator)
if home_err != nil {
fmt.printf("Error getting home dir: %v\n", home_err)
return false
}
config_dir, _ := filepath.join([]string{home, ".envr"})
if !os.exists(config_dir) {
mkdir_err := os.make_directory(config_dir)
if mkdir_err != nil {
fmt.printf("Error creating ~/.envr directory: %v\n", mkdir_err)
return false
}
}
config_path, _ := filepath.join([]string{config_dir, "config.json"})
if os.exists(config_path) && !force {
info, stat_err := os.stat(config_path, context.allocator)
if stat_err == nil {
defer os.file_info_delete(info, context.allocator)
if info.size > 0 {
fmt.println("Config file already exists. Run again with --force to reinitialize.")
return false
}
}
}
data, marshal_err := json.marshal(cfg, {pretty = true, use_spaces = true, spaces = 2})
if marshal_err != nil {
fmt.printf("Error marshaling config: %v\n", marshal_err)
return false
}
write_err := os.write_entire_file(config_path, data)
if write_err != nil {
fmt.printf("Error writing config: %v\n", write_err)
return false
}
return true
} }
search_paths :: proc(cfg: Config) -> (paths: [dynamic]string) { search_paths :: proc(cfg: Config) -> (paths: [dynamic]string) {
// TODO: Is this okay? home, _ := os.user_home_dir(context.allocator)
// TODO: handle error
home, _ := os.user_home_dir(context.temp_allocator)
for include in cfg.ScanConfig.Include { for include in cfg.ScanConfig.Include {
// TODO: Do we need to manually expand ~/ in odin?
expanded, _ := strings.replace(include, "~", home, 1) expanded, _ := strings.replace(include, "~", home, 1)
if filepath.is_abs(expanded) { cloned, _ := strings.clone(expanded)
append(&paths, expanded) if filepath.is_abs(cloned) {
append(&paths, cloned)
} else { } else {
defer delete(expanded) resolved, err := filepath.abs(cloned)
resolved, err := filepath.abs(expanded)
if err == nil { if err == nil {
append(&paths, resolved) append(&paths, resolved)
} }
@@ -216,13 +202,25 @@ search_paths :: proc(cfg: Config) -> (paths: [dynamic]string) {
return return
} }
envr_dir :: proc(config_path: string) -> string { find_git_roots :: proc(cfg: Config) -> (roots: [dynamic]string, ok: bool) {
return filepath.dir(config_path) paths := search_paths(cfg)
for sp in paths {
args := []string{"fd", "-H", "-t", "d", "^\\.git$", sp}
lines, fd_ok := run_fd(args)
if !fd_ok {
return
} }
// User is responsible for freeing the path for line in lines {
data_path :: proc(config_path: string, allocator := context.allocator) -> string { cleaned, _ := filepath.clean(line)
path, _ := filepath.join([]string{envr_dir(config_path), "data.envr"}, allocator) parent := filepath.dir(cleaned)
return path cloned, _ := strings.clone(parent)
append(&roots, cloned)
}
}
ok = true
return
} }

157
config_test.odin
View File

@@ -1,19 +1,12 @@
package main package main
import "core:fmt"
import "core:os"
import "core:path/filepath"
import "core:strings"
import "core:sync"
import "core:testing" import "core:testing"
home_mutex: sync.Mutex
@(test) @(test)
test_new_config_single_key :: proc(t: ^testing.T) { test_new_config_single_key :: proc(t: ^testing.T) {
paths := []string{"/home/user/.ssh/id_ed25519"} paths := []string{"/home/user/.ssh/id_ed25519"}
cfg := new_config(paths) cfg := new_config(paths)
defer delete_config(&cfg) defer delete_config(cfg)
testing.expect(t, len(cfg.Keys) == 1, "should have 1 key") testing.expect(t, len(cfg.Keys) == 1, "should have 1 key")
testing.expect(t, cfg.Keys[0].Private == "/home/user/.ssh/id_ed25519", "Private path mismatch") testing.expect(t, cfg.Keys[0].Private == "/home/user/.ssh/id_ed25519", "Private path mismatch")
@@ -28,7 +21,7 @@ test_new_config_single_key :: proc(t: ^testing.T) {
test_new_config_multiple_keys :: proc(t: ^testing.T) { test_new_config_multiple_keys :: proc(t: ^testing.T) {
paths := []string{"/home/user/.ssh/id_ed25519", "/home/user/.ssh/id_rsa"} paths := []string{"/home/user/.ssh/id_ed25519", "/home/user/.ssh/id_rsa"}
cfg := new_config(paths) cfg := new_config(paths)
defer delete_config(&cfg) defer delete_config(cfg)
testing.expect(t, len(cfg.Keys) == 2, "should have 2 keys") testing.expect(t, len(cfg.Keys) == 2, "should have 2 keys")
testing.expect(t, cfg.Keys[0].Private == "/home/user/.ssh/id_ed25519") testing.expect(t, cfg.Keys[0].Private == "/home/user/.ssh/id_ed25519")
@@ -39,7 +32,7 @@ test_new_config_multiple_keys :: proc(t: ^testing.T) {
test_new_config_empty_keys :: proc(t: ^testing.T) { test_new_config_empty_keys :: proc(t: ^testing.T) {
paths: []string paths: []string
cfg := new_config(paths) cfg := new_config(paths)
defer delete_config(&cfg) defer delete_config(cfg)
testing.expect(t, len(cfg.Keys) == 0, "should have 0 keys") testing.expect(t, len(cfg.Keys) == 0, "should have 0 keys")
} }
@@ -48,7 +41,7 @@ test_new_config_empty_keys :: proc(t: ^testing.T) {
test_new_config_scan_defaults :: proc(t: ^testing.T) { test_new_config_scan_defaults :: proc(t: ^testing.T) {
paths := []string{"/home/user/.ssh/id_ed25519"} paths := []string{"/home/user/.ssh/id_ed25519"}
cfg := new_config(paths) cfg := new_config(paths)
defer delete_config(&cfg) defer delete_config(cfg)
testing.expect(t, cfg.ScanConfig.Matcher == "\\.env", "matcher should be \\.env") testing.expect(t, cfg.ScanConfig.Matcher == "\\.env", "matcher should be \\.env")
testing.expect(t, len(cfg.ScanConfig.Exclude) == 4, "should have 4 exclude patterns") testing.expect(t, len(cfg.ScanConfig.Exclude) == 4, "should have 4 exclude patterns")
@@ -60,7 +53,7 @@ test_new_config_scan_defaults :: proc(t: ^testing.T) {
test_new_config_exclude_patterns :: proc(t: ^testing.T) { test_new_config_exclude_patterns :: proc(t: ^testing.T) {
paths := []string{"/home/user/.ssh/id_ed25519"} paths := []string{"/home/user/.ssh/id_ed25519"}
cfg := new_config(paths) cfg := new_config(paths)
defer delete_config(&cfg) defer delete_config(cfg)
expected := []string{"*\\.envrc", "\\.local/", "node_modules", "vendor"} expected := []string{"*\\.envrc", "\\.local/", "node_modules", "vendor"}
for i in 0 ..< len(expected) { for i in 0 ..< len(expected) {
@@ -68,143 +61,3 @@ test_new_config_exclude_patterns :: proc(t: ^testing.T) {
} }
} }
@(test)
test_save_load_config_roundtrip :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-cfg-rt-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
cfgPath, err := filepath.join([]string{base, "config.json"}, context.temp_allocator)
testing.expect(t, err == nil, "cfgPath should build successfully")
cfg := new_config([]string{"/home/user/.ssh/id_ed25519"}, cfgPath)
defer delete_config(&cfg)
testing.expect(t, save_config(cfg, force = true), "save should succeed")
loaded, ok := load_config(cfg.config_path)
testing.expect(t, ok, "load should succeed")
if !ok do return
defer delete_config(&loaded)
testing.expect(t, len(loaded.Keys) == 1, "should have 1 key")
testing.expect(t, loaded.Keys[0].Private == "/home/user/.ssh/id_ed25519")
testing.expect(t, loaded.Keys[0].Public == "/home/user/.ssh/id_ed25519.pub")
testing.expect(t, loaded.ScanConfig.Matcher == "\\.env")
testing.expect(t, len(loaded.ScanConfig.Exclude) == 4)
testing.expect(t, len(loaded.ScanConfig.Include) == 1)
testing.expect(t, loaded.ScanConfig.Include[0] == "~")
}
@(test)
test_load_config_missing :: proc(t: ^testing.T) {
_, ok := load_config("/tmp/envr-test-cfg-nonexistent/config.json")
testing.expect(t, !ok, "missing config should return false")
}
@(test)
test_save_config_no_clobber :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-cfg-noclobber-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
cfgPath, err := filepath.join([]string{base, "config.json"}, context.temp_allocator)
testing.expect(t, err == nil, "cfgPath should build successfully")
cfg := new_config([]string{"/home/user/.ssh/key1"}, cfgPath)
defer delete_config(&cfg)
testing.expect(t, save_config(cfg, force = true), "first save should succeed")
cfg2 := new_config([]string{"/home/user/.ssh/key2"}, cfgPath)
defer delete_config(&cfg2)
testing.expect(t, !save_config(cfg2), "second save without force should fail")
}
@(test)
test_save_config_force_overwrites :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-cfg-force-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
cfgPath, err := filepath.join([]string{base, "config.json"}, context.temp_allocator)
testing.expect(t, err == nil, "cfgPath should build successfully")
cfg := new_config([]string{"/home/user/.ssh/key1"}, cfgPath)
defer delete_config(&cfg)
testing.expect(t, save_config(cfg, force = true), "first save should succeed")
cfg2 := new_config([]string{"/home/user/.ssh/key2"}, cfgPath)
defer delete_config(&cfg2)
testing.expect(t, save_config(cfg2, force = true), "force save should overwrite")
loaded, ok := load_config(cfgPath)
testing.expect(t, ok, "load should succeed")
if !ok do return
defer delete_config(&loaded)
testing.expect(t, len(loaded.Keys) == 1, "should have 1 key")
testing.expect(
t,
loaded.Keys[0].Private == "/home/user/.ssh/key2",
"should be the overwritten key",
)
}
@(test)
test_envr_dir :: proc(t: ^testing.T) {
dir := envr_dir("/tmp/envr-fake-home-envrdir/.envr/config.json")
testing.expectf(t, strings.has_suffix(dir, ".envr"), "dir should end with .envr, got %s", dir)
testing.expectf(
t,
strings.contains(dir, "envr-fake-home-envrdir"),
"dir should contain home dir, got %s",
dir,
)
}
@(test)
test_data_path :: proc(t: ^testing.T) {
p := data_path("/tmp/envr-fake-home-datapath/config.json")
defer delete(p)
testing.expectf(t, strings.has_suffix(p, "data.envr"), "should end with data.envr, got %s", p)
testing.expectf(t, strings.contains(p, ".envr"), "should contain .envr dir, got %s", p)
}
@(test)
test_search_paths_expands_tilde :: proc(t: ^testing.T) {
sync.mutex_lock(&home_mutex)
defer sync.mutex_unlock(&home_mutex)
old_home := os.get_env("HOME", context.temp_allocator)
defer {
if old_home != "" {
os.set_env("HOME", old_home)
}
}
os.set_env("HOME", "/tmp/envr-fake-home-search")
cfg := Config {
ScanConfig = ScanConfig{Include = make([dynamic]string, 0, 1)},
}
defer delete(cfg.ScanConfig.Include)
append(&cfg.ScanConfig.Include, "~")
paths := search_paths(cfg)
defer delete(paths)
for path in paths {
defer delete(path)
}
testing.expect(t, len(paths) == 1, "should have 1 path")
if len(paths) > 0 {
testing.expectf(
t,
strings.contains(paths[0], "envr-fake-home-search"),
"should expand ~ to home, got %s",
paths[0],
)
testing.expect(t, !strings.contains(paths[0], "~"), "should not contain literal ~")
}
}

123
crypto.odin
View File

@@ -2,7 +2,6 @@ package main
import "core:fmt" import "core:fmt"
import "core:mem" import "core:mem"
import "core:os"
MAGIC :: "ENVR" MAGIC :: "ENVR"
MAGIC_BYTES := [4]u8{u8('E'), u8('N'), u8('V'), u8('R')} MAGIC_BYTES := [4]u8{u8('E'), u8('N'), u8('V'), u8('R')}
@@ -21,19 +20,80 @@ RecipientEntry :: struct {
EncryptedKey: [CRYPTO_SECRETBOX_KEY_BYTES + CRYPTO_BOX_MAC_BYTES]u8, EncryptedKey: [CRYPTO_SECRETBOX_KEY_BYTES + CRYPTO_BOX_MAC_BYTES]u8,
} }
sodium_initialized: bool
ensure_sodium :: proc() -> bool {
if sodium_initialized {
return true
}
rc := sodium_init()
if rc < 0 {
fmt.println("Error: libsodium initialization failed")
return false
}
sodium_initialized = true
return true
}
X25519Keypair :: struct { X25519Keypair :: struct {
Public: [CRYPTO_BOX_PUBLICKEY_BYTES]u8, Public: [CRYPTO_BOX_PUBLICKEY_BYTES]u8,
Private: [CRYPTO_BOX_SECRETKEY_BYTES]u8, Private: [CRYPTO_BOX_SECRETKEY_BYTES]u8,
} }
@(init) ssh_to_x25519 :: proc(keys: []SshKeyPair) -> (pairs: []X25519Keypair, ok: bool) {
init_sodium :: proc "contextless" () { if len(keys) == 0 {
if sodium_init() < 0 { return
os.exit(1) }
pairs = make([]X25519Keypair, len(keys))
for i in 0 ..< len(keys) {
ssh_kp, parse_ok := parse_ssh_private_key(keys[i].Private)
if !parse_ok {
fmt.printf("Error: failed to parse SSH private key: %s\n", keys[i].Private)
delete(pairs)
return
}
ssh_pub, pub_ok := parse_ssh_public_key(keys[i].Public)
if !pub_ok {
fmt.printf("Error: failed to parse SSH public key: %s\n", keys[i].Public)
delete(pairs)
return
}
pk_rc := crypto_sign_ed25519_pk_to_curve25519(&pairs[i].Public[0], &ssh_pub[0])
if pk_rc != 0 {
fmt.println("Error: failed to convert ed25519 public key to curve25519")
delete(pairs)
return
}
ed25519_sk: [64]u8
for j in 0 ..< 32 {
ed25519_sk[j] = ssh_kp.Private[j]
}
for j in 0 ..< 32 {
ed25519_sk[32 + j] = ssh_kp.Public[j]
}
sk_rc := crypto_sign_ed25519_sk_to_curve25519(&pairs[i].Private[0], &ed25519_sk[0])
if sk_rc != 0 {
fmt.println("Error: failed to convert ed25519 private key to curve25519")
delete(pairs)
return
} }
} }
ok = true
return
}
encrypt :: proc(plaintext: []u8, keys: []SshKeyPair) -> (ciphertext: []u8, ok: bool) { encrypt :: proc(plaintext: []u8, keys: []SshKeyPair) -> (ciphertext: []u8, ok: bool) {
if !ensure_sodium() {
return
}
x25519_pairs, pairs_ok := ssh_to_x25519(keys) x25519_pairs, pairs_ok := ssh_to_x25519(keys)
if !pairs_ok { if !pairs_ok {
return return
@@ -133,6 +193,10 @@ encrypt :: proc(plaintext: []u8, keys: []SshKeyPair) -> (ciphertext: []u8, ok: b
} }
decrypt :: proc(ciphertext: []u8, keys: []SshKeyPair) -> (plaintext: []u8, ok: bool) { decrypt :: proc(ciphertext: []u8, keys: []SshKeyPair) -> (plaintext: []u8, ok: bool) {
if !ensure_sodium() {
return
}
if len(ciphertext) < HEADER_SIZE { if len(ciphertext) < HEADER_SIZE {
fmt.println("Error: ciphertext too short (header)") fmt.println("Error: ciphertext too short (header)")
return return
@@ -272,52 +336,3 @@ decrypt :: proc(ciphertext: []u8, keys: []SshKeyPair) -> (plaintext: []u8, ok: b
return return
} }
ssh_to_x25519 :: proc(keys: []SshKeyPair) -> (pairs: []X25519Keypair, ok: bool) {
if len(keys) == 0 {
return
}
pairs = make([]X25519Keypair, len(keys))
for i in 0 ..< len(keys) {
ssh_kp, parse_ok := parse_ssh_private_key(keys[i].Private)
if !parse_ok {
fmt.printf("Error: failed to parse SSH private key: %s\n", keys[i].Private)
delete(pairs)
return
}
ssh_pub, pub_ok := parse_ssh_public_key(keys[i].Public)
if !pub_ok {
fmt.printf("Error: failed to parse SSH public key: %s\n", keys[i].Public)
delete(pairs)
return
}
pk_rc := crypto_sign_ed25519_pk_to_curve25519(&pairs[i].Public[0], &ssh_pub[0])
if pk_rc != 0 {
fmt.println("Error: failed to convert ed25519 public key to curve25519")
delete(pairs)
return
}
ed25519_sk: [64]u8
for j in 0 ..< 32 {
ed25519_sk[j] = ssh_kp.Private[j]
}
for j in 0 ..< 32 {
ed25519_sk[32 + j] = ssh_kp.Public[j]
}
sk_rc := crypto_sign_ed25519_sk_to_curve25519(&pairs[i].Private[0], &ed25519_sk[0])
if sk_rc != 0 {
fmt.println("Error: failed to convert ed25519 private key to curve25519")
delete(pairs)
return
}
}
ok = true
return
}

