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10 Commits
main ... 07e60e4ab2

Author SHA1 Message Date
Spencer Brower
07e60e4ab2 refactor: Cleaned up the sync and scan commands. 2026-06-18 18:37:24 -04:00
Spencer Brower
0523c09601 refactor: Gave db its own allocator. 2026-06-18 17:29:28 -04:00
Spencer Brower
f137fc79fc refactor: Fixed up env_file_sync. 2026-06-18 16:35:03 -04:00
Spencer Brower
8d5e50566b ci: Fixed release-please. 2026-06-18 10:43:47 -04:00
Spencer Brower
5059572951 fix: Fixed memory leaks in the db. 2026-06-18 10:35:21 -04:00
Spencer Brower
d2b84ac4c6 refactor(crypto): used a proper init procedure. 2026-06-18 08:18:09 -04:00
Spencer Brower
96bc218c46 style: Ordered procedures by usage, with main at the top. 2026-06-18 08:08:46 -04:00
Spencer Brower
3b32e365c9 chore: Updated TODOS.md 2026-06-18 07:45:38 -04:00
Spencer Brower
12574e123b feat: Removed runtime git dependency. 
This also allowed us to drop the Features code.
 2026-06-18 07:29:44 -04:00
Spencer Brower
bc464a3410 chore: Removed completed todo. 2026-06-17 18:03:54 -04:00
25 changed files with 932 additions and 1022 deletions
Expand all files Collapse all files

2
.github/workflows/release-please.yml vendored
View File

@@ -2,8 +2,6 @@ on:
push:
branches:
- main
- dev
- odin
permissions:
contents: write

28
README.md
View File

@@ -12,14 +12,13 @@ the tool [of your choosing](#backup-options).
## Features
- 🔐 **Encrypted Storage**: All `.env` files are encrypted using your ssh key and
[libsodium](https://github.com/jedisct1/libsodium) encryption.
- 🔄 **Automatic Sync**: Update the database with one command, which can easily
- **Encrypted Storage**: All `.env` files are encrypted using your ssh key and
[libsodium](https://github.com/jedisct1/libsodium).
- **Automatic Sync**: Update the database with one command, which can easily
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.
- **Interactive CLI**: User-friendly prompts for file selection and management.
- 🗂️ **Rename Detection**: Automatically finds and updates renamed/moved
- **Rename Detection**: Automatically find and updates renamed/moved
repositories.
## TODOS
@@ -28,15 +27,11 @@ repositories.
- [x] Allow configuration of ssh key.
- [x] Allow multiple ssh keys.
## Prerequisites
- An SSH key pair (for encryption/decryption)
- The following binaries:
- [fd](https://github.com/sharkdp/fd)
- [git](https://git-scm.com)
## Installation
You will need an SSH key pair for encryption and decryption. You can generate one
with `ssh-keygen -t ed25519`. It will be saved to `~/.ssh/id_ed25519`.
### With Odin
If you already have `odin` installed:
@@ -96,7 +91,12 @@ The configuration file is created during initialization:
],
"scan": {
"matcher": "\\.env",
"exclude": "*.envrc",
"exclude": [
"*\\.envrc",
"\\.local/",
"node_modules",
"vendor"
],
"include": "~"
}
}

7
TEST_PLAN.md
View File

@@ -35,13 +35,7 @@ Stdout will be captured by redirecting `os.stdout` to a pipe.
## Hard to test (interactive / external deps)
### `cmd_deps` (cmd_deps.odin)
- Needs `git` and/or `fd` in PATH
- Test TTY and non-TTY paths
- Skip if dependencies not available (with `#assert` like TODO 28 suggests)
### `cmd_scan` (cmd_scan.odin)
- Needs `fd` installed
- 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
@@ -66,5 +60,4 @@ Stdout will be captured by redirecting `os.stdout` to a pipe.
- DB integration tests should use in-memory SQLite (`:memory:`) where possible.
- Temp dir fixtures should follow the pattern in `scan_test.odin`.
- External dependency tests (`fd`, `git`) should use `#assert` to ensure the dependency is present rather than silently skipping (TODO 28).
- Tests that manipulate the `HOME` env var must use a mutex to prevent races with parallel test execution.

31
TODOS.md
View File

@@ -2,11 +2,15 @@
1. Consider giving db its own allocator
2. **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.
27. Commands are still leaking.
3. **db.odin:135, 250** — String interpolation into SQL (`VACUUM INTO '%s'`, `ATTACH DATABASE '%s'`). Currently safe because input is controlled, but fragile.
28. **db.odin** — Inconsistencies in how struct vs sqlite are named.
4. **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).
2. Generate md and man pages again.
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.
4. Make sure official path separators are used when appropriate, rather than '/'.
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.
@@ -18,7 +22,7 @@
11. **db.odin:352-353**`hex.encode` error ignored. `string(hex_bytes)` aliases the byte slice.
12. **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.
12. **cmd_sync.odin:80, cmd_list.odin:33**`make([]string, 2)` for table rows never freed. Leaks per row. Defer to memory pass.
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"`.
@@ -26,8 +30,6 @@
15. Add a text filter to the multi_select.
16. Create backup / fallback fd.
17. Add tests for untested commands.
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.
@@ -40,6 +42,12 @@
23. procedures should be ordered by use, main at the top, then in the order they are called from main.
24. Shell completion
25. Bring back windows support / cross-compilation.
26. Test all cmds / terminal branches.
## Double-check AI output
- [ ] cli.odin
@@ -47,7 +55,6 @@
- [x] cmd_backup.odin
- [x] cmd_check.odin
- [ ] cmd_check_test.odin
- [x] cmd_deps.odin
- [ ] cmd_edit_config.odin
- [x] cmd_init.odin
- [x] cmd_list.odin
@@ -66,8 +73,6 @@
- [ ] db.odin
- [ ] db_integration_test.odin
- [ ] db_test.odin
- [x] features.odin
- [x] features_test.odin
- [x] main.odin
- [x] prompt.odin
- [ ] scan.odin
@@ -78,3 +83,11 @@
- [ ] ssh_test.odin
- [ ] table.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
View File