40
crypto_test.odin
View File

@@ -3,7 +3,7 @@ package main
import "core:fmt" import "core:fmt"
import "core:testing" import "core:testing"
CRYPTO_TEST_KEY_DIR :: "fixtures/keys" CRYPTO_TEST_KEY_DIR :: "/tmp/envr-test-keys"
make_test_key_pair :: proc(name: string) -> SshKeyPair { make_test_key_pair :: proc(name: string) -> SshKeyPair {
priv := fmt.tprintf("%s/%s", CRYPTO_TEST_KEY_DIR, name) priv := fmt.tprintf("%s/%s", CRYPTO_TEST_KEY_DIR, name)
@@ -25,11 +25,7 @@ test_encrypt_decrypt_roundtrip :: proc(t: ^testing.T) {
testing.expect(t, dec_ok, "decryption should succeed") testing.expect(t, dec_ok, "decryption should succeed")
defer delete(decrypted) defer delete(decrypted)
testing.expect( testing.expect(t, len(decrypted) == len(original), fmt.tprintf("expected %d bytes, got %d", len(original), len(decrypted)))
t,
len(decrypted) == len(original),
fmt.tprintf("expected %d bytes, got %d", len(original), len(decrypted)),
)
for i in 0 ..< len(original) { for i in 0 ..< len(original) {
testing.expect(t, decrypted[i] == original[i], fmt.tprintf("byte mismatch at index %d", i)) testing.expect(t, decrypted[i] == original[i], fmt.tprintf("byte mismatch at index %d", i))
} }
@@ -54,16 +50,8 @@ test_encrypt_decrypt_multi_recipient :: proc(t: ^testing.T) {
defer delete(decrypted2) defer delete(decrypted2)
for i in 0 ..< len(original) { for i in 0 ..< len(original) {
testing.expect( testing.expect(t, decrypted1[i] == original[i], fmt.tprintf("key1: byte mismatch at %d", i))
t, testing.expect(t, decrypted2[i] == original[i], fmt.tprintf("key2: byte mismatch at %d", i))
decrypted1[i] == original[i],
fmt.tprintf("key1: byte mismatch at %d", i),
)
testing.expect(
t,
decrypted2[i] == original[i],
fmt.tprintf("key2: byte mismatch at %d", i),
)
} }
} }
@@ -97,25 +85,6 @@ test_encrypt_empty_plaintext :: proc(t: ^testing.T) {
testing.expect(t, len(decrypted) == 0, "decrypted empty data should be empty") testing.expect(t, len(decrypted) == 0, "decrypted empty data should be empty")
} }
@(test)
test_recipient_can_decrypt_senders_data :: proc(t: ^testing.T) {
key1 := make_test_key_pair("test_ed25519")
key2 := make_test_key_pair("test_ed25519_second")
original := []u8{10, 20, 30, 40, 50}
encrypted, enc_ok := encrypt(original, []SshKeyPair{key1, key2})
testing.expect(t, enc_ok, "encryption with 2 keys should succeed")
defer delete(encrypted)
decrypted, dec_ok := decrypt(encrypted, []SshKeyPair{key2})
testing.expect(t, dec_ok, "second recipient should decrypt without the sender key present")
defer delete(decrypted)
for i in 0 ..< len(original) {
testing.expect(t, decrypted[i] == original[i], fmt.tprintf("byte mismatch at %d", i))
}
}
@(test) @(test)
test_ciphertext_has_magic :: proc(t: ^testing.T) { test_ciphertext_has_magic :: proc(t: ^testing.T) {
key := make_test_key_pair("test_ed25519") key := make_test_key_pair("test_ed25519")
@@ -131,4 +100,3 @@ test_ciphertext_has_magic :: proc(t: ^testing.T) {
testing.expect(t, encrypted[2] == u8('V'), "magic byte 2") testing.expect(t, encrypted[2] == u8('V'), "magic byte 2")
testing.expect(t, encrypted[3] == u8('R'), "magic byte 3") testing.expect(t, encrypted[3] == u8('R'), "magic byte 3")
} }

614
db.odin
View File

@@ -2,12 +2,12 @@ package main
import "core:crypto/hash" import "core:crypto/hash"
import "core:encoding/hex" import "core:encoding/hex"
import "core:encoding/ini"
import "core:encoding/json" import "core:encoding/json"
import "core:fmt" import "core:fmt"
import "core:os" import "core:os"
import "core:path/filepath" import "core:path/filepath"
import "core:strings" import "core:strings"
import "core:time"
import "sqlite" import "sqlite"
@@ -27,7 +27,6 @@ SyncDirection :: enum {
} }
Db :: struct { Db :: struct {
// Pointer to the sqlite db
db: ^rawptr, db: ^rawptr,
cfg: Config, cfg: Config,
changed: bool, changed: bool,
@@ -41,147 +40,99 @@ EnvFile :: struct {
contents: string, contents: string,
} }
delete_envfile :: proc(f: ^EnvFile) { make_temp_path :: proc() -> string {
delete(f.Path) ts := time.time_to_unix(time.now())
for &remote in f.Remotes { b: strings.Builder
delete(remote) strings.builder_init(&b)
} fmt.sbprintf(&b, "/tmp/envr-%d-%d.db", os.get_pid(), ts)
delete(f.Remotes) return strings.to_string(b)
delete(f.Sha256)
delete(f.contents)
} }
db_open :: proc(cfg_path: string) -> (database: Db, ok: bool) { db_open :: proc() -> (Db, bool) {
database.cfg = load_config(cfg_path) or_return cfg, ok := load_config()
if !ok {
return Db{}, false
}
data_path := data_encrypted_path()
_, stat_err := os.stat(data_path, context.allocator)
{
db: ^rawptr db: ^rawptr
rc := sqlite.db_open(":memory:", &db) rc := sqlite.db_open(":memory:", &db)
if rc != sqlite.OK { if rc != sqlite.OK {
fmt.printf("Error opening in-memory database: %s\n", sqlite.db_errmsg(db)) fmt.printf("Error opening in-memory database: %s\n", sqlite.db_errmsg(db))
return return Db{}, false
} }
create_sql: cstring = "CREATE TABLE IF NOT EXISTS envr_env_files (path TEXT PRIMARY KEY NOT NULL, remotes TEXT, sha256 TEXT NOT NULL, contents TEXT NOT NULL)" create_sql := "CREATE TABLE IF NOT EXISTS envr_env_files (path TEXT PRIMARY KEY NOT NULL, remotes TEXT, sha256 TEXT NOT NULL, contents TEXT NOT NULL)"
rc = sqlite.db_exec(db, create_sql, nil, nil, nil) rc = sqlite.db_exec(db, string_to_cstring(create_sql), nil, nil, nil)
if rc != sqlite.OK { if rc != sqlite.OK {
fmt.printf("Error creating table: %s\n", sqlite.db_errmsg(db)) fmt.printf("Error creating table: %s\n", sqlite.db_errmsg(db))
sqlite.db_close(db) sqlite.db_close(db)
return return Db{}, false
}
database.db = db
} }
// TODO: Use different allocators? if stat_err == nil {
data_path := data_path(database.cfg.config_path, context.temp_allocator) if !db_restore_from_encrypted(db, cfg) {
if os.exists(data_path) { sqlite.db_close(db)
if ok = db_restore_from_encrypted(&database, data_path); !ok { return Db{}, false
sqlite.db_close(database.db)
return
} }
} else {
// DB was created
database.changed = true
} }
return database, true return Db{db = db, cfg = cfg, changed = stat_err != nil}, true
}
db_restore_from_encrypted :: proc(db: ^Db, data_path: string) -> bool {
encrypted_data, read_err := os.read_entire_file_from_path(data_path, context.allocator)
defer delete(encrypted_data)
if read_err != nil {
fmt.printf("Error reading encrypted database: %v\n", read_err)
return false
}
plaintext, dec_ok := decrypt(encrypted_data, db.cfg.Keys[:])
if !dec_ok {
fmt.println("Error: decryption failed")
return false
}
defer delete(plaintext)
n := i64(len(plaintext))
buf := sqlite.malloc64(n)
if buf == nil {
fmt.println("Error: failed to allocate buffer for deserialization")
return false
}
copy(buf[:len(plaintext)], plaintext)
rc := sqlite.deserialize(
db.db,
"main",
buf,
n,
n,
sqlite.DESERIALIZE_FREEONCLOSE | sqlite.DESERIALIZE_RESIZEABLE,
)
if rc != sqlite.OK {
sqlite.free(buf)
fmt.printf("Error deserializing database: %s\n", sqlite.db_errmsg(db.db))
return false
}
return true
} }
db_close :: proc(d: ^Db) { db_close :: proc(d: ^Db) {
defer sqlite.db_close(d.db)
defer delete_config(&d.cfg)
if d.changed { if d.changed {
rc := sqlite.db_exec(d.db, "VACUUM", nil, nil, nil) tmp_path := make_temp_path()
if rc != sqlite.OK {
fmt.printf("Error vacuuming database: %s\n", sqlite.db_errmsg(d.db)) if !db_vacuum_to_file(d.db, tmp_path) {
os.remove(tmp_path)
sqlite.db_close(d.db)
return return
} }
sz: i64 sqlite_data, read_err := os.read_entire_file_from_path(tmp_path, context.allocator)
data := sqlite.serialize(d.db, "main", &sz, 0) os.remove(tmp_path)
if data == nil { if read_err != nil {
fmt.println("Error: failed to serialize database") fmt.printf("Error reading vacuumed database: %v\n", read_err)
sqlite.db_close(d.db)
return return
} }
defer sqlite.free(data)
sqlite_data := data[:sz]
encrypted, enc_ok := encrypt(sqlite_data, d.cfg.Keys[:]) encrypted, enc_ok := encrypt(sqlite_data, d.cfg.Keys[:])
delete(sqlite_data)
if !enc_ok { if !enc_ok {
fmt.println("Error: encryption failed") fmt.println("Error: encryption failed")
sqlite.db_close(d.db)
return return
} }
data_path := data_path(d.cfg.config_path) data_path := data_encrypted_path()
envr_d := envr_dir(d.cfg.config_path) envr_d := envr_dir()
os.mkdir_all(envr_d) os.mkdir_all(envr_d)
write_err := os.write_entire_file(data_path, encrypted) write_err := os.write_entire_file(data_path, encrypted)
delete(encrypted) delete(encrypted)
if write_err != nil { if write_err != nil {
fmt.printf("Error writing encrypted database: %v\n", write_err) fmt.printf("Error writing encrypted database: %v\n", write_err)
sqlite.db_close(d.db)
return return
} }
d.changed = false d.changed = false
} }
sqlite.db_close(d.db)
} }
db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]EnvFile, ok: bool) { db_list :: proc(d: ^Db) -> (results: [dynamic]EnvFile, ok: bool) {
sql := "SELECT path, remotes, sha256, contents FROM envr_env_files"
stmt: ^rawptr stmt: ^rawptr
rc := sqlite.prepare_v2( rc := sqlite.prepare_v2(d.db, string_to_cstring(sql), -1, &stmt, nil)
d.db,
"SELECT path, remotes, sha256, contents FROM envr_env_files",
-1,
&stmt,
nil,
)
if rc != sqlite.OK { if rc != sqlite.OK {
fmt.printf("Error preparing query: %s\n", sqlite.db_errmsg(d.db)) fmt.printf("Error preparing query: %s\n", sqlite.db_errmsg(d.db))
return return
} }
defer sqlite.finalize(stmt)
for { for {
rc = sqlite.step(stmt) rc = sqlite.step(stmt)
@@ -190,15 +141,19 @@ db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]En
} }
if rc != sqlite.ROW { if rc != sqlite.ROW {
fmt.printf("Error stepping query: %s\n", sqlite.db_errmsg(d.db)) fmt.printf("Error stepping query: %s\n", sqlite.db_errmsg(d.db))
sqlite.finalize(stmt)
return return
} }
remotes_json := string(sqlite.column_text(stmt, 1)) path := cstring_to_string(sqlite.column_text(stmt, 0))
remotes: [dynamic]string = --- remotes_json := cstring_to_string(sqlite.column_text(stmt, 1))
sha := cstring_to_string(sqlite.column_text(stmt, 2))
contents := cstring_to_string(sqlite.column_text(stmt, 3))
remotes: [dynamic]string
if len(remotes_json) > 0 { if len(remotes_json) > 0 {
json.unmarshal_string(remotes_json, &remotes, allocator = allocator) json.unmarshal_string(remotes_json, &remotes)
} }
path := clone_cstring(sqlite.column_text(stmt, 0), allocator)
append( append(
&results, &results,
@@ -206,67 +161,203 @@ db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]En
Path = path, Path = path,
Dir = filepath.dir(path), Dir = filepath.dir(path),
Remotes = remotes, Remotes = remotes,
Sha256 = clone_cstring(sqlite.column_text(stmt, 2), allocator), Sha256 = sha,
contents = clone_cstring(sqlite.column_text(stmt, 3), allocator), contents = contents,
}, },
) )
} }
sqlite.finalize(stmt)
ok = true ok = true
return return
} }
db_vacuum_to_file :: proc(db: ^rawptr, path: string) -> bool {
b: strings.Builder
strings.builder_init(&b)
fmt.sbprintf(&b, "VACUUM INTO '%s'", path)
sql := strings.to_string(b)
rc := sqlite.db_exec(db, string_to_cstring(sql), nil, nil, nil)
if rc != sqlite.OK {
fmt.printf("Error vacuuming database: %s\n", sqlite.db_errmsg(db))
return false
}
return true
}
db_restore_from_encrypted :: proc(db: ^rawptr, cfg: Config) -> bool {
data_path := data_encrypted_path()
encrypted_data, read_err := os.read_entire_file_from_path(data_path, context.temp_allocator)
if read_err != nil {
fmt.printf("Error reading encrypted database: %v\n", read_err)
return false
}
plaintext, dec_ok := decrypt(encrypted_data, cfg.Keys[:])
if !dec_ok {
fmt.println("Error: decryption failed")
return false
}
defer delete(plaintext)
tmp_path := make_temp_path()
write_err := os.write_entire_file(tmp_path, plaintext)
if write_err != nil {
fmt.printf("Error writing temp database: %v\n", write_err)
return false
}
defer os.remove(tmp_path)
if !db_attach_and_copy(db, tmp_path) {
return false
}
return true
}
db_attach_and_copy :: proc(mem_db: ^rawptr, src_path: string) -> bool {
b: strings.Builder
strings.builder_init(&b)
fmt.sbprintf(&b, "ATTACH DATABASE '%s' AS source", src_path)
attach_sql := strings.to_string(b)
rc := sqlite.db_exec(mem_db, string_to_cstring(attach_sql), nil, nil, nil)
if rc != sqlite.OK {
fmt.printf("Error attaching database: %s\n", sqlite.db_errmsg(mem_db))
return false
}
rc = sqlite.db_exec(
mem_db,
"INSERT INTO main.envr_env_files SELECT * FROM source.envr_env_files",
nil,
nil,
nil,
)
if rc != sqlite.OK {
fmt.printf("Error copying data: %s\n", sqlite.db_errmsg(mem_db))
sqlite.db_exec(mem_db, "DETACH DATABASE source", nil, nil, nil)
return false
}
sqlite.db_exec(mem_db, "DETACH DATABASE source", nil, nil, nil)
return true
}
get_git_remotes :: proc(dir: string) -> [dynamic]string {
remotes: [dynamic]string
remote_set: map[string]bool
b: strings.Builder
strings.builder_init(&b)
fmt.sbprintf(&b, "%s-git-remotes", make_temp_path())
tmp_path := strings.to_string(b)
tmp_file, tmp_err := os.open(tmp_path, os.O_CREATE | os.O_WRONLY | os.O_TRUNC)
if tmp_err != nil {
return remotes
}
args := []string{"git", "remote", "-v"}
desc := os.Process_Desc {
command = args,
stdout = tmp_file,
stderr = nil,
working_dir = dir,
}
p, start_err := os.process_start(desc)
os.close(tmp_file)
if start_err != nil {
os.remove(tmp_path)
return remotes
}
state, wait_err := os.process_wait(p)
if wait_err != nil || state.exit_code != 0 {
os.remove(tmp_path)
return remotes
}
data, read_err := os.read_entire_file_from_path(tmp_path, context.allocator)
os.remove(tmp_path)
if read_err != nil {
return remotes
}
output_str := string(data)
lines := strings.split(output_str, "\n")
for &line in lines {
line = strings.trim_space(line)
if len(line) == 0 {
continue
}
parts := strings.fields(line)
if len(parts) >= 2 {
remote_set[parts[1]] = true
}
}
for remote, _ in remote_set {
cloned, _ := strings.clone(remote)
append(&remotes, cloned)
}
return remotes
}
new_env_file :: proc(path: string) -> (EnvFile, bool) {
abs_path, abs_err := filepath.abs(path)
if abs_err != nil {
fmt.printf("Error getting absolute path: %v\n", abs_err)
return EnvFile{}, false
}
cloned_path, _ := strings.clone(abs_path)
dir := filepath.dir(cloned_path)
remotes := get_git_remotes(dir)
data, read_err := os.read_entire_file_from_path(cloned_path, context.allocator)
if read_err != nil {
fmt.printf("Error reading file %s: %v\n", cloned_path, read_err)
return EnvFile{}, false
}
digest := hash.hash_bytes(hash.Algorithm.SHA256, data)
hex_bytes, _ := hex.encode(digest)
sha_str := string(hex_bytes)
return EnvFile {
Path = cloned_path,
Dir = dir,
Remotes = remotes,
Sha256 = sha_str,
contents = string(data),
},
true
}
db_insert :: proc(d: ^Db, file: EnvFile) -> bool { db_insert :: proc(d: ^Db, file: EnvFile) -> bool {
remotes_json, marshal_err := json.marshal(file.Remotes) remotes_json, marshal_err := json.marshal(file.Remotes)
if marshal_err != nil { if marshal_err != nil {
fmt.printf("Error marshaling remotes: %v\n", marshal_err) fmt.printf("Error marshaling remotes: %v\n", marshal_err)
return false return false
} }
defer delete(remotes_json)
sql: cstring = sql := "INSERT OR REPLACE INTO envr_env_files (path, remotes, sha256, contents) VALUES (?, ?, ?, ?)"
"INSERT OR REPLACE INTO " +
"envr_env_files (path, remotes, sha256, contents) VALUES (?, ?, ?, ?)"
stmt: ^rawptr stmt: ^rawptr
rc := sqlite.prepare_v2(d.db, sql, -1, &stmt, nil) rc := sqlite.prepare_v2(d.db, string_to_cstring(sql), -1, &stmt, nil)
if rc != sqlite.OK { if rc != sqlite.OK {
fmt.printf("Error preparing insert: %s\n", sqlite.db_errmsg(d.db)) fmt.printf("Error preparing insert: %s\n", sqlite.db_errmsg(d.db))
return false return false
} }
defer sqlite.finalize(stmt) defer sqlite.finalize(stmt)
// TODO: deal with elsewhere? rc = sqlite.bind_text(stmt, 1, string_to_cstring(file.Path), -1, nil)
cpath := to_cstring(file.Path) rc = sqlite.bind_text(stmt, 2, string_to_cstring(string(remotes_json)), -1, nil)
defer delete(cpath) rc = sqlite.bind_text(stmt, 3, string_to_cstring(file.Sha256), -1, nil)
rc = sqlite.bind_text(stmt, 1, cpath, -1, nil) rc = sqlite.bind_text(stmt, 4, string_to_cstring(file.contents), -1, nil)
if rc != sqlite.OK {
fmt.printf("Error binding path: %s\n", sqlite.db_errmsg(d.db))
return false
}
cremotes := to_cstring(string(remotes_json))
defer delete(cremotes)
rc = sqlite.bind_text(stmt, 2, cremotes, -1, nil)
if rc != sqlite.OK {
fmt.printf("Error binding remotes: %s\n", sqlite.db_errmsg(d.db))
return false
}
csha := to_cstring(file.Sha256)
defer delete(csha)
rc = sqlite.bind_text(stmt, 3, csha, -1, nil)
if rc != sqlite.OK {
fmt.printf("Error binding sha256: %s\n", sqlite.db_errmsg(d.db))
return false
}
ccontents := to_cstring(file.contents)
defer delete(ccontents)
rc = sqlite.bind_text(stmt, 4, ccontents, -1, nil)
if rc != sqlite.OK {
fmt.printf("Error binding contents: %s\n", sqlite.db_errmsg(d.db))
return false
}
rc = sqlite.step(stmt) rc = sqlite.step(stmt)
if rc != sqlite.DONE { if rc != sqlite.DONE {
@@ -278,23 +369,17 @@ db_insert :: proc(d: ^Db, file: EnvFile) -> bool {
return true return true
} }
db_fetch :: proc(d: ^Db, path: string, allocator := context.allocator) -> (EnvFile, bool) { db_fetch :: proc(d: ^Db, path: string) -> (EnvFile, bool) {
sql: cstring = "SELECT path, remotes, sha256, contents FROM envr_env_files WHERE path = ?" sql := "SELECT path, remotes, sha256, contents FROM envr_env_files WHERE path = ?"
stmt: ^rawptr stmt: ^rawptr
rc := sqlite.prepare_v2(d.db, sql, -1, &stmt, nil) rc := sqlite.prepare_v2(d.db, string_to_cstring(sql), -1, &stmt, nil)
if rc != sqlite.OK { if rc != sqlite.OK {
fmt.printf("Error preparing fetch: %s\n", sqlite.db_errmsg(d.db)) fmt.printf("Error preparing fetch: %s\n", sqlite.db_errmsg(d.db))
return EnvFile{}, false return EnvFile{}, false
} }
defer sqlite.finalize(stmt) defer sqlite.finalize(stmt)
cpath := to_cstring(path, allocator) rc = sqlite.bind_text(stmt, 1, string_to_cstring(path), -1, nil)
defer delete(cpath, allocator)
rc = sqlite.bind_text(stmt, 1, cpath, -1, nil)
if rc != sqlite.OK {
fmt.printf("Error binding path: %s\n", sqlite.db_errmsg(d.db))
return EnvFile{}, false
}
rc = sqlite.step(stmt) rc = sqlite.step(stmt)
if rc == sqlite.DONE { if rc == sqlite.DONE {
fmt.printf("No file found with path: %s\n", path) fmt.printf("No file found with path: %s\n", path)
@@ -305,41 +390,38 @@ db_fetch :: proc(d: ^Db, path: string, allocator := context.allocator) -> (EnvFi
return EnvFile{}, false return EnvFile{}, false
} }
remotes_json := string(sqlite.column_text(stmt, 1)) file_path := cstring_to_string(sqlite.column_text(stmt, 0))
remotes: [dynamic]string = --- remotes_json := cstring_to_string(sqlite.column_text(stmt, 1))
sha := cstring_to_string(sqlite.column_text(stmt, 2))
contents := cstring_to_string(sqlite.column_text(stmt, 3))
remotes: [dynamic]string
if len(remotes_json) > 0 { if len(remotes_json) > 0 {
json.unmarshal_string(remotes_json, &remotes, allocator = allocator) json.unmarshal_string(remotes_json, &remotes)
} }
file_path := clone_cstring(sqlite.column_text(stmt, 0)) cloned_path, _ := strings.clone(file_path)
return EnvFile { return EnvFile {
Path = file_path, Path = cloned_path,
Dir = filepath.dir(file_path), Dir = filepath.dir(cloned_path),
Remotes = remotes, Remotes = remotes,
Sha256 = clone_cstring(sqlite.column_text(stmt, 2), allocator), Sha256 = sha,
contents = clone_cstring(sqlite.column_text(stmt, 3), allocator), contents = contents,
}, },
true true
} }
db_delete :: proc(d: ^Db, path: string) -> bool { db_delete :: proc(d: ^Db, path: string) -> bool {
sql: cstring = "DELETE FROM envr_env_files WHERE path = ?" sql := "DELETE FROM envr_env_files WHERE path = ?"
stmt: ^rawptr stmt: ^rawptr
rc := sqlite.prepare_v2(d.db, sql, -1, &stmt, nil) rc := sqlite.prepare_v2(d.db, string_to_cstring(sql), -1, &stmt, nil)
if rc != sqlite.OK { if rc != sqlite.OK {
fmt.printf("Error preparing delete: %s\n", sqlite.db_errmsg(d.db)) fmt.printf("Error preparing delete: %s\n", sqlite.db_errmsg(d.db))
return false return false
} }
defer sqlite.finalize(stmt) defer sqlite.finalize(stmt)
cpath := to_cstring(path) rc = sqlite.bind_text(stmt, 1, string_to_cstring(path), -1, nil)
defer delete(cpath)
rc = sqlite.bind_text(stmt, 1, cpath, -1, nil)
if rc != sqlite.OK {
fmt.printf("Error binding path: %s\n", sqlite.db_errmsg(d.db))
return false
}
rc = sqlite.step(stmt) rc = sqlite.step(stmt)
if rc != sqlite.DONE { if rc != sqlite.DONE {
fmt.printf("Error deleting: %s\n", sqlite.db_errmsg(d.db)) fmt.printf("Error deleting: %s\n", sqlite.db_errmsg(d.db))
@@ -355,43 +437,79 @@ db_delete :: proc(d: ^Db, path: string) -> bool {
return true return true
} }
new_env_file :: proc(path: string) -> (EnvFile, bool) { cstring_to_string :: proc(cs: cstring) -> string {
abs_path, abs_err := filepath.abs(path) if cs == nil {
if abs_err != nil { return ""
fmt.printf("Error getting absolute path: %v\n", abs_err) }
return EnvFile{}, false s, _ := strings.clone_from_cstring(cs)
return s
} }
dir := filepath.dir(abs_path) string_to_cstring :: proc(s: string) -> cstring {
cs, _ := strings.clone_to_cstring(s)
return cs
}
remotes := get_git_remotes(dir) db_update_required :: proc(status: SyncFlag) -> bool {
return .BackedUp in status || .DirUpdated in status
}
data, read_err := os.read_entire_file_from_path(abs_path, context.allocator) shares_remote :: proc(f: ^EnvFile, remotes: []string) -> bool {
defer delete(data) for r1 in f.Remotes {
for r2 in remotes {
if r1 == r2 {
return true
}
}
}
return false
}
update_dir :: proc(f: ^EnvFile, new_dir: string) {
f.Dir = new_dir
base := filepath.base(f.Path)
new_path, _ := strings.concatenate({new_dir, "/", base})
f.Path = new_path
f.Remotes = get_git_remotes(new_dir)
}
find_moved_dirs :: proc(d: ^Db, f: ^EnvFile) -> ([dynamic]string, bool) {
feats := check_features()
if .Fd not_in feats || .Git not_in feats {
fmt.println("Error: fd and git are required for moved dir detection")
return {}, false
}
roots, roots_ok := find_git_roots(d.cfg)
if !roots_ok {
return {}, false
}
moved: [dynamic]string
for root in roots {
remotes := get_git_remotes(root)
if shares_remote(f, remotes[:]) {
cloned, _ := strings.clone(root)
append(&moved, cloned)
}
}
return moved, true
}
env_file_backup :: proc(f: ^EnvFile) -> bool {
data, read_err := os.read_entire_file_from_path(f.Path, context.allocator)
if read_err != nil { if read_err != nil {
fmt.printf("Error reading file %s: %v\n", abs_path, read_err) fmt.printf("Error reading file %s: %v\n", f.Path, read_err)
return EnvFile{}, false return false
} }
digest := hash.hash_bytes(hash.Algorithm.SHA256, data, context.temp_allocator) f.contents = string(data)
// TODO: Handle error digest := hash.hash_bytes(hash.Algorithm.SHA256, data)
hex_bytes, _ := hex.encode(digest) hex_bytes, _ := hex.encode(digest)
f.Sha256 = string(hex_bytes)
return EnvFile { return true
Path = abs_path,
Dir = dir,
Remotes = remotes,
Sha256 = string(hex_bytes),
contents = string(data),
},
true
} }
db_sync :: proc(d: ^Db, f: ^EnvFile) -> (SyncFlag, string) {
return env_file_sync(f, .TrustFilesystem, d)
}
// If SyncFlag is .BackedUp, Caller is responsible for calling delete on f.contents and f.Sha256
env_file_sync :: proc(f: ^EnvFile, dir: SyncDirection, d: ^Db) -> (SyncFlag, string) { env_file_sync :: proc(f: ^EnvFile, dir: SyncDirection, d: ^Db) -> (SyncFlag, string) {
result: SyncFlag = {} result: SyncFlag = {}
@@ -437,7 +555,6 @@ env_file_sync :: proc(f: ^EnvFile, dir: SyncDirection, d: ^Db) -> (SyncFlag, str
} }
digest := hash.hash_bytes(hash.Algorithm.SHA256, data) digest := hash.hash_bytes(hash.Algorithm.SHA256, data)
// TODO: Handle error
hex_bytes, _ := hex.encode(digest) hex_bytes, _ := hex.encode(digest)
current_sha := string(hex_bytes) current_sha := string(hex_bytes)
@@ -463,118 +580,7 @@ env_file_sync :: proc(f: ^EnvFile, dir: SyncDirection, d: ^Db) -> (SyncFlag, str
return result, "" return result, ""
} }
find_moved_dirs :: proc(d: ^Db, f: ^EnvFile) -> ([dynamic]string, bool) { db_sync :: proc(d: ^Db, f: ^EnvFile) -> (SyncFlag, string) {
roots, roots_ok := find_git_roots(d.cfg) return env_file_sync(f, .TrustFilesystem, d)
if !roots_ok {
return {}, false
}
moved: [dynamic]string
for root in roots {
remotes := get_git_remotes(root)
if shares_remote(f, remotes[:]) {
cloned, _ := strings.clone(root)
append(&moved, cloned)
}
}
return moved, true
}
update_dir :: proc(f: ^EnvFile, new_dir: string) {
f.Dir = new_dir
base := filepath.base(f.Path)
new_path, _ := strings.concatenate({new_dir, "/", base})
f.Path = new_path
f.Remotes = get_git_remotes(new_dir)
}
// Loads the contents of the the file at f.Path into f.contents
//
// Caller is responsible for calling delete on f.contents and f.Sha256
env_file_backup :: proc(f: ^EnvFile) -> bool {
data, read_err := os.read_entire_file_from_path(f.Path, context.allocator)
if read_err != nil {
fmt.printf("Error reading file %s: %v\n", f.Path, read_err)
return false
}
f.contents = string(data)
digest := hash.hash_bytes(hash.Algorithm.SHA256, data, context.temp_allocator)
hex_bytes, alloc_err := hex.encode(digest)
if alloc_err != nil {
fmt.printf("Error generating hash for file %s: %v\n", f.Path, alloc_err)
return false
}
f.Sha256 = string(hex_bytes)
return true
}
shares_remote :: proc(f: ^EnvFile, remotes: []string) -> bool {
for r1 in f.Remotes {
for r2 in remotes {
if r1 == r2 {
return true
}
}
}
return false
}
get_git_remotes :: proc(dir: string) -> [dynamic]string {
remotes: [dynamic]string
remote_set: map[string]bool
defer delete(remote_set)
config_path, _ := filepath.join({dir, ".git", "config"}, context.temp_allocator)
m, _, ok := ini.load_map_from_path(config_path, context.allocator)
if !ok {
return remotes
}
defer ini.delete_map(m)
for section_name, section in m {
if strings.has_prefix(section_name, "remote ") {
if url, ok := section["url"]; ok {
remote_set[url] = true
}
}
}
for remote in remote_set {
cloned, _ := strings.clone(remote)
append(&remotes, cloned)
}
return remotes
}
db_update_required :: proc(status: SyncFlag) -> bool {
return .BackedUp in status || .DirUpdated in status
}
to_cstring :: proc {
string_to_cstring,
strings.to_cstring,
}
string_to_cstring :: proc(s: string, allocator := context.allocator) -> cstring {
cs, err := strings.clone_to_cstring(s, allocator)
if err != nil {
fmt.printf("Failed to convert string to cstring: %v\n", err)
panic("Allocation Exception")
}
return cs
}
// Caller is responsible for freeing the result
clone_cstring :: proc(c: cstring, allocator := context.allocator) -> string {
str, err := strings.clone_from_cstring(c, allocator)
if err != nil {
fmt.printf("Failed to convert string to cstring: %v\n", err)
delete(str)
panic("Allocation Exception")
}
return str
} }

58
db_integration_test.odin
View File

@@ -8,22 +8,16 @@ import "core:testing"
import "sqlite" import "sqlite"
FIXTURES :: "fixtures" FIXTURES :: "/home/spencer/github.com/envr-zig/fixtures"
fixture_key :: proc() -> SshKeyPair { fixture_key :: proc() -> SshKeyPair {
priv, _ := strings.concatenate( priv, _ := strings.concatenate([]string{FIXTURES, "/insecure-test-key"}, context.allocator)
[]string{FIXTURES, "/keys/insecure-test-key"}, pub, _ := strings.concatenate([]string{FIXTURES, "/insecure-test-key.pub"}, context.allocator)
context.temp_allocator,
)
pub, _ := strings.concatenate(
[]string{FIXTURES, "/keys/insecure-test-key.pub"},
context.temp_allocator,
)
return SshKeyPair{Private = priv, Public = pub} return SshKeyPair{Private = priv, Public = pub}
} }
fixture_db_path :: proc() -> string { fixture_db_path :: proc() -> string {
p, _ := strings.concatenate([]string{FIXTURES, "/single-file.db"}, context.temp_allocator) p, _ := strings.concatenate([]string{FIXTURES, "/single-file.db"}, context.allocator)
return p return p
} }
@@ -136,7 +130,7 @@ test_encrypt_write_read_decrypt :: proc(t: ^testing.T) {
} }
@(test) @(test)
test_decrypt_then_deserialize_sqlite :: proc(t: ^testing.T) { test_decrypt_then_attach_sqlite :: proc(t: ^testing.T) {
cfg := fixture_config() cfg := fixture_config()
defer { defer {
delete(cfg.Keys) delete(cfg.Keys)
@@ -164,6 +158,14 @@ test_decrypt_then_deserialize_sqlite :: proc(t: ^testing.T) {
} }
defer delete(plaintext) defer delete(plaintext)
tmp_db_path := fmt.tprintf("/tmp/envr-test-attach-%d.db", os.get_pid())
write_err := os.write_entire_file(tmp_db_path, plaintext)
testing.expectf(t, write_err == nil, "failed to write temp db: %v", write_err)
if write_err != nil {
return
}
defer os.remove(tmp_db_path)
mem_db: ^rawptr mem_db: ^rawptr
rc := sqlite.db_open(":memory:", &mem_db) rc := sqlite.db_open(":memory:", &mem_db)
testing.expectf(t, rc == sqlite.OK, "failed to open in-memory db") testing.expectf(t, rc == sqlite.OK, "failed to open in-memory db")
@@ -172,29 +174,16 @@ test_decrypt_then_deserialize_sqlite :: proc(t: ^testing.T) {
} }
defer sqlite.db_close(mem_db) defer sqlite.db_close(mem_db)
n := i64(len(plaintext)) create_sql := "CREATE TABLE IF NOT EXISTS envr_env_files (path TEXT PRIMARY KEY NOT NULL, remotes TEXT, sha256 TEXT NOT NULL, contents TEXT NOT NULL)"
buf := sqlite.malloc64(n) rc = sqlite.db_exec(mem_db, string_to_cstring(create_sql), nil, nil, nil)
testing.expect(t, buf != nil, "malloc64 should succeed") testing.expect(t, rc == sqlite.OK, "failed to create table")
if buf == nil do return
copy(buf[:len(plaintext)], plaintext)
rc = sqlite.deserialize( attach_ok := db_attach_and_copy(mem_db, tmp_db_path)
mem_db, testing.expect(t, attach_ok, "failed to attach and copy")
"main",
buf,
n,
n,
sqlite.DESERIALIZE_FREEONCLOSE | sqlite.DESERIALIZE_RESIZEABLE,
)
testing.expect(t, rc == sqlite.OK, "deserialize should succeed")
if rc != sqlite.OK {
sqlite.free(buf)
return
}
sql: cstring = "SELECT path FROM envr_env_files" sql := "SELECT path FROM envr_env_files"
stmt: ^rawptr stmt: ^rawptr
rc = sqlite.prepare_v2(mem_db, sql, -1, &stmt, nil) rc = sqlite.prepare_v2(mem_db, string_to_cstring(sql), -1, &stmt, nil)
testing.expect(t, rc == sqlite.OK, "prepare failed") testing.expect(t, rc == sqlite.OK, "prepare failed")
if rc != sqlite.OK { if rc != sqlite.OK {
return return
@@ -204,7 +193,7 @@ test_decrypt_then_deserialize_sqlite :: proc(t: ^testing.T) {
rc = sqlite.step(stmt) rc = sqlite.step(stmt)
testing.expect(t, rc == sqlite.ROW, "expected at least one row") testing.expect(t, rc == sqlite.ROW, "expected at least one row")
if rc == sqlite.ROW { if rc == sqlite.ROW {
path := string(sqlite.column_text(stmt, 0)) path := cstring_to_string(sqlite.column_text(stmt, 0))
testing.expect(t, len(path) > 0, "path should not be empty") testing.expect(t, len(path) > 0, "path should not be empty")
} }
} }
@@ -212,7 +201,9 @@ test_decrypt_then_deserialize_sqlite :: proc(t: ^testing.T) {
@(test) @(test)
test_full_db_cycle :: proc(t: ^testing.T) { test_full_db_cycle :: proc(t: ^testing.T) {
cfg := fixture_config() cfg := fixture_config()
defer delete(cfg.Keys) defer {
delete(cfg.Keys)
}
db_path := fixture_db_path() db_path := fixture_db_path()
original_data, read_err := os.read_entire_file_from_path(db_path, context.allocator) original_data, read_err := os.read_entire_file_from_path(db_path, context.allocator)
@@ -233,7 +224,6 @@ test_full_db_cycle :: proc(t: ^testing.T) {
os.mkdir_all(envr_dir_path) os.mkdir_all(envr_dir_path)
data_path, _ := filepath.join([]string{envr_dir_path, "data.envr"}) data_path, _ := filepath.join([]string{envr_dir_path, "data.envr"})
defer delete(data_path)
write_err := os.write_entire_file(data_path, encrypted) write_err := os.write_entire_file(data_path, encrypted)
testing.expectf(t, write_err == nil, "failed to write data.envr: %v", write_err) testing.expectf(t, write_err == nil, "failed to write data.envr: %v", write_err)
if write_err != nil { if write_err != nil {