@@ -1,92 +0,0 @@
# 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

76
cli.odin
View File

@@ -43,13 +43,6 @@ key somewhere, otherwise your data could be lost forever.`,
{"list", "envr list", "View your tracked files", "", {}},
{"remove", "envr remove <path>", "Remove a .env file from your database", "", {}},
{"check", "envr check [path]", "Check if files are backed up", "", {}},
{
"deps",
"envr deps",
"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", "", {}},
{
@@ -61,20 +54,12 @@ key somewhere, otherwise your data could be lost forever.`,
},
}
delete_command :: proc(cmd: ^Command) {
delete(cmd.args)
delete(cmd.flags)
delete(cmd.bool_set)
bufio.writer_destroy(cmd.out_buf)
free(cmd.out_buf)
}
// Caller is responsible for calling delete_command(cmd).
// FIXME: Works in kinda a wonky and awkward way.
parse_args :: proc(args: []string, out: io.Stream, err: io.Stream) -> (cmd: Command, ok: bool) {
{
cmd.out_buf = new(bufio.Writer)
bufio.writer_init(cmd.out_buf, out)
bufio.writer_init(cmd.out_buf, out, allocator = context.allocator)
cmd.out = bufio.writer_to_writer(cmd.out_buf)
cmd.err = err
}
@@ -137,27 +122,12 @@ parse_args :: proc(args: []string, out: io.Stream, err: io.Stream) -> (cmd: Comm
return cmd, true
}
has_flag :: proc(cmd: ^Command, name: string) -> bool {
_, ok := cmd.flags[name]
if ok {
return true
print_command_help :: proc(cmd: ^Command) {
ok := write_command_help(cmd.name, cmd.out)
if !ok {
fmt.wprintf(cmd.err, "Unknown command: %s\n", cmd.name)
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 {
@@ -190,12 +160,18 @@ write_command_help :: proc(name: string, w: io.Writer) -> bool {
return true
}
print_command_help :: proc(cmd: ^Command) {
ok := write_command_help(cmd.name, cmd.out)
if !ok {
fmt.wprintf(cmd.err, "Unknown command: %s\n", cmd.name)
write_usage(cmd.out)
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
}
// TODO: command args should be shown in usage.
@@ -270,3 +246,21 @@ Use "envr [command] --help" for more information about a command.
)
}
has_flag :: proc(cmd: ^Command, name: string) -> bool {
_, ok := cmd.flags[name]
if ok {
return true
}
_, ok2 := cmd.bool_set[name]
return ok2
}
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)
}

14
cmd_check.odin
View File

@@ -61,13 +61,23 @@ cmd_check :: proc(cmd: ^Command) {
if len(files_in_path) == 0 {
fmt.wprintln(cmd.out, "No .env files found in the specified directory.", flush = false)
} else {
fmt.wprintln(cmd.out, "✓ All .env files in the directory are backed up.", flush = false)
fmt.wprintln(
cmd.out,
"✓ All .env files in the directory are backed up.",
flush = false,
)
}
} else {
fmt.wprintf(cmd.out, "Found %d .env file(s) that are not backed up:\n", len(not_backed), flush = false)
fmt.wprintf(
cmd.out,
"Found %d .env file(s) that are not backed up:\n",
len(not_backed),
flush = false,
)
for file in not_backed {
fmt.wprintf(cmd.out, " %s\n", file, flush = false)
}
fmt.wprintln(cmd.out, "\nRun 'envr sync' to back up these files.", flush = false)
}
}

27
cmd_deps.odin
View File

@@ -1,27 +0,0 @@
package main
import "core:fmt"
import "core:os"
import "core:terminal"
// TODO: Improve table rendering
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 terminal.is_terminal(os.stdout) {
render_table(cmd.out, headers, rows[:])
} else {
render_json_rows(cmd.out, headers, rows[:])
fmt.wprint(cmd.out, "\n", flush = false)
}
}

3
cmd_edit_config.odin
View File

@@ -12,8 +12,7 @@ cmd_edit_config :: proc(cmd: ^Command) {
config_path := cmd.config_path
_, stat_err := os.stat(config_path, context.allocator)
if stat_err != nil {
if !os.exists(config_path) {
fmt.wprintf(
cmd.err,
"Config file does not exist at %s. Run 'envr init' first.\n",

3
cmd_list.odin
View File

@@ -25,7 +25,6 @@ cmd_list :: proc(cmd: ^Command) {
if !list_ok {
return
}
defer delete(rows)
if terminal.is_terminal(os.stdout) {
headers := []string{"Directory", "Path"}
@@ -34,7 +33,7 @@ cmd_list :: proc(cmd: ^Command) {
for row in rows {
dir_str := strings.concatenate({row.Dir, "/"}, context.temp_allocator)
filename := filepath.base(row.Path)
row_slice := make([]string, 2)
row_slice := make([]string, 2, context.temp_allocator)
row_slice[0] = dir_str
row_slice[1] = filename
append(&table_rows, row_slice)

2
cmd_scan.odin
View File

@@ -12,7 +12,7 @@ cmd_scan :: proc(cmd: ^Command) {
}
defer db_close(&db)
search_dirs := search_paths(db.cfg)
search_dirs := search_paths(db.cfg, context.temp_allocator)
if len(search_dirs) == 0 {
fmt.wprintln(
cmd.err,