433
db_test.odin
View File

@@ -1,239 +1,7 @@
package main package main
import "core:fmt"
import "core:os"
import "core:path/filepath"
import "core:strings"
import "core:testing" import "core:testing"
import "sqlite"
make_test_db :: proc() -> (Db, bool) {
db: ^rawptr
rc := sqlite.db_open(":memory:", &db)
if rc != sqlite.OK {
return Db{}, false
}
create_sql: cstring = "CREATE TABLE IF NOT EXISTS envr_env_files (path TEXT PRIMARY KEY NOT NULL, remotes TEXT, sha256 TEXT NOT NULL, contents TEXT NOT NULL)"
rc = sqlite.db_exec(db, create_sql, nil, nil, nil)
if rc != sqlite.OK {
sqlite.db_close(db)
return Db{}, false
}
return Db{db = db}, true
}
make_test_env_file :: proc(path, sha, contents: string, remotes: []string = {}) -> EnvFile {
f := EnvFile {
Path = path,
Dir = "",
Sha256 = sha,
contents = contents,
Remotes = make([dynamic]string, 0, len(remotes)),
}
for r in remotes {
append(&f.Remotes, r)
}
return f
}
@(test)
test_db_insert_and_fetch :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
path := "/project/.env"
sha := "abc123"
contents := "SECRET=value"
f := make_test_env_file(path, sha, contents, []string{"git@github.com:user/repo.git"})
defer delete(f.Remotes)
testing.expect(t, db_insert(&d, f), "insert should succeed")
fetched, fetch_ok := db_fetch(&d, "/project/.env")
defer delete_envfile(&fetched)
testing.expect(t, fetch_ok, "fetch should succeed")
if !fetch_ok do return
testing.expect_value(t, fetched.Path, path)
testing.expect_value(t, fetched.Sha256, sha)
testing.expect_value(t, fetched.contents, contents)
testing.expect_value(t, len(fetched.Remotes), 1)
testing.expect_value(t, fetched.Remotes[0], "git@github.com:user/repo.git")
}
@(test)
test_db_fetch_missing :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
_, fetch_ok := db_fetch(&d, "/nonexistent/.env")
testing.expect(t, !fetch_ok, "fetch missing should return false")
}
@(test)
test_db_insert_or_replace :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
f1 := make_test_env_file("/project/.env", "sha1", "KEY=old")
defer delete(f1.Remotes)
testing.expect(t, db_insert(&d, f1), "first insert should succeed")
f2 := make_test_env_file("/project/.env", "sha2", "KEY=new")
defer delete(f2.Remotes)
testing.expect(t, db_insert(&d, f2), "second insert should succeed")
results, list_ok := db_list(&d)
testing.expect(t, list_ok, "list should succeed")
if !list_ok do return
defer delete(results)
for &result in results {
defer delete_envfile(&result)
}
testing.expect(t, len(results) == 1, "should have 1 row, not 2")
fetched, fetch_ok := db_fetch(&d, "/project/.env")
testing.expect(t, fetch_ok, "fetch should succeed")
if !fetch_ok do return
defer delete_envfile(&fetched)
testing.expect_value(t, fetched.contents, "KEY=new")
testing.expect_value(t, fetched.Sha256, "sha2")
}
@(test)
test_db_delete_existing :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
db_insert(&d, f)
testing.expect(t, db_delete(&d, "/project/.env"), "delete should return true")
_, fetch_ok := db_fetch(&d, "/project/.env")
testing.expect(t, !fetch_ok, "row should be gone after delete")
}
@(test)
test_db_delete_missing :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
testing.expect(t, !db_delete(&d, "/nonexistent/.env"), "delete missing should return false")
}
@(test)
test_db_list_multiple :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
f1 := make_test_env_file("/proj1/.env", "sha1", "A=1", []string{"git@github.com:a/repo.git"})
defer delete(f1.Remotes)
f2 := make_test_env_file("/proj2/.env", "sha2", "B=2", []string{"git@github.com:b/repo.git"})
defer delete(f2.Remotes)
f3 := make_test_env_file("/proj3/.env", "sha3", "C=3")
db_insert(&d, f1)
db_insert(&d, f2)
db_insert(&d, f3)
results, list_ok := db_list(&d)
testing.expect(t, list_ok, "list should succeed")
if !list_ok do return
defer delete(results)
defer {
for &result in results {
delete_envfile(&result)
}
}
testing.expect_value(t, len(results), 3)
}
@(test)
test_db_list_empty :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
results, list_ok := db_list(&d)
testing.expect(t, list_ok, "list should succeed on empty db")
testing.expect(t, len(results) == 0, "should have 0 rows")
if list_ok do delete(results)
}
@(test)
test_db_insert_sets_changed :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
testing.expect(t, !d.changed, "changed should start false")
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
db_insert(&d, f)
testing.expect(t, d.changed, "changed should be true after insert")
}
@(test)
test_db_delete_sets_changed :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
db_insert(&d, f)
d.changed = false
db_delete(&d, "/project/.env")
testing.expect(t, d.changed, "changed should be true after delete")
}
@(test)
test_db_serialize :: proc(t: ^testing.T) {
d, ok := make_test_db()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
db_insert(&d, f)
sz: i64
data := sqlite.serialize(d.db, "main", &sz, 0)
testing.expect(t, data != nil, "serialize should return non-nil")
if data == nil do return
defer sqlite.free(data)
testing.expect(t, sz > 0, "serialized size should be > 0")
}
@(test) @(test)
test_db_update_required_noop :: proc(t: ^testing.T) { test_db_update_required_noop :: proc(t: ^testing.T) {
testing.expect(t, !db_update_required({}), "Noop should not require update") testing.expect(t, !db_update_required({}), "Noop should not require update")
@@ -319,204 +87,3 @@ test_shares_remote_both_empty :: proc(t: ^testing.T) {
testing.expect(t, !shares_remote(&f, remotes), "both empty should not share") testing.expect(t, !shares_remote(&f, remotes), "both empty should not share")
} }
delete_remotes :: proc(remotes: [dynamic]string) {
for &r in remotes {
delete(r)
}
delete(remotes)
}
@(test)
test_get_git_remotes_single :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-remotes-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
git_dir := fmt.tprintf("%s/.git", base)
os.mkdir_all(git_dir)
config_content := "[core]\n\trepositoryformatversion = 0\n[remote \"origin\"]\n\turl = git@github.com:user/repo.git\n\tfetch = +refs/heads/*:refs/remotes/origin/*\n"
config_path := fmt.tprintf("%s/config", git_dir)
err := os.write_entire_file(config_path, transmute([]u8)config_content)
testing.expect(t, err == nil, "should write .git/config")
remotes := get_git_remotes(base)
defer delete_remotes(remotes)
testing.expect(t, len(remotes) == 1, "should find 1 remote")
if len(remotes) != 1 do return
testing.expect_value(t, remotes[0], "git@github.com:user/repo.git")
}
@(test)
test_get_git_remotes_multiple :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-remotes-multi-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
git_dir := fmt.tprintf("%s/.git", base)
os.mkdir_all(git_dir)
config_content := "[remote \"origin\"]\n\turl = git@github.com:user/repo.git\n[remote \"upstream\"]\n\turl = https://gitlab.com/upstream/repo.git\n"
config_path := fmt.tprintf("%s/config", git_dir)
err := os.write_entire_file(config_path, transmute([]u8)config_content)
testing.expect(t, err == nil, "should write .git/config")
remotes := get_git_remotes(base)
defer delete_remotes(remotes)
testing.expect(t, len(remotes) == 2, "should find 2 remotes")
}
@(test)
test_get_git_remotes_no_config :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-remotes-none-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
remotes := get_git_remotes(base)
defer delete_remotes(remotes)
testing.expect(t, len(remotes) == 0, "should return empty when no .git/config")
}
@(test)
test_get_git_remotes_no_remotes :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-remotes-empty-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
git_dir := fmt.tprintf("%s/.git", base)
os.mkdir_all(git_dir)
config_content := "[core]\n\trepositoryformatversion = 0\n\tbare = false\n"
config_path := fmt.tprintf("%s/config", git_dir)
err := os.write_entire_file(config_path, transmute([]u8)config_content)
testing.expect(t, err == nil, "should write .git/config")
remotes := get_git_remotes(base)
defer delete_remotes(remotes)
testing.expect(t, len(remotes) == 0, "should return empty when no remote sections")
}
@(test)
test_new_env_file :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-envfile-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
env_path := fmt.tprintf("%s/.env", base)
err := os.write_entire_file(env_path, "SECRET=value\n")
testing.expect(t, err == nil, ".env file should exists")
file, ok := new_env_file(env_path)
testing.expect(t, ok, "new_env_file should succeed")
if !ok do return
defer delete(file.Remotes)
defer delete(file.Sha256)
defer delete(file.Path)
testing.expect(t, filepath.is_abs(file.Path), "path should be absolute")
testing.expect(t, strings.has_suffix(file.Path, "/.env"), "path should end with /.env")
testing.expect(t, file.contents == "SECRET=value\n", "contents mismatch")
testing.expect(t, len(file.Sha256) == 64, "sha256 should be 64 hex chars")
}
@(test)
test_new_env_file_missing :: proc(t: ^testing.T) {
_, ok := new_env_file("/tmp/envr-nonexistent-envfile/path/.env")
testing.expect(t, !ok, "missing file should return false")
}
@(test)
test_env_file_backup :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-backup-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
env_path := fmt.tprintf("%s/.env", base)
err := os.write_entire_file(env_path, "KEY=12345\n")
testing.expect(t, err == nil, ".env file should exist")
f := EnvFile {
Path = env_path,
}
defer delete(f.contents)
defer delete(f.Sha256)
testing.expect(t, env_file_backup(&f), "backup should succeed")
testing.expect_value(t, f.contents, "KEY=12345\n")
testing.expect_value(t, len(f.Sha256), 64)
}
@(test)
test_env_file_backup_missing :: proc(t: ^testing.T) {
f := EnvFile {
Path = "/tmp/envr-nonexistent-backup/.env",
}
testing.expect(t, !env_file_backup(&f), "missing file should return false")
}
@(test)
test_update_dir :: proc(t: ^testing.T) {
f := EnvFile {
Path = "/old/project/.env",
Dir = "/old/project",
Remotes = make([dynamic]string, 0),
}
defer delete_envfile(&f)
update_dir(&f, "/new/location")
testing.expect_value(t, f.Dir, "/new/location")
testing.expect_value(t, f.Path, "/new/location/.env")
}
@(test)
test_closing_db_has_no_leaks :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-leak-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
cfg_path, err := filepath.join([]string{base, "config.json"}, context.temp_allocator)
testing.expect(t, err == nil, "cfgPath should build successfully")
cfg := new_config([]string{"fixtures/keys/insecure-test-key"}, cfg_path)
defer delete_config(&cfg)
testing.expect(t, save_config(cfg, force = true), "save should succeed")
db, ok := db_open(cfg_path)
testing.expect(t, ok, "db should open")
if !ok do return
db_close(&db)
}
@(test)
test_open_existing_db_has_no_leaks :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-leak-existing-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
cfg_path, err := filepath.join([]string{base, "config.json"}, context.temp_allocator)
testing.expect(t, err == nil, "cfgPath should build successfully")
cfg := new_config([]string{"fixtures/keys/insecure-test-key"}, cfg_path)
defer delete_config(&cfg)
testing.expect(t, save_config(cfg, force = true), "save should succeed")
// First open/close creates data.envr on disk
db, ok := db_open(cfg_path)
testing.expect(t, ok, "db should open")
if !ok do return
f := make_test_env_file("/project/.env", "abc123", "SECRET=value", []string{"git@github.com:user/repo.git"})
defer delete(f.Remotes)
testing.expect(t, db_insert(&db, f), "insert should succeed")
db_close(&db)
// Second open exercises db_restore_from_encrypted
db2, ok2 := db_open(cfg_path)
testing.expect(t, ok2, "db should open existing")
if !ok2 do return
db_close(&db2)
}

1
docs/cli/envr.md
View File

@@ -45,6 +45,7 @@ at before, restore your backup with:
* [envr backup](envr_backup.md) - Import a .env file into envr * [envr backup](envr_backup.md) - Import a .env file into envr
* [envr check](envr_check.md) - check if files in the current directory are backed up * [envr check](envr_check.md) - check if files in the current directory are backed up
* [envr deps](envr_deps.md) - Check for missing binaries
* [envr edit-config](envr_edit-config.md) - Edit your config with your default editor * [envr edit-config](envr_edit-config.md) - Edit your config with your default editor
* [envr init](envr_init.md) - Set up envr * [envr init](envr_init.md) - Set up envr
* [envr list](envr_list.md) - View your tracked files * [envr list](envr_list.md) - View your tracked files

24
docs/cli/envr_deps.md Normal file
View File

@@ -0,0 +1,24 @@
## envr deps
Check for missing binaries
### Synopsis
envr relies on external binaries for certain functionality.
The check command reports on which binaries are available and which are not.
```
envr deps [flags]
```
### Options
```
-h, --help help for deps
```
### SEE ALSO
* [envr](envr.md) - Manage your .env files.

51
features.odin Normal file
View File

@@ -0,0 +1,51 @@
package main
import "base:runtime"
import "core:mem"
import "core:os"
import "core:strings"
Feature :: enum {
Git,
Fd,
}
AvailableFeatures :: bit_set[Feature]
check_features :: proc() -> AvailableFeatures {
feats: AvailableFeatures
s: mem.Scratch
mem.scratch_init(&s, 4 * mem.DEFAULT_PAGE_SIZE)
defer mem.scratch_destroy(&s)
context.temp_allocator = mem.scratch_allocator(&s)
path_env := os.get_env("PATH", context.temp_allocator)
paths := strings.split(path_env, ":", context.temp_allocator)
if find_binary(paths, "git") != "" {
feats += {.Git}
}
if find_binary(paths, "fd") != "" {
feats += {.Fd}
}
return feats
}
find_binary :: proc(
paths: []string,
name: string,
allocator: runtime.Allocator = context.temp_allocator,
) -> string {
for p in paths {
candidate := strings.join({strings.trim_right(p, "/"), name}, "/", allocator)
_, err := os.stat(candidate, allocator)
if err == nil {
return candidate
}
}
return ""
}

34
features_test.odin Normal file
View File

@@ -0,0 +1,34 @@
package main
import "core:os"
import "core:strings"
import "core:testing"
@(test)
test_find_binary_exists :: proc(t: ^testing.T) {
path := os.get_env("PATH", context.temp_allocator)
paths := strings.split(path, ":", context.temp_allocator)
result := find_binary(paths, "sh")
testing.expect(t, result != "", "sh should be found on PATH")
}
@(test)
test_find_binary_not_exists :: proc(t: ^testing.T) {
old_path := os.get_env("PATH", context.temp_allocator)
defer {
if old_path != "" {
os.set_env("PATH", old_path)
}
}
os.set_env("PATH", "/tmp/envr-nope")
path := os.get_env("PATH", context.temp_allocator)
paths := strings.split(path, ":", context.temp_allocator)
result := find_binary(paths, "no_such_binary_xyz")
testing.expect(t, result == "", "nonexistent binary should not be found")
}

320
findr/findr_test.odin
View File

@@ -1,320 +0,0 @@
package findr
import "core:os"
import "core:sort"
import "core:strings"
import "core:sys/linux"
import "core:testing"
// ============================================================================
// Gitignored file emission tests (emit ONLY gitignored files, descend everywhere)
// ============================================================================
@(test)
test_basic_gitignored :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.env\n")
create_file(env, "repo/.env")
create_file(env, "repo/secrets.env")
create_file(env, "repo/normal.txt")
assert_output(t, env, nil, {}, {
"repo/.env", "repo/secrets.env",
})
}
@(test)
test_non_repo_not_scanned :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_dir(env, "norepo")
create_file(env, "norepo/.gitignore", "*.env\n")
create_file(env, "norepo/.env")
assert_output_empty(t, env, nil, {})
}
@(test)
test_negation_pattern :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.env\n!prod.env\n")
create_file(env, "repo/.env")
create_file(env, "repo/secrets.env")
create_file(env, "repo/prod.env")
assert_output(t, env, nil, {}, {
"repo/.env", "repo/secrets.env",
})
}
@(test)
test_multiple_repos :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo1")
create_file(env, "repo1/.gitignore", "*.env\n")
create_file(env, "repo1/a.env")
create_git_repo(env, "repo2")
create_file(env, "repo2/.gitignore", "*.key\n")
create_file(env, "repo2/secret.key")
assert_output(t, env, nil, {}, {
"repo1/a.env", "repo2/secret.key",
})
}
@(test)
test_nested_repos :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "parent")
create_file(env, "parent/.gitignore", "*.env\n")
create_file(env, "parent/top.env")
create_git_repo(env, "parent/child")
create_file(env, "parent/child/.gitignore", "*.key\n")
create_file(env, "parent/child/api.key")
assert_output(t, env, nil, {}, {
"parent/top.env", "parent/child/api.key",
})
}
@(test)
test_nested_gitignore_read :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.env\n")
create_dir(env, "repo/sub")
create_file(env, "repo/sub/.gitignore", "*.txt\n")
create_file(env, "repo/sub/secret.txt")
create_file(env, "repo/sub/.env")
assert_output(t, env, nil, {}, {
"repo/sub/secret.txt", "repo/sub/.env",
})
}
@(test)
test_nested_gitignore_negation :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.log\n")
create_dir(env, "repo/sub")
create_file(env, "repo/sub/.gitignore", "!important.log\n")
create_file(env, "repo/sub/important.log")
create_file(env, "repo/sub/debug.log")
assert_output(t, env, nil, {}, {
"repo/sub/debug.log",
})
}
@(test)
test_multisegment_pattern :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "build/output.txt\n")
create_dir(env, "repo/build")
create_file(env, "repo/build/output.txt")
create_file(env, "repo/build/other.txt")
create_file(env, "repo/output.txt")
assert_output(t, env, nil, {}, {
"repo/build/output.txt",
})
}
@(test)
test_no_gitignore_file :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.env")
assert_output_empty(t, env, nil, {})
}
@(test)
test_empty_gitignore :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "\n\n# comment\n\n")
create_file(env, "repo/.env")
assert_output_empty(t, env, nil, {})
}
@(test)
test_multiple_search_dirs :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "dir1/repo")
create_file(env, "dir1/repo/.gitignore", "*.env\n")
create_file(env, "dir1/repo/a.env")
create_file(env, "dir1/repo/normal.txt")
create_git_repo(env, "dir2/repo")
create_file(env, "dir2/repo/.gitignore", "*.env\n")
create_file(env, "dir2/repo/b.env")
dir1 := join_path(env.temp_dir, "dir1")
defer delete(dir1)
dir2 := join_path(env.temp_dir, "dir2")
defer delete(dir2)
results := make([dynamic]string)
defer {
for r in results {delete(r)}
delete(results)
}
opts := WalkOptions{}
thread_count := os.get_processor_core_count()
walk({dir1, dir2}, &results, opts, thread_count)
testing.expect_value(t, len(results), 2)
actual := make([dynamic]string, 0, len(results))
for r in results {
stripped := r
if strings.has_prefix(stripped, env.temp_dir) {
stripped = stripped[len(env.temp_dir):]
if len(stripped) > 0 && stripped[0] == '/' {
stripped = stripped[1:]
}
}
append(&actual, stripped)
}
defer delete(actual)
expected := []string{"dir1/repo/a.env", "dir2/repo/b.env"}
sort.quick_sort(actual[:])
sort.quick_sort(expected[:])
for i in 0 ..< len(expected) {
testing.expect_value(t, actual[i], expected[i])
}
}
// ============================================================================
// Ignored directory recursion tests
// ============================================================================
@(test)
test_ignored_dir_descended :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "secrets/\n")
create_dir(env, "repo/secrets")
create_file(env, "repo/secrets/.env")
create_file(env, "repo/secrets/api.key")
// Ignored dir's contents are emitted AND descended into
assert_output(t, env, nil, {}, {
"repo/secrets/", "repo/secrets/.env", "repo/secrets/api.key",
})
}
@(test)
test_nested_ignored_dir :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "build/\n")
create_dir(env, "repo/build")
create_dir(env, "repo/build/sub")
create_file(env, "repo/build/output.txt")
create_file(env, "repo/build/sub/deep.env")
assert_output(t, env, nil, {}, {
"repo/build/", "repo/build/output.txt",
"repo/build/sub/", "repo/build/sub/deep.env",
})
}
// ============================================================================
// Filter tests (excludes, pattern)
// ============================================================================
@(test)
test_excludes_prune_dirs :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.env\n")
create_file(env, "repo/.env")
create_dir(env, "repo/vendor")
create_file(env, "repo/vendor/lib.env")
assert_output(t, env, nil,
{excludes = {"vendor"}},
{"repo/.env"},
)
}
@(test)
test_pattern_filters_results :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.env\n*.key\n")
create_file(env, "repo/.env")
create_file(env, "repo/secrets.env")
create_file(env, "repo/master.key")
assert_output(t, env, nil,
{pattern = "\\.env$"},
{"repo/.env", "repo/secrets.env"},
)
}
// ============================================================================
// Special file type tests
// ============================================================================
@(test)
test_fifo_emitted :: proc(t: ^testing.T) {
env := create_test_env()
defer destroy_test_env(&env)
create_git_repo(env, "repo")
create_file(env, "repo/.gitignore", "*.env\n*.fifo\n")
fifo_path := join_path(env.temp_dir, "repo/test.fifo")
defer delete(fifo_path)
cpath := strings.clone_to_cstring(fifo_path)
defer delete(cpath)
linux.mknod(cpath, linux.S_IFIFO | linux.Mode{.IRUSR, .IWUSR}, 0)
assert_output(t, env, nil,
{pattern = "\\.fifo$"},
{"repo/test.fifo"},
)
}

88
findr/gitignore.odin
View File

@@ -1,88 +0,0 @@
package findr
import "core:strings"
Gitignore :: struct {
rules: [dynamic]Rule,
}
Rule :: struct {
pattern: GlobPattern,
negated: bool,
dir_only: bool,
}
Match :: enum {
None,
Ignored,
Unignored,
}
is_ignored :: proc(gi: ^Gitignore, path: string, is_dir: bool) -> bool {
return check_match(gi, path, is_dir) == .Ignored
}
check_match :: proc(gi: ^Gitignore, path: string, is_dir: bool) -> Match {
result := Match.None
for &rule in gi.rules {
if rule.dir_only && !is_dir do continue
if glob_match_compiled(&rule.pattern, path) {
result = rule.negated ? .Unignored : .Ignored
}
}
return result
}
parse :: proc(content: string) -> Gitignore {
gi: Gitignore
gi.rules = make([dynamic]Rule)
remaining := content
for {
line, ok := strings.split_lines_iterator(&remaining)
if !ok do break
s := strings.trim_space(line)
if len(s) == 0 do continue
if s[0] == '#' do continue
negated := false
if s[0] == '!' {
negated = true
s = s[1:]
}
if len(s) > 0 && s[0] == '\\' {
if len(s) > 1 && (s[1] == '#' || s[1] == '!') {
s = s[1:]
}
}
dir_only := false
if len(s) > 0 && s[len(s) - 1] == '/' {
dir_only = true
s = s[:len(s) - 1]
}
anchored := false
if len(s) > 0 && s[0] == '/' {
anchored = true
s = s[1:]
}
if len(s) == 0 do continue
gp := glob_compile(s, anchored)
append(&gi.rules, Rule{pattern = gp, negated = negated, dir_only = dir_only})
}
return gi
}
destroy :: proc(gi: ^Gitignore) {
for &rule in gi.rules {
glob_destroy(&rule.pattern)
}
delete(gi.rules)
}

118
findr/gitignore_test.odin
View File

@@ -1,118 +0,0 @@
package findr
import "core:testing"
@(test)
test_is_ignored_basic :: proc(t: ^testing.T) {
gi := parse("*.env\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, ".env", false), true)
testing.expect_value(t, is_ignored(&gi, "foo.env", false), true)
testing.expect_value(t, is_ignored(&gi, ".env.local", false), false)
testing.expect_value(t, is_ignored(&gi, "config.yaml", false), false)
}
@(test)
test_is_ignored_negation :: proc(t: ^testing.T) {
gi := parse("*.env\n!.env.production\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, ".env", false), true)
testing.expect_value(t, is_ignored(&gi, ".env.production", false), false)
}
@(test)
test_is_ignored_dir_only :: proc(t: ^testing.T) {
gi := parse("node_modules/\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, "node_modules", true), true)
testing.expect_value(t, is_ignored(&gi, "node_modules", false), false)
}
@(test)
test_is_ignored_anchored :: proc(t: ^testing.T) {
gi := parse("/secret.key\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, "secret.key", false), true)
}
@(test)
test_is_ignored_comments_skipped :: proc(t: ^testing.T) {
gi := parse("# this is a comment\n#another\n*.tmp\n")
defer destroy(&gi)
testing.expect_value(t, len(gi.rules), 1)
testing.expect_value(t, is_ignored(&gi, "file.tmp", false), true)
}
@(test)
test_is_ignored_blank_lines_skipped :: proc(t: ^testing.T) {
gi := parse("\n\n \n*.log\n\n")
defer destroy(&gi)
testing.expect_value(t, len(gi.rules), 1)
}
@(test)
test_is_ignored_last_match_wins :: proc(t: ^testing.T) {
gi := parse("*.env\n!*.env\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, ".env", false), false)
}
@(test)
test_is_ignored_no_rules :: proc(t: ^testing.T) {
gi := parse("")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, "anything", false), false)
}
@(test)
test_is_ignored_env_pattern :: proc(t: ^testing.T) {
gi := parse(".env*\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, ".env", false), true)
testing.expect_value(t, is_ignored(&gi, ".env.local", false), true)
testing.expect_value(t, is_ignored(&gi, ".envrc", false), true)
}
@(test)
test_is_ignored_globstar :: proc(t: ^testing.T) {
gi := parse("**/cache\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, "cache", false), true)
testing.expect_value(t, is_ignored(&gi, "foo/cache", false), true)
testing.expect_value(t, is_ignored(&gi, "foo/bar/cache", false), true)
}
@(test)
test_star_negation_subpath :: proc(t: ^testing.T) {
gi := parse("*\n!public/\n")
defer destroy(&gi)
// public dir itself is un-ignored
testing.expect_value(t, is_ignored(&gi, "public", true), false)
// children of public/ should still be ignored by *
testing.expect_value(t, is_ignored(&gi, "public/uuid-dir", true), true)
testing.expect_value(t, is_ignored(&gi, "public/uuid-dir/file.txt", false), true)
}
@(test)
test_is_ignored_hash_pattern :: proc(t: ^testing.T) {
gi := parse("\\#*\\#\n")
defer destroy(&gi)
testing.expect_value(t, is_ignored(&gi, "#foo#", false), true)
testing.expect_value(t, is_ignored(&gi, "#test#", false), true)
testing.expect_value(t, is_ignored(&gi, "AUTHORS", false), false)
testing.expect_value(t, is_ignored(&gi, "build.zig", false), false)
testing.expect_value(t, is_ignored(&gi, "ChangeLog", false), false)
}

203
findr/glob.odin
View File

@@ -1,203 +0,0 @@
package findr
Range :: struct {
lo: u8,
hi: u8,
}
Class_Data :: struct {
negated: bool,
ranges: [dynamic]Range,
}
Token_Kind :: enum u8 { Char, Star, Globstar, Question, Class }
Token :: struct {
kind: Token_Kind,
byte: u8,
class_idx: u16,
}
GlobPattern :: struct {
tokens: [dynamic]Token,
classes: [dynamic]Class_Data,
anchored: bool,
}
glob_compile :: proc(pattern: string, anchored: bool) -> GlobPattern {
gp: GlobPattern
gp.tokens = make([dynamic]Token)
gp.classes = make([dynamic]Class_Data)
gp.anchored = anchored
i := 0
for i < len(pattern) {
c := pattern[i]
if c == '*' {
if i + 1 < len(pattern) && pattern[i + 1] == '*' {
prev_slash := i == 0 || pattern[i - 1] == '/'
at_end := i + 2 >= len(pattern)
next_slash := !at_end && pattern[i + 2] == '/'
if prev_slash && (next_slash || at_end) {
append(&gp.tokens, Token{kind = .Globstar})
if next_slash {
i += 3
} else {
i += 2
}
} else {
append(&gp.tokens, Token{kind = .Star})
i += 2
}
} else {
append(&gp.tokens, Token{kind = .Star})
i += 1
}
} else if c == '?' {
append(&gp.tokens, Token{kind = .Question})
i += 1
} else if c == '[' {
i += 1
negated := false
if i < len(pattern) && pattern[i] == '!' {
negated = true
i += 1
}
ranges := make([dynamic]Range)
if i < len(pattern) && pattern[i] == ']' {
append(&ranges, Range{lo = ']', hi = ']'})
i += 1
}
for i < len(pattern) && pattern[i] != ']' {
if i + 2 < len(pattern) && pattern[i + 1] == '-' && pattern[i + 2] != ']' {
append(&ranges, Range{lo = pattern[i], hi = pattern[i + 2]})
i += 3
} else {
append(&ranges, Range{lo = pattern[i], hi = pattern[i]})
i += 1
}
}
if i < len(pattern) {
i += 1
}
class_idx := u16(len(gp.classes))
append(&gp.classes, Class_Data{negated = negated, ranges = ranges})
append(&gp.tokens, Token{kind = .Class, class_idx = class_idx})
} else if c == '\\' {
i += 1
if i < len(pattern) {
append(&gp.tokens, Token{kind = .Char, byte = pattern[i]})
i += 1
}
} else {
append(&gp.tokens, Token{kind = .Char, byte = c})
i += 1
}
}
return gp
}
match_tokens :: proc(tokens: []Token, classes: []Class_Data, ti: int, path: string, pi: int) -> bool {
if ti >= len(tokens) {
return pi == len(path)
}
tok := tokens[ti]
switch tok.kind {
case .Char:
if pi < len(path) && path[pi] == tok.byte {
return match_tokens(tokens, classes, ti + 1, path, pi + 1)
}
return false
case .Question:
if pi < len(path) && path[pi] != '/' {
return match_tokens(tokens, classes, ti + 1, path, pi + 1)
}
return false
case .Star:
max_end := pi
for max_end < len(path) && path[max_end] != '/' {
max_end += 1
}
for end := max_end; end >= pi; end -= 1 {
if match_tokens(tokens, classes, ti + 1, path, end) {
return true
}
}
return false
case .Globstar:
if ti + 1 >= len(tokens) {
return true
}
if match_tokens(tokens, classes, ti + 1, path, pi) {
return true
}
for end := pi + 1; end <= len(path); end += 1 {
if path[end - 1] == '/' {
if match_tokens(tokens, classes, ti + 1, path, end) {
return true
}
}
}
return false
case .Class:
if pi >= len(path) {
return false
}
cd := classes[tok.class_idx]
ch := path[pi]
in_range := false
for r in cd.ranges {
if ch >= r.lo && ch <= r.hi {
in_range = true
break
}
}
if in_range != cd.negated {
return match_tokens(tokens, classes, ti + 1, path, pi + 1)
}
return false
}
return false
}
glob_match_compiled :: proc(gp: ^GlobPattern, path: string) -> bool {
tokens := gp.tokens[:]
classes := gp.classes[:]
if gp.anchored {
return match_tokens(tokens, classes, 0, path, 0)
}
if match_tokens(tokens, classes, 0, path, 0) {
return true
}
for i := 1; i < len(path); i += 1 {
if path[i - 1] == '/' {
if match_tokens(tokens, classes, 0, path, i) {
return true
}
}
}
return false
}
glob_destroy :: proc(gp: ^GlobPattern) {
for &cd in gp.classes {
delete(cd.ranges)
}
delete(gp.classes)
delete(gp.tokens)
}

111
findr/glob_test.odin
View File

@@ -1,111 +0,0 @@
package findr
import "core:testing"
glob_match :: proc(pattern: string, path: string, anchored: bool) -> bool {
gp := glob_compile(pattern, anchored)
result := glob_match_compiled(&gp, path)
glob_destroy(&gp)
return result
}
@(test)
test_glob_simple :: proc(t: ^testing.T) {
testing.expect(t, glob_match("foo", "foo", false))
testing.expect(t, glob_match("foo", "bar/foo", false))
testing.expect(t, !glob_match("foo", "foobar", false))
testing.expect(t, !glob_match("foo", "foo/bar", false))
}
@(test)
test_glob_anchored :: proc(t: ^testing.T) {
testing.expect(t, glob_match("foo", "foo", true))
testing.expect(t, !glob_match("foo", "bar/foo", true))
testing.expect(t, !glob_match("foo", "foobar", true))
}
@(test)
test_glob_star :: proc(t: ^testing.T) {
testing.expect(t, glob_match("*.log", "test.log", false))
testing.expect(t, glob_match("*.log", ".log", false))
testing.expect(t, !glob_match("*.log", "test.txt", false))
testing.expect(t, !glob_match("*.log", "dir/test", false))
}
@(test)
test_glob_question :: proc(t: ^testing.T) {
testing.expect(t, glob_match("?.log", "a.log", false))
testing.expect(t, !glob_match("?.log", "ab.log", false))
testing.expect(t, !glob_match("?.log", ".log", false))
}
@(test)
test_glob_char_class :: proc(t: ^testing.T) {
testing.expect(t, glob_match("[abc].log", "a.log", false))
testing.expect(t, glob_match("[abc].log", "b.log", false))
testing.expect(t, !glob_match("[abc].log", "d.log", false))
}
@(test)
test_glob_negated_class :: proc(t: ^testing.T) {
testing.expect(t, glob_match("[!abc].log", "d.log", false))
testing.expect(t, !glob_match("[!abc].log", "a.log", false))
}
@(test)
test_glob_dot_literal :: proc(t: ^testing.T) {
testing.expect(t, glob_match(".env", ".env", false))
testing.expect(t, glob_match(".env", "dir/.env", false))
testing.expect(t, !glob_match(".env", "env", false))
testing.expect(t, !glob_match(".env", "x.env", false))
}
@(test)
test_glob_globstar_prefix :: proc(t: ^testing.T) {
testing.expect(t, glob_match("**/foo", "foo", false))
testing.expect(t, glob_match("**/foo", "a/b/foo", false))
testing.expect(t, !glob_match("**/foo", "foobar", false))
testing.expect(t, !glob_match("**/foo", "a/foobar", false))
}
@(test)
test_glob_globstar_suffix :: proc(t: ^testing.T) {
testing.expect(t, glob_match("abc/**", "abc/x", false))
testing.expect(t, glob_match("abc/**", "abc/x/y", false))
testing.expect(t, !glob_match("abc/**", "abc", false))
testing.expect(t, !glob_match("abc/**", "abcd/x", false))
}
@(test)
test_glob_globstar_middle :: proc(t: ^testing.T) {
testing.expect(t, glob_match("foo/**/bar", "foo/bar", false))
testing.expect(t, glob_match("foo/**/bar", "foo/x/bar", false))
testing.expect(t, !glob_match("foo/**/bar", "foo/barx", false))
testing.expect(t, !glob_match("foo/**/bar", "foo/x/y/baz", false))
}
@(test)
test_glob_backslash_escape :: proc(t: ^testing.T) {
testing.expect(t, glob_match("\\!foo", "!foo", false))
testing.expect(t, !glob_match("\\!foo", "foo", false))
}
@(test)
test_glob_hash_literal :: proc(t: ^testing.T) {
testing.expect(t, glob_match("#foo", "#foo", false))
testing.expect(t, !glob_match("#foo", "foo", false))
}
@(test)
test_glob_hash_pattern :: proc(t: ^testing.T) {
testing.expect(t, glob_match("#*#", "#test#", false))
testing.expect(t, glob_match("#*#", "##", false))
testing.expect(t, !glob_match("#*#", "test", false))
testing.expect(t, !glob_match("#*#", "#test", false))
}
@(test)
test_glob_empty :: proc(t: ^testing.T) {
testing.expect(t, glob_match("", "", false))
testing.expect(t, !glob_match("", "foo", false))
}