83
cmd_sync.odin
View File

@@ -24,63 +24,42 @@ cmd_sync :: proc(cmd: ^Command) {
if !list_ok {
return
}
defer delete(files)
// TODO: Set sane default size
results: [dynamic]SyncEntry
defer delete(results)
results := make([]SyncEntry, len(files), context.temp_allocator)
for &file in files {
old_path: string
old_path, _ = strings.clone(file.Path, context.temp_allocator)
result, err_msg := db_sync(&db, &file)
for &file, i in files {
result, err := db_sync(&db, &file)
status: string
is_dir_updated := .DirUpdated in result
switch {
case .Error in result:
if len(err_msg) > 0 {
status = err_msg
} else {
status = "error"
}
case .BackedUp in result:
status = "Backed Up"
case .Restored in result:
status = "Restored"
case .DirUpdated in result:
if err != .None {
status = sync_error_message(err)
} else if .BackedUp in result {
status = .DirUpdated in result ? "Moved & Backed Up" : "Backed Up"
} else if .Restored in result {
status = .DirUpdated in result ? "Moved & Restored" : "Restored"
} else if .DirUpdated in result {
status = "Moved"
case:
} else {
status = "OK"
}
if is_dir_updated {
if !db_delete(&db, old_path) {
return
}
// TODO: Handle errors
path_str, _ := strings.clone(file.Path, context.temp_allocator)
status_str, _ := strings.clone(status, context.temp_allocator)
results[i] = SyncEntry {
Path = path_str,
Status = status_str,
}
if db_update_required(result) {
if !db_insert(&db, file) {
return
}
}
path_str, _ := strings.clone(file.Path)
status_str, _ := strings.clone(status)
append(&results, SyncEntry{Path = path_str, Status = status_str})
}
if terminal.is_terminal(os.stdout) {
headers := []string{"File", "Status"}
table_rows := make([dynamic][]string, 0, len(results))
// TODO: Use [2]string instead of slice here
table_rows := make([dynamic][]string, 0, len(results), context.temp_allocator)
for res in results {
row_slice := make([]string, 2)
row_slice[0] = res.Path
row_slice[1] = res.Status
append(&table_rows, row_slice)
row_slice := [2]string{res.Path, res.Status}
append(&table_rows, row_slice[:])
}
render_table(cmd.out, headers, table_rows[:])
@@ -94,3 +73,23 @@ cmd_sync :: proc(cmd: ^Command) {
}
}
sync_error_message :: proc(e: SyncError) -> string {
switch e {
case .None:
return ""
case .DirMissing:
return "directory missing"
case .MultipleDirs:
return "multiple directories found"
case .GitRootFailed:
return "failed to find git roots"
case .WriteFailed:
return "failed to write file"
case .ReadFailed:
return "failed to read file"
case .DbFailed:
return "failed to update database"
}
return "unknown error"
}

240
config.odin
View File

@@ -25,25 +25,16 @@ Config :: struct {
config_path: string `json:"-"`,
}
default_config_path :: proc(home: string, allocator := context.allocator) -> string {
path, err := filepath.join([]string{home, ".envr", "config.json"}, allocator)
if err != nil {
panic("Ran out of memory when building config path")
}
return path
}
load_config :: proc(config_path: string) -> (Config, bool) {
data, read_err := os.read_entire_file_from_path(config_path, context.allocator)
load_config :: proc(config_path: string, allocator := context.allocator) -> (Config, bool) {
// TODO: Should we use context.allocator + defer delete()?
data, read_err := os.read_entire_file_from_path(config_path, context.temp_allocator)
if read_err != nil {
fmt.println("No config file found. Please run `envr init` to generate one.")
return Config{}, false
}
defer delete(data)
cfg: Config
// TODO: use json 5
err := json.unmarshal(data, &cfg)
err := json.unmarshal(data, &cfg, .JSON5, allocator)
if err != nil {
fmt.printf("Error parsing config: %v\n", err)
return Config{}, false
@@ -53,33 +44,101 @@ load_config :: proc(config_path: string) -> (Config, bool) {
return cfg, true
}
delete_config :: proc(cfg: ^Config) {
default_config_path :: proc(home: string, allocator := context.allocator) -> string {
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, allocator := context.allocator) {
for key in cfg.Keys {
delete(key.Private)
delete(key.Public)
delete(key.Private, allocator)
delete(key.Public, allocator)
}
delete(cfg.Keys)
delete(cfg.ScanConfig.Matcher)
delete(cfg.ScanConfig.Matcher, allocator)
for exclude in cfg.ScanConfig.Exclude {
delete(exclude)
delete(exclude, allocator)
}
delete(cfg.ScanConfig.Exclude)
for include in cfg.ScanConfig.Include {
delete(include)
delete(include, allocator)
}
delete(cfg.ScanConfig.Include)
}
envr_dir :: proc(config_path: string) -> string {
return filepath.dir(config_path)
save_config :: proc(cfg: Config, force: bool = false) -> bool {
config_dir := envr_dir(cfg.config_path)
if !os.exists(config_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 {
info, stat_err := os.stat(cfg.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
}
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
}
data_path :: proc(config_path: string) -> string {
path, _ := filepath.join([]string{envr_dir(config_path), "data.envr"})
return path
// 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) {
@@ -128,100 +187,49 @@ find_ssh_private_keys :: proc() -> (keys: [dynamic]string, ok: bool) {
return
}
// 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}
}
save_config :: proc(cfg: Config, force: bool = false) -> bool {
config_dir := envr_dir(cfg.config_path)
if !os.exists(config_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 {
info, stat_err := os.stat(cfg.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
}
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
}
search_paths :: proc(cfg: Config) -> (paths: [dynamic]string) {
// TODO: Is this okay?
// TODO: handle error
home, _ := os.user_home_dir(context.temp_allocator)
for include in cfg.ScanConfig.Include {
// TODO: Do we need to manually expand ~/ in odin?
expanded, _ := strings.replace(include, "~", home, 1)
if filepath.is_abs(expanded) {
append(&paths, expanded)
} else {
defer delete(expanded)
resolved, err := filepath.abs(expanded)
if err == nil {
append(&paths, resolved)
}
}
}
return
}
find_git_roots :: proc(cfg: Config) -> (roots: [dynamic]string, ok: bool) {
paths := search_paths(cfg)
find_git_roots :: proc(
cfg: Config,
allocator := context.temp_allocator,
) -> (
roots: [dynamic]string,
ok: bool,
) {
paths := search_paths(cfg, allocator)
// TODO: Pass allocator to findr
// findr.find_repos(paths[:], &roots, os.get_processor_core_count(), allocator)
findr.find_repos(paths[:], &roots, os.get_processor_core_count())
ok = true
return
}
search_paths :: proc(cfg: Config, allocator := context.allocator) -> [dynamic]string {
// TODO: handle error
home, _ := os.user_home_dir(context.temp_allocator)
paths, _ := new_clone(cfg.ScanConfig.Include, allocator)
for &include in paths {
// TODO: Do we need to manually expand ~/ in odin?
expanded, _ := strings.replace(include, "~", home, 1, allocator)
if filepath.is_abs(expanded) {
include = expanded
} else {
resolved, err := filepath.abs(expanded, allocator)
if err == nil {
include = resolved
}
}
}
return paths^
}
envr_dir :: proc(config_path: string) -> string {
return filepath.dir(config_path)
}
// User is responsible for freeing the path
data_path :: proc(config_path: string, allocator := context.allocator) -> string {
path, _ := filepath.join([]string{envr_dir(config_path), "data.envr"}, allocator)
return path
}