128
findr/repos.odin
View File

@@ -1,128 +0,0 @@
package findr
import "core:strings"
import "core:sync"
import "core:sys/linux"
import "core:thread"
RepoPool :: struct {
queue: [dynamic]string,
queue_mutex: sync.Mutex,
queue_sema: sync.Atomic_Sema,
results: ^[dynamic]string,
results_lock: sync.Mutex,
active: i64,
done: sync.One_Shot_Event,
threads: []^thread.Thread,
}
find_repos :: proc(roots: []string, results: ^[dynamic]string, thread_count: int) {
if len(roots) == 0 do return
pool := new(RepoPool)
pool.queue = make([dynamic]string)
pool.results = results
pool.active = i64(len(roots))
pool.threads = make([]^thread.Thread, thread_count)
for root in roots {
root_clone, _ := strings.clone(root)
append(&pool.queue, root_clone)
sync.atomic_sema_post(&pool.queue_sema)
}
for i in 0 ..< thread_count {
t := thread.create(repo_worker)
t.data = rawptr(pool)
t.init_context = context
thread.start(t)
pool.threads[i] = t
}
sync.one_shot_event_wait(&pool.done)
for _ in 0 ..< thread_count {
sync.atomic_sema_post(&pool.queue_sema)
}
for t in pool.threads {
thread.destroy(t)
}
delete(pool.threads)
for path in pool.queue {
delete(path)
}
delete(pool.queue)
free(pool)
}
repo_worker :: proc(t: ^thread.Thread) {
pool := cast(^RepoPool)t.data
for {
sync.atomic_sema_wait(&pool.queue_sema)
sync.mutex_lock(&pool.queue_mutex)
if len(pool.queue) == 0 {
sync.mutex_unlock(&pool.queue_mutex)
if sync.atomic_load_explicit(&pool.active, .Acquire) == 0 {
sync.one_shot_event_signal(&pool.done)
}
break
}
last := len(pool.queue) - 1
dir_path := pool.queue[last]
ordered_remove(&pool.queue, last)
sync.mutex_unlock(&pool.queue_mutex)
process_repo_dir(pool, dir_path)
delete(dir_path)
old := sync.atomic_sub_explicit(&pool.active, 1, .Release)
if old == 1 {
sync.one_shot_event_signal(&pool.done)
}
}
}
process_repo_dir :: proc(pool: ^RepoPool, dir_path: string) {
cpath := strings.clone_to_cstring(dir_path)
if cpath == nil do return
defer delete(cpath)
fd, open_err := linux.open(cpath, {.DIRECTORY, .CLOEXEC})
if open_err != .NONE do return
defer linux.close(fd)
if has_git_dir(fd) {
cloned, _ := strings.clone(dir_path)
sync.mutex_lock(&pool.results_lock)
append(pool.results, cloned)
sync.mutex_unlock(&pool.results_lock)
}
buf: [32 * 1024]u8
for {
n, errno := linux.getdents(fd, buf[:])
if n <= 0 || errno != .NONE do break
offs := 0
for d in linux.dirent_iterate_buf(buf[:n], &offs) {
name := linux.dirent_name(d)
if name == "." || name == ".." do continue
if name == ".git" do continue
if d.type == .DIR {
child_path := join_path(dir_path, name)
sync.atomic_add_explicit(&pool.active, 1, .Relaxed)
sync.mutex_lock(&pool.queue_mutex)
append(&pool.queue, child_path)
sync.mutex_unlock(&pool.queue_mutex)
sync.atomic_sema_post(&pool.queue_sema)
}
}
}
}

152
findr/test_env.odin
View File

@@ -1,152 +0,0 @@
package findr
import "core:fmt"
import "core:log"
import "core:os"
import "core:sort"
import "core:strings"
import "core:testing"
TestEnv :: struct {
temp_dir: string,
}
create_test_env :: proc() -> (env: TestEnv) {
tmp, err := os.mkdir_temp("", "findr-test-*", context.allocator)
if err != nil {
log.error("Failed to create temp dir:", err)
panic("Failed to create temp dir")
}
env.temp_dir = tmp
return
}
destroy_test_env :: proc(env: ^TestEnv) {
os.remove_all(env.temp_dir)
delete(env.temp_dir)
}
create_dir :: proc(env: TestEnv, path: string) {
full := join_path(env.temp_dir, path)
defer delete(full)
os.mkdir_all(full, os.Permissions_Default_Directory)
}
create_file :: proc(env: TestEnv, path: string, content: string = "") {
full := join_path(env.temp_dir, path)
defer delete(full)
dir_end := strings.last_index(full, "/")
if dir_end >= 0 {
dir_path := full[:dir_end]
os.mkdir_all(dir_path, os.Permissions_Default_Directory)
}
f, err := os.create(full)
if err != nil {
log.error("Failed to create file:", full, err)
return
}
if len(content) > 0 {
os.write_string(f, content)
}
os.close(f)
}
create_git_repo :: proc(env: TestEnv, path: string) {
sub := join_path(path, ".git")
defer delete(sub)
create_dir(env, sub)
}
assert_output :: proc(
t: ^testing.T,
env: TestEnv,
args: []string,
opts: WalkOptions,
expected: []string,
) {
results := collect_results(env, args, opts)
defer {
for r in results {delete(r)}
delete(results)
}
sorted_expected := make([dynamic]string, 0, len(expected))
for e in expected {append(&sorted_expected, e)}
defer delete(sorted_expected)
sorted_actual := make([dynamic]string, 0, len(results))
for a in results {append(&sorted_actual, a)}
defer delete(sorted_actual)
sort.quick_sort(sorted_expected[:])
sort.quick_sort(sorted_actual[:])
if len(sorted_expected) != len(sorted_actual) {
testing.fail(t)
log.error(
fmt.tprintf("Expected %d results, got %d", len(sorted_expected), len(sorted_actual)),
)
log.error("Expected:", sorted_expected[:])
log.error("Actual: ", sorted_actual[:])
return
}
for i in 0 ..< len(sorted_expected) {
if sorted_expected[i] != sorted_actual[i] {
testing.fail(t)
log.error(fmt.tprintf("Mismatch at index %d", i))
log.error("Expected:", sorted_expected[:])
log.error("Actual: ", sorted_actual[:])
return
}
}
}
assert_output_empty :: proc(
t: ^testing.T,
env: TestEnv,
args: []string,
opts: WalkOptions,
) {
results := collect_results(env, args, opts)
defer {
for r in results {delete(r)}
delete(results)
}
if len(results) > 0 {
testing.fail(t)
log.error(fmt.tprintf("Expected no results, got %d:", len(results)))
for r in results {
log.error(" ", r)
}
}
}
collect_results :: proc(env: TestEnv, args: []string, opts: WalkOptions) -> [dynamic]string {
results := make([dynamic]string)
full_args := make([dynamic]string, 0, len(args) + 1, context.temp_allocator)
append(&full_args, env.temp_dir)
for a in args {append(&full_args, a)}
thread_count := os.get_processor_core_count()
walk(full_args[:], &results, opts, thread_count)
for i in 0 ..< len(results) {
r := results[i]
if strings.has_prefix(r, env.temp_dir) {
stripped := r[len(env.temp_dir):]
if len(stripped) > 0 && stripped[0] == '/' {
stripped = stripped[1:]
}
new_r, _ := strings.clone(stripped)
delete(r)
results[i] = new_r
}
}
return results
}

458
findr/walker.odin
View File

@@ -1,458 +0,0 @@
package findr
import "core:bytes"
import "core:fmt"
import "core:os"
import "core:strings"
import "core:sync"
import "core:sync/chan"
import "core:sys/linux"
import "core:text/regex"
import "core:thread"
OUTPUT_BUF_SIZE :: 64 * 1024
WalkOptions :: struct {
pattern: string, // regex on basename; "" = match all
excludes: []string, // glob patterns to skip entirely
}
GIContext :: struct {
gi: ^Gitignore, // nil if this dir had no .gitignore
base_rel: string, // relative path from repo root to this dir
parent: ^GIContext, // parent context (nil if repo root)
}
WorkItem :: struct {
path: string, // absolute directory path
rel: string, // relative path from repo root ("" = root)
gi_ctx: ^GIContext, // gitignore chain (nil = outside any repo)
in_repo: bool, // true if inside a git repo
in_ignored: bool, // true if inside a gitignored directory
}
WalkerPool :: struct {
queue: [dynamic]WorkItem,
queue_mutex: sync.Mutex,
queue_sema: sync.Atomic_Sema,
result_chan: chan.Chan([]u8),
active: i64,
done: sync.One_Shot_Event,
threads: []^thread.Thread,
opts: WalkOptions,
pattern_re: regex.Regular_Expression,
has_pattern: bool,
exclude_gi: ^Gitignore,
all_contexts: [dynamic]^GIContext,
contexts_lock: sync.Mutex,
}
Collector_Data :: struct {
ch: chan.Chan([]u8),
results: ^[dynamic]string,
}
collect_worker :: proc(t: ^thread.Thread) {
data := cast(^Collector_Data)t.data
for {
batch := chan.recv(data.ch) or_break
defer delete(batch)
start := 0
for {
remaining: []u8
#no_bounds_check {remaining = batch[start:]}
idx := bytes.index_byte(remaining, '\n')
if idx < 0 do break
i := start + idx
if i > start {
segment: []u8
#no_bounds_check {segment = batch[start:i]}
s, _ := strings.clone(string(segment))
append(data.results, s)
}
start = i + 1
}
}
}
walk :: proc(roots: []string, results: ^[dynamic]string, opts: WalkOptions, thread_count: int) {
if len(roots) == 0 do return
ch, _ := chan.create(chan.Chan([]u8), max(2 * thread_count, 2), context.allocator)
defer chan.destroy(ch)
data := new(Collector_Data)
data.ch = ch
data.results = results
defer free(data)
collector := thread.create(collect_worker)
collector.data = rawptr(data)
collector.init_context = context
thread.start(collector)
pool := new(WalkerPool)
pool.queue = make([dynamic]WorkItem)
pool.result_chan = ch
pool.active = i64(len(roots))
pool.threads = make([]^thread.Thread, thread_count)
pool.all_contexts = make([dynamic]^GIContext)
pool.opts = opts
pool.exclude_gi = nil
pool.has_pattern = false
if len(opts.pattern) > 0 {
re, err := regex.create(opts.pattern, {regex.Flag.No_Capture})
if err == nil {
pool.pattern_re = re
pool.has_pattern = true
}
}
if len(opts.excludes) > 0 {
sb: strings.Builder
strings.builder_init(&sb)
for ex in opts.excludes {
fmt.sbprintf(&sb, "%s\n", ex)
}
content := strings.to_string(sb)
pool.exclude_gi = new(Gitignore)
pool.exclude_gi^ = parse(content)
strings.builder_destroy(&sb)
}
for root in roots {
root_clone, _ := strings.clone(root)
append(&pool.queue, WorkItem{path = root_clone})
sync.atomic_sema_post(&pool.queue_sema)
}
for i in 0 ..< thread_count {
t := thread.create(walk_worker)
t.data = rawptr(pool)
t.init_context = context
thread.start(t)
pool.threads[i] = t
}
sync.one_shot_event_wait(&pool.done)
for _ in 0 ..< thread_count {
sync.atomic_sema_post(&pool.queue_sema)
}
for t in pool.threads {
thread.destroy(t)
}
delete(pool.threads)
for item in pool.queue {
delete(item.path)
if len(item.rel) > 0 {delete(item.rel)}
}
delete(pool.queue)
for ctx in pool.all_contexts {
if ctx.gi != nil {
destroy(ctx.gi)
free(ctx.gi)
}
if len(ctx.base_rel) > 0 {
delete(ctx.base_rel)
}
free(ctx)
}
delete(pool.all_contexts)
if pool.has_pattern {
regex.destroy(pool.pattern_re)
}
if pool.exclude_gi != nil {
destroy(pool.exclude_gi)
free(pool.exclude_gi)
}
free(pool)
chan.close(ch)
thread.join(collector)
thread.destroy(collector)
}
flush_buf :: proc(ch: chan.Chan([]u8), local: ^[dynamic]u8) {
if len(local) == 0 do return
batch := local[:]
local^ = make([dynamic]u8, 0, OUTPUT_BUF_SIZE)
chan.send(ch, batch)
}
append_path :: proc(buf: ^[dynamic]u8, parent, name: string, trailing_slash: bool) {
need_sep := len(parent) > 0 && parent[len(parent) - 1] != '/'
size := len(parent) + len(name) + 1
if need_sep do size += 1
if trailing_slash do size += 1
old_len := len(buf)
reserve(buf, old_len + size)
resize(buf, old_len + size)
pos := old_len
pos += copy(buf[pos:], parent)
if need_sep {buf[pos] = '/'; pos += 1}
pos += copy(buf[pos:], name)
if trailing_slash {buf[pos] = '/'; pos += 1}
buf[pos] = '\n'
}
walk_worker :: proc(t: ^thread.Thread) {
pool := cast(^WalkerPool)t.data
local_buf := make([dynamic]u8, 0, OUTPUT_BUF_SIZE)
defer {
if len(local_buf) > 0 {
flush_buf(pool.result_chan, &local_buf)
}
delete(local_buf)
}
for {
sync.atomic_sema_wait(&pool.queue_sema)
sync.mutex_lock(&pool.queue_mutex)
if len(pool.queue) == 0 {
sync.mutex_unlock(&pool.queue_mutex)
if sync.atomic_load_explicit(&pool.active, .Acquire) == 0 {
sync.one_shot_event_signal(&pool.done)
}
break
}
last := len(pool.queue) - 1
item := pool.queue[last]
ordered_remove(&pool.queue, last)
sync.mutex_unlock(&pool.queue_mutex)
process_dir(pool, item, &local_buf)
delete(item.path)
if len(item.rel) > 0 {delete(item.rel)}
if len(local_buf) >= OUTPUT_BUF_SIZE {
flush_buf(pool.result_chan, &local_buf)
}
old := sync.atomic_sub_explicit(&pool.active, 1, .Release)
if old == 1 {
sync.one_shot_event_signal(&pool.done)
}
}
}
process_dir :: proc(pool: ^WalkerPool, item: WorkItem, local_buf: ^[dynamic]u8) {
dir_path := item.path
cpath := strings.clone_to_cstring(dir_path)
if cpath == nil do return
defer delete(cpath)
fd, open_err := linux.open(cpath, {.DIRECTORY, .CLOEXEC})
if open_err != .NONE do return
defer linux.close(fd)
has_git := false
if !item.in_ignored {
has_git = has_git_dir(fd)
}
gi_ctx := item.gi_ctx
rel := item.rel
if has_git {
gi_ctx = nil
rel = ""
}
child_in_repo := has_git || item.in_repo
gi: ^Gitignore = nil
if !item.in_ignored {
gi = load_ignore_patterns(dir_path, child_in_repo)
}
if gi != nil {
new_ctx := new(GIContext)
new_ctx.gi = gi
if len(rel) > 0 {
new_ctx.base_rel, _ = strings.clone(rel)
}
new_ctx.parent = gi_ctx
sync.mutex_lock(&pool.contexts_lock)
append(&pool.all_contexts, new_ctx)
sync.mutex_unlock(&pool.contexts_lock)
gi_ctx = new_ctx
}
buf: [32 * 1024]u8
rel_buf: [4096]u8
for {
n, errno := linux.getdents(fd, buf[:])
if n <= 0 || errno != .NONE do break
offs := 0
for d in linux.dirent_iterate_buf(buf[:n], &offs) {
name := linux.dirent_name(d)
if name == "." || name == ".." do continue
if name == ".git" do continue
is_dir := d.type == .DIR
is_nondir := d.type != .DIR
if pool.exclude_gi != nil && is_ignored(pool.exclude_gi, name, is_dir) {
continue
}
entry_rel := build_rel(rel_buf[:], rel, name)
ignored := false
if item.in_ignored {
ignored = true
} else if gi_ctx != nil {
ignored = check_chain(gi_ctx, entry_rel, is_dir)
}
if is_dir {
if ignored && matches_pattern(pool, name) {
append_path(local_buf, dir_path, name, true)
}
child_rel, _ := strings.clone(entry_rel)
child_path := join_path(dir_path, name)
push_work(
pool,
WorkItem {
path = child_path,
rel = child_rel,
gi_ctx = gi_ctx,
in_repo = child_in_repo,
in_ignored = ignored,
},
)
} else if is_nondir {
if ignored && matches_pattern(pool, name) {
append_path(local_buf, dir_path, name, false)
}
}
}
}
}
check_chain :: proc(ctx: ^GIContext, entry_rel: string, is_dir: bool) -> bool {
c := ctx
for c != nil {
if c.gi != nil {
rel := relative_to(entry_rel, c.base_rel)
match := check_match(c.gi, rel, is_dir)
if match != .None {
return match == .Ignored
}
}
c = c.parent
}
return false
}
relative_to :: proc(entry_rel, base_rel: string) -> string {
if len(base_rel) == 0 do return entry_rel
prefix_len := len(base_rel)
if len(entry_rel) > prefix_len &&
entry_rel[prefix_len] == '/' &&
strings.has_prefix(entry_rel, base_rel) {
return entry_rel[prefix_len + 1:]
}
return entry_rel
}
build_rel :: proc(buf: []u8, rel, name: string) -> string {
if len(rel) == 0 do return name
pos := copy(buf, rel)
if pos < len(buf) {
buf[pos] = '/'
pos += 1
pos += copy(buf[pos:], name)
}
return string(buf[:pos])
}
matches_pattern :: proc(pool: ^WalkerPool, name: string) -> bool {
if !pool.has_pattern do return true
cap, ok := regex.match(pool.pattern_re, name)
regex.destroy(cap)
return ok
}
push_work :: proc(pool: ^WalkerPool, item: WorkItem) {
sync.atomic_add_explicit(&pool.active, 1, .Relaxed)
sync.mutex_lock(&pool.queue_mutex)
append(&pool.queue, item)
sync.mutex_unlock(&pool.queue_mutex)
sync.atomic_sema_post(&pool.queue_sema)
}
has_git_dir :: proc(fd: linux.Fd) -> bool {
git_fd, err := linux.openat(fd, ".git", {.DIRECTORY, .CLOEXEC})
if err == .NONE {
linux.close(git_fd)
return true
}
return false
}
load_ignore_patterns :: proc(dir_path: string, in_repo: bool) -> ^Gitignore {
has_patterns := false
sb: strings.Builder
strings.builder_init(&sb)
defer strings.builder_destroy(&sb)
if in_repo {
gi_path := join_path(dir_path, ".gitignore")
data, err := os.read_entire_file_from_path(gi_path, context.allocator)
delete(gi_path)
if err == .NONE {
fmt.sbprintf(&sb, "%s", string(data))
delete(data)
has_patterns = true
}
}
ig_path := join_path(dir_path, ".ignore")
idata, ierr := os.read_entire_file_from_path(ig_path, context.allocator)
delete(ig_path)
if ierr == .NONE {
fmt.sbprintf(&sb, "%s", string(idata))
delete(idata)
has_patterns = true
}
if !has_patterns do return nil
content := strings.to_string(sb)
gi := new(Gitignore)
gi^ = parse(content)
return gi
}
join_path :: proc(parent, child: string) -> string {
need_sep := len(parent) == 0 || parent[len(parent) - 1] != '/'
total := len(parent) + len(child)
if need_sep do total += 1
buf := make([]u8, total, context.allocator)
pos := copy(buf, parent)
if need_sep {
buf[pos] = '/'
pos += 1
}
copy(buf[pos:], child)
return string(buf)
}

7
fixtures/keys/insecure-test-key
View File

@@ -1,7 +0,0 @@
-----BEGIN OPENSSH PRIVATE KEY-----
b3BlbnNzaC1rZXktdjEAAAAABG5vbmUAAAAEbm9uZQAAAAAAAAABAAAAMwAAAAtzc2gtZW
QyNTUxOQAAACCbll0MJper9prPwGn2wwikH3hTByL8tlzmhViuvfrryAAAAJCkxfzapMX8
2gAAAAtzc2gtZWQyNTUxOQAAACCbll0MJper9prPwGn2wwikH3hTByL8tlzmhViuvfrryA
AAAEDXQExhs89b3fjqJHkhuo9QX4JEjXiEC+vSnCAYc8OxcpuWXQwml6v2ms/AafbDCKQf
eFMHIvy2XOaFWK69+uvIAAAACnNwZW5jZXJAZncBAgM=
-----END OPENSSH PRIVATE KEY-----

1
fixtures/keys/insecure-test-key.pub
View File

@@ -1 +0,0 @@
ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIJuWXQwml6v2ms/AafbDCKQfeFMHIvy2XOaFWK69+uvI spencer@fw

7
fixtures/keys/test_ed25519
View File

@@ -1,7 +0,0 @@
-----BEGIN OPENSSH PRIVATE KEY-----
b3BlbnNzaC1rZXktdjEAAAAABG5vbmUAAAAEbm9uZQAAAAAAAAABAAAAMwAAAAtzc2gtZW
QyNTUxOQAAACC4CdhiPHmU44cyy9UZV1ISnDq9RbYl1m1qTYOXaSNougAAAIg+8A82PvAP
NgAAAAtzc2gtZWQyNTUxOQAAACC4CdhiPHmU44cyy9UZV1ISnDq9RbYl1m1qTYOXaSNoug
AAAEAalxEoCavixCImtND1I0YHZZjhOrBLxk//t9v0sjYNVLgJ2GI8eZTjhzLL1RlXUhKc
Or1FtiXWbWpNg5dpI2i6AAAABHRlc3QB
-----END OPENSSH PRIVATE KEY-----

1
fixtures/keys/test_ed25519.pub
View File

@@ -1 +0,0 @@
ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAILgJ2GI8eZTjhzLL1RlXUhKcOr1FtiXWbWpNg5dpI2i6 test

8
fixtures/keys/test_ed25519_encrypted
View File

@@ -1,8 +0,0 @@
-----BEGIN OPENSSH PRIVATE KEY-----
b3BlbnNzaC1rZXktdjEAAAAACmFlczI1Ni1jdHIAAAAGYmNyeXB0AAAAGAAAABD342Kol/
iE3kW3alqJTPVpAAAAGAAAAAEAAAAzAAAAC3NzaC1lZDI1NTE5AAAAIF29NuS3O0JUKCj4
j/NmmJJyJk6n/MwI37WtVeWAC5c/AAAAoPFp0zRQufp8S+f68atSqFT1FYMUvGqL2cmmtJ
r+kXEeEvSGdi3xAxCSLuoe0tMeUYP8aUP1M5L9VzTpFoi8jBIfcPl/ZRX8F/+J4dhp5jno
3nQuo1AN0D60r+UmmX+Z0IzIrD2jIpZ/Y7P2kXT8OErIhtC4ZJs3nIIOKFY7ZzlM1IqbYH
dSSlpUnsAoMPjMb0eD0Q6s6JaldfiNshckauU=
-----END OPENSSH PRIVATE KEY-----

1
fixtures/keys/test_ed25519_encrypted.pub
View File

@@ -1 +0,0 @@
ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIF29NuS3O0JUKCj4j/NmmJJyJk6n/MwI37WtVeWAC5c/ encrypted test key

7
fixtures/keys/test_ed25519_second
View File

@@ -1,7 +0,0 @@
-----BEGIN OPENSSH PRIVATE KEY-----
b3BlbnNzaC1rZXktdjEAAAAABG5vbmUAAAAEbm9uZQAAAAAAAAABAAAAMwAAAAtzc2gtZW
QyNTUxOQAAACCZhSOlxHj1zxd+P7adxHOjo3tqqe68AVQ1itJ96nJ95wAAAIh6gz6PeoM+
jwAAAAtzc2gtZWQyNTUxOQAAACCZhSOlxHj1zxd+P7adxHOjo3tqqe68AVQ1itJ96nJ95w
AAAEAEsVzs6egkWMZolD/pZCX5ZcZVXfd5wZ6Ja12f+PxAQJmFI6XEePXPF34/tp3Ec6Oj
e2qp7rwBVDWK0n3qcn3nAAAABXRlc3Qy
-----END OPENSSH PRIVATE KEY-----

1
fixtures/keys/test_ed25519_second.pub
View File

@@ -1 +0,0 @@
ssh-ed25519 AAAAC3NzaC1lZDI1NTE5AAAAIJmFI6XEePXPF34/tp3Ec6Oje2qp7rwBVDWK0n3qcn3n test2

27
fixtures/keys/test_rsa
View File

@@ -1,27 +0,0 @@
-----BEGIN OPENSSH PRIVATE KEY-----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-----END OPENSSH PRIVATE KEY-----

1
fixtures/keys/test_rsa.pub
View File

@@ -1 +0,0 @@
ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCPCr8hJ4r9OYqJXU0AEir60XB68CulNFPJn14LknIa8PMMHTdu5WXptd3r5zC/6HQBlrsFk3rRrK/zMBSbIalLEU3aAwWIn/SIVilMeItkPhVQfyYI+WUh6E52t6lyGaWHXgF5KEmOUbPAECWCIQ43lXraAJZYuaQjNwCBR3dHY1RB9qOXvjADQkGRo14XBSmdQBHI9R4xVfxlVS9ukT9Y4VNlh8VkOS6XppKQDMR7Jmr2zionaZa3lpy5dwxxSXpi24AYxeKL65XWcnJCk2AdF0RnYKHXOa2JOuqO610FQ5/JBkncuf2H+c8kN6tQdlujKG7rnh0ttpzQ/elhyJbz test-rsa

BIN
fixtures/single-file.db
View File

Binary file not shown.

35
flake.nix
View File

@@ -11,12 +11,11 @@
}; };
outputs = outputs =
inputs@{ inputs@{ flake-parts
flake-parts, , nixpkgs
nixpkgs, , nixpkgs-unstable
nixpkgs-unstable, , self
self, , treefmt-nix
treefmt-nix,
}: }:
flake-parts.lib.mkFlake { inherit inputs; } { flake-parts.lib.mkFlake { inherit inputs; } {
imports = [ imports = [
@@ -30,18 +29,7 @@
]; ];
perSystem = perSystem =
{ { pkgs, system, inputs', ... }: {
pkgs,
system,
inputs',
...
}:
let
mysqlite = pkgs.sqlite.overrideAttrs (old: {
configureFlags = (old.configureFlags or [ ]) ++ [ "--enable-deserialize" ];
});
in
{
_module.args.pkgs = import nixpkgs { _module.args.pkgs = import nixpkgs {
inherit system; inherit system;
config.allowUnfree = true; config.allowUnfree = true;
@@ -66,7 +54,7 @@
packages.default = pkgs.stdenv.mkDerivation rec { packages.default = pkgs.stdenv.mkDerivation rec {
pname = "envr"; pname = "envr";
version = "0.3.0"; version = "0.2.0";
src = ./.; src = ./.;
nativeBuildInputs = [ nativeBuildInputs = [
@@ -76,7 +64,7 @@
buildInputs = [ buildInputs = [
pkgs.libsodium pkgs.libsodium
mysqlite pkgs.sqlite
]; ];
buildPhase = '' buildPhase = ''
@@ -95,20 +83,17 @@
devShells.default = pkgs.mkShell { devShells.default = pkgs.mkShell {
buildInputs = with pkgs; [ buildInputs = with pkgs; [
fd
nushell nushell
libsodium libsodium
mysqlite sqlite
unstable.odin unstable.odin
unstable.ols unstable.ols
# Build tools # Build tools
zip zip
# Helper tools
delta
hyperfine
# IDE # IDE
unstable.helix unstable.helix
typescript-language-server typescript-language-server

30
main.odin
View File

@@ -1,31 +1,10 @@
package main package main
import "core:fmt" import "core:fmt"
import "core:mem"
import "core:os" import "core:os"
main :: proc() { main :: proc() {
when ODIN_DEBUG { cmd, ok := parse_args()
heap_track: mem.Tracking_Allocator
mem.tracking_allocator_init(&heap_track, context.allocator)
defer mem.tracking_allocator_destroy(&heap_track)
defer if len(heap_track.allocation_map) > 0 {
for _, leak in heap_track.allocation_map {
fmt.eprintf("LEAK: %v leaked %m\n", leak.location, leak.size)
}
}
context.allocator = mem.tracking_allocator(&heap_track)
temp_track: mem.Tracking_Allocator
mem.tracking_allocator_init(&temp_track, context.temp_allocator)
defer mem.tracking_allocator_destroy(&temp_track)
context.temp_allocator = mem.tracking_allocator(&temp_track)
}
defer free_all(context.temp_allocator)
cmd, ok := parse_args(os.args, os.to_writer(os.stdout), os.to_writer(os.stderr))
defer delete_command(&cmd) // delete flushes automatically
if !ok { if !ok {
return return
} }
@@ -35,6 +14,8 @@ main :: proc() {
cmd_init(&cmd) cmd_init(&cmd)
case "version": case "version":
cmd_version(&cmd) cmd_version(&cmd)
case "deps":
cmd_deps(&cmd)
case "list": case "list":
cmd_list(&cmd) cmd_list(&cmd)
case "backup", "add": case "backup", "add":
@@ -54,9 +35,10 @@ main :: proc() {
case "nushell-completion": case "nushell-completion":
cmd_nushell_completion(&cmd) cmd_nushell_completion(&cmd)
case: case:
fmt.wprintf(cmd.err, "Unknown command: %s\n", cmd.name) fmt.printf("Unknown command: %s\n", cmd.name)
write_usage(cmd.out) print_usage()
os.exit(1) os.exit(1)
} }
} }

44
main.odin.bak Normal file
View File

@@ -0,0 +1,44 @@
package main
import "core:fmt"
import "core:os"
main :: proc() {
cmd, ok := parse_args()
if !ok {
return
}
switch cmd.name {
case "init":
cmd_init(&cmd)
case "version":
cmd_version(&cmd)
case "deps":
cmd_deps(&cmd)
case "list":
cmd_list(&cmd)
case "backup", "add":
cmd_backup(&cmd)
case "remove":
cmd_remove(&cmd)
case "restore":
cmd_restore(&cmd)
case "edit-config":
cmd_edit_config(&cmd)
case "check":
cmd_check(&cmd)
case "scan":
cmd_scan(&cmd)
case "sync":
cmd_sync(&cmd)
case "nushell-completion":
cmd_nushell_completion(&cmd)
case:
fmt.printf("Unknown command: %s\n", cmd.name)
print_usage()
os.exit(1)
}
}

196
prompt.odin
View File

@@ -3,113 +3,11 @@ package main
import "core:fmt" import "core:fmt"
import "core:sys/posix" import "core:sys/posix"
MultiSelect_Result :: enum {
Confirm,
Cancel,
}
Key :: enum {
Up,
Down,
Space,
Enter,
Escape,
Unknown,
}
Raw_State :: struct { Raw_State :: struct {
original: posix.termios, original: posix.termios,
fd: posix.FD, fd: posix.FD,
} }
MAX_VISIBLE :: 7
// Caller is responsible for deleting the responses.
multi_select :: proc(
prompt: string,
options: []string,
) -> (
selected: [dynamic]bool,
result: MultiSelect_Result,
) {
if len(options) == 0 {
return
}
selected = make([dynamic]bool, 0, len(options))
cursor: int = 0
scroll_offset: int = 0
fmt.printf("\x1b[?25l")
visible := render_options(prompt, options, selected[:], cursor, scroll_offset)
raw, ok := enable_raw_mode(posix.STDIN_FILENO)
if !ok {
fmt.printf("\x1b[?25h")
return
}
defer disable_raw_mode(&raw)
for {
key := read_key()
switch key {
case .Up:
if cursor > 0 {
cursor -= 1
}
case .Down:
if cursor < len(options) - 1 {
cursor += 1
}
case .Space:
selected[cursor] = !selected[cursor]
case .Enter:
fmt.printf("\x1b[%dA\x1b[J\x1b[?25h", visible + 1)
result = .Confirm
return
case .Escape:
fmt.printf("\x1b[%dA\x1b[J\x1b[?25h", visible + 1)
result = .Cancel
return
case .Unknown:
}
scroll_offset = max(0, min(cursor - MAX_VISIBLE / 2, len(options) - MAX_VISIBLE))
fmt.printf("\x1b[%dA\x1b[0J", visible + 1)
visible = render_options(prompt, options, selected[:], cursor, scroll_offset)
}
}
render_options :: proc(
prompt: string,
options: []string,
selected: []bool,
cursor: int,
scroll_offset: int,
) -> int {
fmt.printf("\x1b[1;36m%s\x1b[0m (↑/↓ move, space select, enter confirm)\r\n", prompt)
end := scroll_offset + MAX_VISIBLE
if end > len(options) {
end = len(options)
}
for i in scroll_offset ..< end {
checkbox := " "
if selected[i] {
checkbox = "x"
}
if i == cursor {
fmt.printf("\x1b[1;32m> \x1b[0m[\x1b[32m%s\x1b[0m] %s\r\n", checkbox, options[i])
} else {
fmt.printf(" [\x1b[2m%s\x1b[0m] %s\r\n", checkbox, options[i])
}
}
return end - scroll_offset
}
enable_raw_mode :: proc(fd: posix.FD) -> (Raw_State, bool) { enable_raw_mode :: proc(fd: posix.FD) -> (Raw_State, bool) {
state: Raw_State state: Raw_State
state.fd = fd state.fd = fd
@@ -137,6 +35,15 @@ disable_raw_mode :: proc(state: ^Raw_State) {
posix.tcsetattr(state.fd, .TCSAFLUSH, &state.original) posix.tcsetattr(state.fd, .TCSAFLUSH, &state.original)
} }
Key :: enum {
Up,
Down,
Space,
Enter,
Escape,
Unknown,
}
read_key :: proc() -> Key { read_key :: proc() -> Key {
buf: [3]u8 buf: [3]u8
@@ -199,3 +106,88 @@ read_key :: proc() -> Key {
} }
} }
MultiSelect_Result :: enum {
Confirm,
Cancel,
}
MAX_VISIBLE :: 7
multi_select :: proc(
prompt: string,
options: []string,
) -> (selected: [dynamic]bool, result: MultiSelect_Result) {
if len(options) == 0 {
return
}
selected = make([dynamic]bool, len(options))
cursor: int = 0
scroll_offset: int = 0
fmt.printf("\x1b[?25l")
visible := render_options(prompt, options, selected[:], cursor, scroll_offset)
raw, ok := enable_raw_mode(posix.STDIN_FILENO)
if !ok {
fmt.printf("\x1b[?25h")
return
}
defer disable_raw_mode(&raw)
for {
key := read_key()
switch key {
case .Up:
if cursor > 0 {
cursor -= 1
}
case .Down:
if cursor < len(options) - 1 {
cursor += 1
}
case .Space:
selected[cursor] = !selected[cursor]
case .Enter:
fmt.printf("\x1b[%dA\x1b[J\x1b[?25h", visible + 1)
result = .Confirm
return
case .Escape:
fmt.printf("\x1b[%dA\x1b[J\x1b[?25h", visible + 1)
result = .Cancel
return
case .Unknown:
}
scroll_offset = max(0, min(cursor - MAX_VISIBLE / 2, len(options) - MAX_VISIBLE))
fmt.printf("\x1b[%dA\x1b[0J", visible + 1)
visible = render_options(prompt, options, selected[:], cursor, scroll_offset)
}
}
render_options :: proc(prompt: string, options: []string, selected: []bool, cursor: int, scroll_offset: int) -> int {
fmt.printf(
"\x1b[1;36m%s\x1b[0m (↑/↓ move, space select, enter confirm)\r\n",
prompt,
)
end := scroll_offset + MAX_VISIBLE
if end > len(options) {
end = len(options)
}
for i in scroll_offset..<end {
checkbox := " "
if selected[i] {
checkbox = "x"
}
if i == cursor {
fmt.printf("\x1b[1;32m> \x1b[0m[\x1b[32m%s\x1b[0m] %s\r\n", checkbox, options[i])
} else {
fmt.printf(" [\x1b[2m%s\x1b[0m] %s\r\n", checkbox, options[i])
}
}
return end - scroll_offset
}