8
config_test.odin
View File

@@ -187,14 +187,10 @@ test_search_paths_expands_tilde :: proc(t: ^testing.T) {
cfg := Config {
ScanConfig = ScanConfig{Include = make([dynamic]string, 0, 1)},
}
defer delete(cfg.ScanConfig.Include)
append(&cfg.ScanConfig.Include, "~")
defer delete(cfg.ScanConfig.Include)
paths := search_paths(cfg)
defer delete(paths)
for path in paths {
defer delete(path)
}
paths := search_paths(cfg, context.temp_allocator)
testing.expect(t, len(paths) == 1, "should have 1 path")
if len(paths) > 0 {

123
crypto.odin
View File

@@ -2,6 +2,7 @@ package main
import "core:fmt"
import "core:mem"
import "core:os"
MAGIC :: "ENVR"
MAGIC_BYTES := [4]u8{u8('E'), u8('N'), u8('V'), u8('R')}
@@ -20,80 +21,19 @@ RecipientEntry :: struct {
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 {
Public: [CRYPTO_BOX_PUBLICKEY_BYTES]u8,
Private: [CRYPTO_BOX_SECRETKEY_BYTES]u8,
}
ssh_to_x25519 :: proc(keys: []SshKeyPair) -> (pairs: []X25519Keypair, ok: bool) {
if len(keys) == 0 {
return
@(init)
init_sodium :: proc "contextless" () {
if sodium_init() < 0 {
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) {
if !ensure_sodium() {
return
}
x25519_pairs, pairs_ok := ssh_to_x25519(keys)
if !pairs_ok {
return
@@ -193,10 +133,6 @@ encrypt :: proc(plaintext: []u8, keys: []SshKeyPair) -> (ciphertext: []u8, ok: b
}
decrypt :: proc(ciphertext: []u8, keys: []SshKeyPair) -> (plaintext: []u8, ok: bool) {
if !ensure_sodium() {
return
}
if len(ciphertext) < HEADER_SIZE {
fmt.println("Error: ciphertext too short (header)")
return
@@ -336,3 +272,52 @@ decrypt :: proc(ciphertext: []u8, keys: []SshKeyPair) -> (plaintext: []u8, ok: b
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
}

602
db.odin
View File

@@ -2,28 +2,32 @@ package main
import "core:crypto/hash"
import "core:encoding/hex"
import "core:encoding/ini"
import "core:encoding/json"
import "core:fmt"
import "core:mem"
import "core:os"
import "core:path/filepath"
import "core:strings"
import "core:time"
import "sqlite"
SyncFlagEnum :: enum {
Noop,
DirUpdated,
Restored,
BackedUp,
Error,
}
SyncFlag :: bit_set[SyncFlagEnum]
SyncDirection :: enum {
TrustDatabase,
TrustFilesystem,
SyncError :: enum {
None,
DirMissing,
MultipleDirs,
GitRootFailed,
WriteFailed,
ReadFailed,
DbFailed,
}
Db :: struct {
@@ -31,6 +35,7 @@ Db :: struct {
db: ^rawptr,
cfg: Config,
changed: bool,
arena: mem.Dynamic_Arena,
}
EnvFile :: struct {
@@ -41,6 +46,7 @@ EnvFile :: struct {
contents: string,
}
@(deprecated = "call db_close to clean up EnvFiles")
delete_envfile :: proc(f: ^EnvFile) {
delete(f.Path)
for &remote in f.Remotes {
@@ -51,29 +57,33 @@ delete_envfile :: proc(f: ^EnvFile) {
delete(f.contents)
}
make_temp_path :: proc() -> string {
ts := time.time_to_unix(time.now())
b: strings.Builder
strings.builder_init(&b)
defer strings.builder_destroy(&b)
fmt.sbprintf(&b, "/tmp/envr-%d-%d.db", os.get_pid(), ts)
return strings.to_string(b)
}
db_open :: proc(cfg_path: string) -> (database: Db, ok: bool) {
database = db_init() or_return
database.cfg = load_config(cfg_path, db_allocator(&database)) or_return
db_open :: proc(cfg_path: string) -> (Db, bool) {
cfg, ok := load_config(cfg_path)
if !ok {
return Db{}, false
// TODO: Use different allocators?
data_path := data_path(database.cfg.config_path, context.temp_allocator)
if os.exists(data_path) {
if ok = db_restore_from_encrypted(&database, data_path); !ok {
sqlite.db_close(database.db)
return database, false
}
} else {
// DB was created
database.changed = true
}
data_path := data_path(cfg.config_path)
_, stat_err := os.stat(data_path, context.allocator)
return database, true
}
// Creates a database an allocator and fresh, empty table, with zero encryption.
// In production, you most likely want to use `db_open`.
db_init :: proc() -> (database: Db, ok: bool) {
db: ^rawptr
rc := sqlite.db_open(":memory:", &db)
if rc != sqlite.OK {
fmt.printf("Error opening in-memory database: %s\n", sqlite.db_errmsg(db))
return Db{}, false
return
}
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)"
@@ -81,21 +91,69 @@ db_open :: proc(cfg_path: string) -> (Db, bool) {
if rc != sqlite.OK {
fmt.printf("Error creating table: %s\n", sqlite.db_errmsg(db))
sqlite.db_close(db)
return Db{}, false
return
}
database.db = db
mem.dynamic_arena_init(&database.arena)
return database, true
}
db_allocator :: proc(db: ^Db) -> mem.Allocator {
return mem.dynamic_arena_allocator(&db.arena)
}
db_restore_from_encrypted :: proc(db: ^Db, data_path: string) -> bool {
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
}
if stat_err == nil {
if !db_restore_from_encrypted(db, cfg) {
sqlite.db_close(db)
return Db{}, false
}
// TODO: Use context.temp_allocator
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 Db{db = db, cfg = cfg, changed = stat_err != nil}, true
return true
}
db_close :: proc(d: ^Db) {
defer sqlite.db_close(d.db)
allocator := db_allocator(d)
defer {
sqlite.db_close(d.db)
delete_config(&d.cfg, allocator)
mem.dynamic_arena_destroy(&d.arena)
}
if d.changed {
rc := sqlite.db_exec(d.db, "VACUUM", nil, nil, nil)
@@ -113,13 +171,14 @@ db_close :: proc(d: ^Db) {
defer sqlite.free(data)
sqlite_data := data[:sz]
// TODO: PAss allocator chain
encrypted, enc_ok := encrypt(sqlite_data, d.cfg.Keys[:])
if !enc_ok {
fmt.println("Error: encryption failed")
return
}
data_path := data_path(d.cfg.config_path)
data_path := data_path(d.cfg.config_path, allocator)
envr_d := envr_dir(d.cfg.config_path)
os.mkdir_all(envr_d)
@@ -134,14 +193,8 @@ db_close :: proc(d: ^Db) {
}
}
// Caller is responsible for calling:
// ```odin
// delete(results)
// for &result in results {
// delete(&result)
// }
// ```
db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]EnvFile, ok: bool) {
// Results will be freed when `db_close` is called.
db_list :: proc(d: ^Db) -> ([]EnvFile, bool) {
stmt: ^rawptr
rc := sqlite.prepare_v2(
d.db,
@@ -152,10 +205,13 @@ db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]En
)
if rc != sqlite.OK {
fmt.printf("Error preparing query: %s\n", sqlite.db_errmsg(d.db))
return
return []EnvFile{}, false
}
defer sqlite.finalize(stmt)
allocator := db_allocator(d)
results := make([dynamic]EnvFile, 0, 10, allocator)
for {
rc = sqlite.step(stmt)
if rc == sqlite.DONE {