126
scan.odin
View File

@@ -1,21 +1,136 @@
package main package main
import "core:fmt"
import "core:os" import "core:os"
import "core:strings"
import "core:sync"
import "core:terminal"
import "findr" fd_counter: sync.Atomic_Mutex
fd_seq: int
// Caller is responsible for freeing paths // Caller is responsible for freeing paths
scan_path :: proc(search_path: string, cfg: Config) -> (paths: [dynamic]string, ok: bool) { scan_path :: proc(search_path: string, cfg: Config) -> (paths: [dynamic]string, ok: bool) {
opts := findr.WalkOptions { if terminal.is_terminal(os.stdout) {
pattern = cfg.ScanConfig.Matcher, fmt.printf("Searching for all files in \"%s\"...\n", search_path)
excludes = cfg.ScanConfig.Exclude[:],
} }
findr.walk({search_path}, &paths, opts, os.get_processor_core_count()) all_files, all_ok := run_fd(build_fd_args(search_path, cfg, true))
if !all_ok {
return
}
if terminal.is_terminal(os.stdout) {
fmt.printf("Search for unignored fies in \"%s\"...\n", search_path)
}
unignored_files, unignored_ok := run_fd(build_fd_args(search_path, cfg, false))
if !unignored_ok {
return
}
unignored_set := make(map[string]bool, len(unignored_files), context.temp_allocator)
for file in unignored_files {
unignored_set[file] = true
}
for file in all_files {
if !(file in unignored_set) {
append(&paths, file)
}
}
ok = true ok = true
return return
} }
@(private = "file")
build_fd_args :: proc(search_path: string, cfg: Config, include_ignored: bool) -> []string {
args_len := 3 + 2 * len(cfg.ScanConfig.Exclude) + 2
args := make([dynamic]string, 0, args_len, context.temp_allocator)
append(&args, "fd")
append(&args, "-a")
append(&args, cfg.ScanConfig.Matcher)
for exclude in cfg.ScanConfig.Exclude {
append(&args, "-E")
append(&args, exclude)
}
if include_ignored {
append(&args, "-HI")
} else {
append(&args, "-H")
}
append(&args, search_path)
return args[:]
}
run_fd :: proc(args: []string) -> (lines: []string, ok: bool) {
tmp_path := next_fd_tmp_path()
tmp_file, tmp_err := os.open(tmp_path, os.O_CREATE | os.O_WRONLY | os.O_TRUNC)
if tmp_err != nil {
return
}
desc := os.Process_Desc {
command = args,
stdout = tmp_file,
stderr = nil,
}
p, start_err := os.process_start(desc)
os.close(tmp_file)
if start_err != nil {
os.remove(tmp_path)
return
}
state, wait_err := os.process_wait(p)
if wait_err != nil || state.exit_code != 0 {
os.remove(tmp_path)
return
}
data, read_err := os.read_entire_file_from_path(tmp_path, context.temp_allocator)
os.remove(tmp_path)
if read_err != nil {
return
}
output := string(data)
output = strings.trim_space(output)
if len(output) == 0 {
ok = true
return
}
raw_lines := strings.split(output, "\n", context.temp_allocator)
result := make([dynamic]string, 0, len(raw_lines), context.temp_allocator)
for line in raw_lines {
trimmed := strings.trim_space(line)
if len(trimmed) > 0 {
append(&result, trimmed)
}
}
return result[:], true
}
@(private = "file")
next_fd_tmp_path :: proc() -> string {
sync.atomic_mutex_lock(&fd_counter)
n := fd_seq
fd_seq += 1
sync.atomic_mutex_unlock(&fd_counter)
return fmt.tprintf("/tmp/envr-fd-%d-%d", os.get_pid(), n)
}
cant_scan :: proc(feats: AvailableFeatures) -> bool {
return Feature.Fd not_in feats
}
find_unbacked :: proc(local_files: []string, db_files: []EnvFile) -> []string { find_unbacked :: proc(local_files: []string, db_files: []EnvFile) -> []string {
// Lives until the end of the function
backed_set := make(map[string]bool, len(db_files), context.temp_allocator) backed_set := make(map[string]bool, len(db_files), context.temp_allocator)
for file in db_files { for file in db_files {
backed_set[file.Path] = true backed_set[file.Path] = true
@@ -29,3 +144,4 @@ find_unbacked :: proc(local_files: []string, db_files: []EnvFile) -> []string {
} }
return unbacked[:] return unbacked[:]
} }

14
scan_test.odin
View File

@@ -7,6 +7,9 @@ import "core:testing"
@(test) @(test)
test_scan_path_finds_gitignored_env_files :: proc(t: ^testing.T) { test_scan_path_finds_gitignored_env_files :: proc(t: ^testing.T) {
feats := check_features()
testing.expect(t, cant_scan(feats) == false)
base := fmt.tprintf("/tmp/envr-scan-test-%d", os.get_pid()) base := fmt.tprintf("/tmp/envr-scan-test-%d", os.get_pid())
os.mkdir_all(base) os.mkdir_all(base)
defer os.remove_all(base) defer os.remove_all(base)
@@ -38,12 +41,7 @@ test_scan_path_finds_gitignored_env_files :: proc(t: ^testing.T) {
} }
results, ok := scan_path(base, cfg) results, ok := scan_path(base, cfg)
defer { defer delete(results)
for path in results {
delete(path)
}
delete(results)
}
testing.expect(t, ok, "scan_path should succeed") testing.expect(t, ok, "scan_path should succeed")
found_env := false found_env := false
@@ -70,6 +68,9 @@ test_scan_path_finds_gitignored_env_files :: proc(t: ^testing.T) {
@(test) @(test)
test_scan_path_empty_dir :: proc(t: ^testing.T) { test_scan_path_empty_dir :: proc(t: ^testing.T) {
feats := check_features()
testing.expect(t, cant_scan(feats) == false)
base := fmt.tprintf("/tmp/envr-scan-empty-%d", os.get_pid()) base := fmt.tprintf("/tmp/envr-scan-empty-%d", os.get_pid())
os.mkdir_all(base) os.mkdir_all(base)
defer os.remove_all(base) defer os.remove_all(base)
@@ -83,3 +84,4 @@ test_scan_path_empty_dir :: proc(t: ^testing.T) {
testing.expect(t, ok, "scan_path should succeed") testing.expect(t, ok, "scan_path should succeed")
testing.expect(t, len(results) == 0, fmt.tprintf("expected 0 results, got %d", len(results))) testing.expect(t, len(results) == 0, fmt.tprintf("expected 0 results, got %d", len(results)))
} }

11
sqlite/sqlite.odin
View File

@@ -8,9 +8,6 @@ OK :: 0
ROW :: 100 ROW :: 100
DONE :: 101 DONE :: 101
DESERIALIZE_FREEONCLOSE :: 1
DESERIALIZE_RESIZEABLE :: 2
foreign lib { foreign lib {
@(link_name="sqlite3_open") @(link_name="sqlite3_open")
db_open :: proc(filename: cstring, ppDb: ^^rawptr) -> c.int --- db_open :: proc(filename: cstring, ppDb: ^^rawptr) -> c.int ---
@@ -34,12 +31,4 @@ foreign lib {
bind_text :: proc(stmt: ^rawptr, idx: c.int, val: cstring, n: c.int, destructor: rawptr) -> c.int --- bind_text :: proc(stmt: ^rawptr, idx: c.int, val: cstring, n: c.int, destructor: rawptr) -> c.int ---
@(link_name="sqlite3_changes") @(link_name="sqlite3_changes")
changes :: proc(db: ^rawptr) -> c.int --- changes :: proc(db: ^rawptr) -> c.int ---
@(link_name="sqlite3_serialize")
serialize :: proc(db: ^rawptr, zSchema: cstring, piSize: ^i64, mFlags: u32) -> [^]u8 ---
@(link_name="sqlite3_deserialize")
deserialize :: proc(db: ^rawptr, zSchema: cstring, pData: [^]u8, szDb: i64, szBuf: i64, mFlags: u32) -> c.int ---
@(link_name="sqlite3_malloc64")
malloc64 :: proc(n: i64) -> [^]u8 ---
@(link_name="sqlite3_free")
free :: proc(p: rawptr) ---
} }

36
ssh.odin
View File

@@ -12,6 +12,24 @@ Ed25519Keypair :: struct {
Private: [32]u8, Private: [32]u8,
} }
read_wire_string :: proc(data: []u8, offset: ^int) -> (s: string, ok: bool) {
if offset^ + 4 > len(data) {
return
}
length := u32(data[offset^]) << 24 | u32(data[offset^ + 1]) << 16 |
u32(data[offset^ + 2]) << 8 | u32(data[offset^ + 3])
offset^ += 4
if offset^ + int(length) > len(data) {
return
}
s = string(data[offset^ : offset^ + int(length)])
offset^ += int(length)
ok = true
return
}
parse_ssh_public_key :: proc(pub_path: string) -> (pub: [32]u8, ok: bool) { parse_ssh_public_key :: proc(pub_path: string) -> (pub: [32]u8, ok: bool) {
data, err := os.read_entire_file_from_path(pub_path, context.temp_allocator) data, err := os.read_entire_file_from_path(pub_path, context.temp_allocator)
if err != nil { if err != nil {
@@ -235,21 +253,3 @@ is_encrypted_key :: proc(priv_path: string) -> bool {
return ciphername != "none" return ciphername != "none"
} }
read_wire_string :: proc(data: []u8, offset: ^int) -> (s: string, ok: bool) {
if offset^ + 4 > len(data) {
return
}
length := u32(data[offset^]) << 24 | u32(data[offset^ + 1]) << 16 |
u32(data[offset^ + 2]) << 8 | u32(data[offset^ + 3])
offset^ += 4
if offset^ + int(length) > len(data) {
return
}
s = string(data[offset^ : offset^ + int(length)])
offset^ += int(length)
ok = true
return
}

38
ssh_test.odin
View File

@@ -3,7 +3,7 @@ package main
import "core:fmt" import "core:fmt"
import "core:testing" import "core:testing"
TEST_KEY_DIR :: "fixtures/keys" TEST_KEY_DIR :: "/tmp/envr-test-keys"
@(test) @(test)
test_parse_ed25519_public_key :: proc(t: ^testing.T) { test_parse_ed25519_public_key :: proc(t: ^testing.T) {
@@ -70,39 +70,3 @@ test_read_wire_string :: proc(t: ^testing.T) {
testing.expect(t, s2 == "", "expected empty string") testing.expect(t, s2 == "", "expected empty string")
} }
@(test)
test_is_encrypted_key_encrypted :: proc(t: ^testing.T) {
testing.expect(
t,
is_encrypted_key(TEST_KEY_DIR + "/test_ed25519_encrypted"),
"encrypted key should be detected as encrypted",
)
}
@(test)
test_is_encrypted_key_unencrypted :: proc(t: ^testing.T) {
testing.expect(
t,
!is_encrypted_key(TEST_KEY_DIR + "/test_ed25519"),
"unencrypted key should not be detected as encrypted",
)
}
@(test)
test_is_encrypted_key_rsa_unencrypted :: proc(t: ^testing.T) {
testing.expect(
t,
!is_encrypted_key(TEST_KEY_DIR + "/test_rsa"),
"unencrypted RSA key should not be detected as encrypted",
)
}
@(test)
test_is_encrypted_key_missing_file :: proc(t: ^testing.T) {
testing.expect(
t,
is_encrypted_key(TEST_KEY_DIR + "/nonexistent"),
"missing file should be treated as encrypted (fail-safe)",
)
}

22
table.odin
View File

@@ -5,16 +5,16 @@ import "core:fmt"
import "core:io" import "core:io"
import "core:strings" import "core:strings"
render_table :: proc(w: io.Writer, headers: []string, rows: [][]string) { render_table :: proc(headers: []string, rows: [][]string) {
col_widths := make([dynamic]int, 0, len(headers)) col_widths := make([dynamic]int, 0, len(headers))
for i in 0 ..< len(headers) { for i in 0 ..< len(headers) {
append(&col_widths, strings.rune_count(headers[i])) append(&col_widths, strings.rune_count(headers[i]))
} }
for r in rows { for r in rows {
for i in 0 ..< len(r) { for i in 0 ..< len(r) {
rw := strings.rune_count(r[i]) w := strings.rune_count(r[i])
if i < len(col_widths) && rw > col_widths[i] { if i < len(col_widths) && w > col_widths[i] {
col_widths[i] = rw col_widths[i] = w
} }
} }
} }
@@ -24,7 +24,7 @@ render_table :: proc(w: io.Writer, headers: []string, rows: [][]string) {
defer strings.builder_destroy(&b) defer strings.builder_destroy(&b)
defer delete(col_widths) defer delete(col_widths)
hline :: proc(w: io.Writer, b: ^strings.Builder, left, mid, right: string, widths: [dynamic]int) { hline :: proc(b: ^strings.Builder, left, mid, right: string, widths: [dynamic]int) {
strings.write_string(b, left) strings.write_string(b, left)
for i in 0 ..< len(widths) { for i in 0 ..< len(widths) {
for _ in 0 ..< widths[i] + 2 { for _ in 0 ..< widths[i] + 2 {
@@ -36,11 +36,11 @@ render_table :: proc(w: io.Writer, headers: []string, rows: [][]string) {
strings.write_string(b, right) strings.write_string(b, right)
} }
} }
fmt.wprintf(w, "%s\n", strings.to_string(b^), flush = false) fmt.println(strings.to_string(b^))
strings.builder_reset(b) strings.builder_reset(b)
} }
hline(w, &b, "\u250c", "\u252c", "\u2510", col_widths) hline(&b, "\u250c", "\u252c", "\u2510", col_widths)
cell :: proc(b: ^strings.Builder, s: string, width: int) { cell :: proc(b: ^strings.Builder, s: string, width: int) {
extra := len(s) - strings.rune_count(s) extra := len(s) - strings.rune_count(s)
@@ -51,21 +51,21 @@ render_table :: proc(w: io.Writer, headers: []string, rows: [][]string) {
for i in 0 ..< len(headers) { for i in 0 ..< len(headers) {
cell(&b, headers[i], col_widths[i]) cell(&b, headers[i], col_widths[i])
} }
fmt.wprintf(w, "%s\n", strings.to_string(b), flush = false) fmt.println(strings.to_string(b))
strings.builder_reset(&b) strings.builder_reset(&b)
hline(w, &b, "\u251c", "\u253c", "\u2524", col_widths) hline(&b, "\u251c", "\u253c", "\u2524", col_widths)
for r in rows { for r in rows {
strings.write_string(&b, "\u2502") strings.write_string(&b, "\u2502")
for i in 0 ..< len(r) { for i in 0 ..< len(r) {
cell(&b, r[i], col_widths[i]) cell(&b, r[i], col_widths[i])
} }
fmt.wprintf(w, "%s\n", strings.to_string(b), flush = false) fmt.println(strings.to_string(b))
strings.builder_reset(&b) strings.builder_reset(&b)
} }
hline(w, &b, "\u2514", "\u2534", "\u2518", col_widths) hline(&b, "\u2514", "\u2534", "\u2518", col_widths)
} }
render_json_rows :: proc(w: io.Writer, headers: []string, rows: [][]string) { render_json_rows :: proc(w: io.Writer, headers: []string, rows: [][]string) {

94
table_test.odin
View File

@@ -102,97 +102,3 @@ test_render_json_rows_empty :: proc(t: ^testing.T) {
testing.expect(t, len(result) == 0) testing.expect(t, len(result) == 0)
} }
@(test)
test_render_table_normal :: proc(t: ^testing.T) {
b: strings.Builder
strings.builder_init(&b)
defer strings.builder_destroy(&b)
headers := []string{"Name", "Path"}
rows := [][]string{{"foo", "/home/user/.env"}, {"bar", "/home/user/project/.env"}}
w := strings.to_writer(&b)
render_table(w, headers, rows)
output := strings.to_string(b)
expected := `┌──────┬─────────────────────────┐
│ Name │ Path │
├──────┼─────────────────────────┤
│ foo │ /home/user/.env │
│ bar │ /home/user/project/.env │
└──────┴─────────────────────────┘
`
testing.expect(
t,
output == expected,
fmt.tprintf(
"table output mismatch\n--- expected ---\n%s\n--- got ---\n%s\n",
expected,
output,
),
)
}
@(test)
test_render_table_empty :: proc(t: ^testing.T) {
b: strings.Builder
strings.builder_init(&b)
defer strings.builder_destroy(&b)
headers := []string{"Name"}
rows: [][]string
w := strings.to_writer(&b)
render_table(w, headers, rows)
output := strings.to_string(b)
expected := `┌──────┐
│ Name │
├──────┤
└──────┘
`
testing.expect(
t,
output == expected,
fmt.tprintf(
"table output mismatch\n--- expected ---\n%s\n--- got ---\n%s\n",
expected,
output,
),
)
}
@(test)
test_render_table_unicode :: proc(t: ^testing.T) {
b: strings.Builder
strings.builder_init(&b)
defer strings.builder_destroy(&b)
headers := []string{"Status", "Detail"}
rows := [][]string{{"\u2713 Available", "ok"}, {"\u2717 Missing", "fail"}}
w := strings.to_writer(&b)
render_table(w, headers, rows)
output := strings.to_string(b)
expected := `┌─────────────┬────────┐
│ Status │ Detail │
├─────────────┼────────┤
│ ✓ Available │ ok │
│ ✗ Missing │ fail │
└─────────────┴────────┘
`
testing.expect(
t,
output == expected,
fmt.tprintf(
"table output mismatch\n--- expected ---\n%s\n--- got ---\n%s\n",
expected,
output,
),
)
}

2
version.txt
View File

@@ -1 +1 @@
0.4.0 0.2.0