@@ -163,7 +219,7 @@ db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]En
}
if rc != sqlite.ROW {
fmt.printf("Error stepping query: %s\n", sqlite.db_errmsg(d.db))
return
#no_bounds_check return results[:], false
}
remotes_json := string(sqlite.column_text(stmt, 1))
@@ -185,156 +241,16 @@ db_list :: proc(d: ^Db, allocator := context.allocator) -> (results: [dynamic]En
)
}
ok = true
return
}
db_restore_from_encrypted :: proc(db: ^rawptr, cfg: Config) -> bool {
encrypted_data, read_err := os.read_entire_file_from_path(
data_path(cfg.config_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, 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,
"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))
return false
}
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)
defer strings.builder_destroy(&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)
defer delete(data)
os.remove(tmp_path)
if read_err != nil {
return remotes
}
lines := strings.split(string(data), "\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
}
dir := filepath.dir(abs_path)
remotes := get_git_remotes(dir)
data, read_err := os.read_entire_file_from_path(abs_path, context.allocator)
defer delete(data)
if read_err != nil {
fmt.printf("Error reading file %s: %v\n", abs_path, read_err)
return EnvFile{}, false
}
digest := hash.hash_bytes(hash.Algorithm.SHA256, data, context.temp_allocator)
// TODO: Handle error
hex_bytes, _ := hex.encode(digest)
return EnvFile {
Path = abs_path,
Dir = dir,
Remotes = remotes,
Sha256 = string(hex_bytes),
contents = string(data),
},
true
#no_bounds_check return results[:], true
}
// TODO: Should we use context.temp_allocator for proc scoped lifetimes?
db_insert :: proc(d: ^Db, file: EnvFile) -> bool {
remotes_json, marshal_err := json.marshal(file.Remotes)
remotes_json, marshal_err := json.marshal(file.Remotes, allocator = context.temp_allocator)
if marshal_err != nil {
fmt.printf("Error marshaling remotes: %v\n", marshal_err)
return false
}
defer delete(remotes_json)
sql: cstring =
"INSERT OR REPLACE INTO " +
@@ -390,7 +306,8 @@ db_insert :: proc(d: ^Db, file: EnvFile) -> bool {
return true
}
db_fetch :: proc(d: ^Db, path: string, allocator := context.allocator) -> (EnvFile, bool) {
// Result will be freed when `db_close` is called.
db_fetch :: proc(d: ^Db, path: string) -> (EnvFile, bool) {
sql: cstring = "SELECT path, remotes, sha256, contents FROM envr_env_files WHERE path = ?"
stmt: ^rawptr
rc := sqlite.prepare_v2(d.db, sql, -1, &stmt, nil)
@@ -400,6 +317,8 @@ db_fetch :: proc(d: ^Db, path: string, allocator := context.allocator) -> (EnvFi
}
defer sqlite.finalize(stmt)
allocator := db_allocator(d)
cpath := to_cstring(path, allocator)
defer delete(cpath, allocator)
rc = sqlite.bind_text(stmt, 1, cpath, -1, nil)
@@ -423,7 +342,7 @@ db_fetch :: proc(d: ^Db, path: string, allocator := context.allocator) -> (EnvFi
json.unmarshal_string(remotes_json, &remotes, allocator = allocator)
}
file_path := clone_cstring(sqlite.column_text(stmt, 0))
file_path := clone_cstring(sqlite.column_text(stmt, 0), allocator)
return EnvFile {
Path = file_path,
@@ -467,6 +386,175 @@ db_delete :: proc(d: ^Db, path: string) -> bool {
return true
}
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
}
dir := filepath.dir(abs_path)
// TODO: Should we use the db allocator here?
remotes := get_git_remotes(dir, context.allocator)
data, read_err := os.read_entire_file_from_path(abs_path, context.allocator)
defer delete(data)
if read_err != nil {
fmt.printf("Error reading file %s: %v\n", abs_path, read_err)
return EnvFile{}, false
}
digest := hash.hash_bytes(hash.Algorithm.SHA256, data, context.temp_allocator)
// TODO: Handle error
hex_bytes, _ := hex.encode(digest)
return EnvFile {
Path = abs_path,
Dir = dir,
Remotes = remotes,
Sha256 = string(hex_bytes),
contents = string(data),
},
true
}
// Reconciles `f` with the filesystem and persists changes to the database.
db_sync :: proc(d: ^Db, f: ^EnvFile) -> (SyncFlag, SyncError) {
allocator := db_allocator(d)
result: SyncFlag = {}
old_path := f.Path
if !os.exists(f.Dir) {
moved, err := try_move_dir(d, f, allocator)
if !moved {
return {}, err
}
result += {.DirUpdated}
}
if !os.exists(f.Path) {
write_err := os.write_entire_file(f.Path, f.contents)
if write_err != nil {
fmt.eprintf("db_sync: failed to write %s: %v\n", f.Path, write_err)
return result, .WriteFailed
}
if !db_persist(d, f, old_path) {
return result, .DbFailed
}
return result + {.Restored}, .None
}
data, read_err := os.read_entire_file_from_path(f.Path, allocator)
if read_err != nil {
fmt.eprintf("db_sync: failed to read %s: %v\n", f.Path, read_err)
return result, .ReadFailed
}
digest := hash.hash_bytes(hash.Algorithm.SHA256, data, context.temp_allocator)
hex_bytes, hex_err := hex.encode(digest, allocator)
if hex_err != nil {
fmt.eprintf("db_sync: failed to encode hash for %s: %v\n", f.Path, hex_err)
return result, .ReadFailed
}
current_sha := string(hex_bytes)
if current_sha == f.Sha256 {
if !db_persist(d, f, old_path) {
return result, .DbFailed
}
return result, .None
}
f.contents = string(data)
f.Sha256 = current_sha
if !db_persist(d, f, old_path) {
return result, .DbFailed
}
return result + {.BackedUp}, .None
}
db_persist :: proc(d: ^Db, f: ^EnvFile, old_path: string) -> bool {
if f.Path != old_path {
if !db_delete(d, old_path) {
return false
}
}
return db_insert(d, f^)
}
try_move_dir :: proc(d: ^Db, f: ^EnvFile, allocator: mem.Allocator) -> (bool, SyncError) {
// TODO: Should thread the allocator through, right?
roots, ok := find_git_roots(d.cfg, allocator)
if !ok {
return false, .GitRootFailed
}
match_count := 0
matched_dir: string
for root in roots {
remotes := get_git_remotes(root, context.temp_allocator)
if shares_remote(f, remotes[:]) {
match_count += 1
matched_dir = root
}
}
switch match_count {
case 0:
return false, .DirMissing
case 1:
f.Dir = matched_dir
base := filepath.base(f.Path)
new_path, _ := filepath.join({f.Dir, base}, allocator)
f.Path = new_path
f.Remotes = get_git_remotes(f.Dir, allocator)
return true, .None
case:
return false, .MultipleDirs
}
}
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, allocator: mem.Allocator) -> [dynamic]string {
config_path, _ := filepath.join({dir, ".git", "config"}, context.temp_allocator)
// TODO: Handle error
m, _, ok := ini.load_map_from_path(config_path, context.temp_allocator)
if !ok {
return nil
}
remotes := make([dynamic]string, 0, 1, allocator)
for section_name, section in m {
if strings.has_prefix(section_name, "remote ") {
if url, ok := section["url"]; ok {
found := false
for r in remotes {
if r == url {found = true; break}
}
if !found {
cloned, _ := strings.clone(url, allocator)
append(&remotes, cloned)
}
}
}
}
return remotes
}
to_cstring :: proc {
string_to_cstring,
strings.to_cstring,
@@ -481,6 +569,7 @@ string_to_cstring :: proc(s: string, allocator := context.allocator) -> cstring
return cs
}
// Unless an explicit allocator is passed, 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 {
@@ -492,146 +581,3 @@ clone_cstring :: proc(c: cstring, allocator := context.allocator) -> string {
return str
}
db_update_required :: proc(status: SyncFlag) -> bool {
return .BackedUp in status || .DirUpdated in status
}
shares_remote :: proc(f: ^EnvFile, remotes: []string) -> bool {
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 .Git not_in feats {
fmt.println("Error: git is 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
}
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) {
result: SyncFlag = {}
_, stat_err := os.stat(f.Dir, context.allocator)
if stat_err != nil {
moved_dirs: [dynamic]string
if d != nil {
dirs, dirs_ok := find_moved_dirs(d, f)
if !dirs_ok {
return {.Error}, "failed to find moved dirs"
}
moved_dirs = dirs
}
if len(moved_dirs) == 0 {
return {.Error}, "directory missing"
} else if len(moved_dirs) == 1 {
update_dir(f, moved_dirs[0])
result = {.DirUpdated}
} else {
return {.Error}, "multiple directories found"
}
}
_, file_stat_err := os.stat(f.Path, context.allocator)
if file_stat_err != nil {
write_err := os.write_entire_file(f.Path, f.contents)
if write_err != nil {
msg, _ := strings.concatenate({"failed to write file: ", fmt.tprintf("%v", write_err)})
return {.Error}, msg
}
return result + {.Restored}, ""
}
data, read_err := os.read_entire_file_from_path(f.Path, context.allocator)
if read_err != nil {
msg, _ := strings.concatenate(
{"failed to read file for SHA comparison: ", fmt.tprintf("%v", read_err)},
)
return {.Error}, msg
}
digest := hash.hash_bytes(hash.Algorithm.SHA256, data)
// TODO: Handle error
hex_bytes, _ := hex.encode(digest)
current_sha := string(hex_bytes)
if current_sha == f.Sha256 {
return result, ""
}
switch dir {
case .TrustDatabase:
write_err := os.write_entire_file(f.Path, f.contents)
if write_err != nil {
msg, _ := strings.concatenate({"failed to write file: ", fmt.tprintf("%v", write_err)})
return {.Error}, msg
}
return result + {.Restored}, ""
case .TrustFilesystem:
if !env_file_backup(f) {
return {.Error}, "failed to backup file"
}
return result + {.BackedUp}, ""
}
return result, ""
}
// 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
}

406
db_test.odin
View File

@@ -1,5 +1,7 @@
package main
import "core:crypto/hash"
import "core:encoding/hex"
import "core:fmt"
import "core:os"
import "core:path/filepath"
@@ -8,30 +10,13 @@ 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)),
Remotes = make([dynamic]string, 0, len(remotes), context.temp_allocator),
}
for r in remotes {
append(&f.Remotes, r)
@@ -41,10 +26,10 @@ make_test_env_file :: proc(path, sha, contents: string, remotes: []string = {})
@(test)
test_db_insert_and_fetch :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
path := "/project/.env"
sha := "abc123"
@@ -56,7 +41,7 @@ test_db_insert_and_fetch :: proc(t: ^testing.T) {
testing.expect(t, db_insert(&d, f), "insert should succeed")
fetched, fetch_ok := db_fetch(&d, "/project/.env")
defer delete_envfile(&fetched)
// defer delete_envfile(&fetched)
testing.expect(t, fetch_ok, "fetch should succeed")
if !fetch_ok do return
@@ -69,10 +54,10 @@ test_db_insert_and_fetch :: proc(t: ^testing.T) {
@(test)
test_db_fetch_missing :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
_, fetch_ok := db_fetch(&d, "/nonexistent/.env")
testing.expect(t, !fetch_ok, "fetch missing should return false")
@@ -80,10 +65,9 @@ test_db_fetch_missing :: proc(t: ^testing.T) {
@(test)
test_db_insert_or_replace :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
defer db_close(&d)
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)
@@ -95,18 +79,13 @@ test_db_insert_or_replace :: proc(t: ^testing.T) {
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)
// defer delete_envfile(&fetched)
testing.expect_value(t, fetched.contents, "KEY=new")
testing.expect_value(t, fetched.Sha256, "sha2")
@@ -114,10 +93,10 @@ test_db_insert_or_replace :: proc(t: ^testing.T) {
@(test)
test_db_delete_existing :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
@@ -131,20 +110,19 @@ test_db_delete_existing :: proc(t: ^testing.T) {
@(test)
test_db_delete_missing :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
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()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
f1 := make_test_env_file("/proj1/.env", "sha1", "A=1", []string{"git@github.com:a/repo.git"})
defer delete(f1.Remotes)
@@ -158,36 +136,27 @@ test_db_list_multiple :: proc(t: ^testing.T) {
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()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
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()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
testing.expect(t, !d.changed, "changed should start false")
@@ -200,10 +169,10 @@ test_db_insert_sets_changed :: proc(t: ^testing.T) {
@(test)
test_db_delete_sets_changed :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
@@ -216,10 +185,10 @@ test_db_delete_sets_changed :: proc(t: ^testing.T) {
@(test)
test_db_serialize :: proc(t: ^testing.T) {
d, ok := make_test_db()
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
if !ok do return
defer sqlite.db_close(d.db)
defer db_close(&d)
f := make_test_env_file("/project/.env", "sha", "KEY=val")
defer delete(f.Remotes)
@@ -234,37 +203,6 @@ test_db_serialize :: proc(t: ^testing.T) {
testing.expect(t, sz > 0, "serialized size should be > 0")
}
@(test)
test_db_update_required_noop :: proc(t: ^testing.T) {
testing.expect(t, !db_update_required({}), "Noop should not require update")
}
@(test)
test_db_update_required_backed_up :: proc(t: ^testing.T) {
testing.expect(t, db_update_required({.BackedUp}), "BackedUp should require update")
}
@(test)
test_db_update_required_dir_updated :: proc(t: ^testing.T) {
testing.expect(t, db_update_required({.DirUpdated}), "DirUpdated should require update")
}
@(test)
test_db_update_required_restored :: proc(t: ^testing.T) {
testing.expect(t, !db_update_required({.Restored}), "Restored alone should not require update")
}
@(test)
test_db_update_required_error :: proc(t: ^testing.T) {
testing.expect(t, !db_update_required({.Error}), "Error alone should not require update")
}
@(test)
test_db_update_required_combined :: proc(t: ^testing.T) {
combined := SyncFlag{.DirUpdated, .Restored}
testing.expect(t, db_update_required(combined), "DirUpdated|Restored should require update")
}
@(test)
test_shares_remote_overlap :: proc(t: ^testing.T) {
f := EnvFile {
@@ -319,11 +257,81 @@ test_shares_remote_both_empty :: proc(t: ^testing.T) {
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_make_temp_path_format :: proc(t: ^testing.T) {
p := make_temp_path()
testing.expect(t, strings.has_suffix(p, ".db"), "should end with .db")
testing.expect(t, strings.contains(p, fmt.tprintf("%d", os.get_pid())), "should contain PID")
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, context.temp_allocator)
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, context.temp_allocator)
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, context.temp_allocator)
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, context.temp_allocator)
testing.expect(t, len(remotes) == 0, "should return empty when no remote sections")
}
@(test)
@@ -356,45 +364,205 @@ test_new_env_file_missing :: proc(t: ^testing.T) {
}
@(test)
test_env_file_backup :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-backup-%d", os.get_pid())
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)
testing.expect(t, save_config(cfg, force = true), "save should succeed")
delete_config(&cfg)
}
db, ok := db_open(cfg_path)
testing.expect(t, ok, "db should open")
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)
testing.expect(t, save_config(cfg, force = true), "save should succeed")
delete_config(&cfg)
}
// 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)
}
@(test)
test_db_sync_noop :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-sync-noop-%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")
content := "KEY=value\n"
write_err := os.write_entire_file(env_path, transmute([]u8)content)
testing.expect(t, write_err == nil, "should write .env file")
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)
digest := hash.hash_bytes(
hash.Algorithm.SHA256,
transmute([]u8)content,
context.temp_allocator,
)
hex_bytes, _ := hex.encode(digest, context.temp_allocator)
sha := string(hex_bytes)
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
defer db_close(&d)
f := make_test_env_file(env_path, sha, content)
f.Dir = base
db_insert(&d, f)
result, sync_err := db_sync(&d, &f)
testing.expect(t, sync_err == .None, "sync should not error")
testing.expect(t, result == {}, "should be noop")
}
@(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_db_sync_backed_up :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-sync-backup-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
env_path := fmt.tprintf("%s/.env", base)
changed_content := "KEY=changed\n"
write_err := os.write_entire_file(env_path, transmute([]u8)changed_content)
testing.expect(t, write_err == nil, "should write .env file")
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
defer db_close(&d)
f := make_test_env_file(env_path, "old_sha", "KEY=original")
f.Dir = base
db_insert(&d, f)
result, sync_err := db_sync(&d, &f)
testing.expect(t, sync_err == .None, "sync should not error")
testing.expect(t, .BackedUp in result, "should be backed up")
}
@(test)
test_update_dir :: proc(t: ^testing.T) {
f := EnvFile {
Path = "/old/project/.env",
Dir = "/old/project",
Remotes = make([dynamic]string, 0),
test_db_sync_restored :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-sync-restore-%d", os.get_pid())
os.mkdir_all(base)
defer os.remove_all(base)
env_path := fmt.tprintf("%s/.env", base)
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
defer db_close(&d)
f := make_test_env_file(env_path, "some_sha", "SECRET=value")
f.Dir = base
defer delete(f.Remotes)
db_insert(&d, f)
result, err := db_sync(&d, &f)
testing.expect(t, err == .None, "sync should not error")
testing.expect(t, .Restored in result, "should be restored")
data, read_err := os.read_entire_file_from_path(env_path, context.temp_allocator)
testing.expect(t, read_err == nil, "file should exist after restore")
if read_err == nil {
testing.expect_value(t, string(data), "SECRET=value")
}
}
@(test)
test_db_sync_dir_missing :: proc(t: ^testing.T) {
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
defer db_close(&d)
f := make_test_env_file("/nonexistent/path/.env", "sha", "KEY=val")
db_insert(&d, f)
result, err := db_sync(&d, &f)
testing.expect(t, err == .DirMissing, "should return DirMissing error")
}
@(test)
test_db_sync_moved :: proc(t: ^testing.T) {
base := fmt.tprintf("/tmp/envr-test-sync-moved-%d", os.get_pid())
search_root := fmt.tprintf("%s/search", base)
repo_dir := fmt.tprintf("%s/myproject", search_root)
git_dir := fmt.tprintf("%s/.git", repo_dir)
defer os.remove_all(base)
os.mkdir_all(git_dir)
config_content := "[remote \"origin\"]\n\turl = git@github.com:user/repo.git\n"
config_path := fmt.tprintf("%s/config", git_dir)
write_err := os.write_entire_file(config_path, transmute([]u8)config_content)
testing.expect(t, write_err == nil, "should write .git/config")
d, ok := db_init()
testing.expect(t, ok, "failed to create test db")
defer db_close(&d)
d.cfg.ScanConfig.Include = make([dynamic]string, 0, 1, context.temp_allocator)
append(&d.cfg.ScanConfig.Include, search_root)
f := make_test_env_file(
"/old/nonexistent/path/.env",
"some_sha",
"SECRET=value",
[]string{"git@github.com:user/repo.git"},
)
testing.expect(t, db_insert(&d, f), "insert should succeed")
result, err := db_sync(&d, &f)
testing.expect(t, err == .None, "sync should not error")
if err != .None do return
testing.expect(t, .DirUpdated in result, "should have DirUpdated flag")
testing.expect(t, .Restored in result, "should have Restored flag")
expected_path := fmt.tprintf("%s/.env", repo_dir)
testing.expect_value(t, f.Path, expected_path)
testing.expect_value(t, f.Dir, repo_dir)
_, old_exists := db_fetch(&d, "/old/nonexistent/path/.env")
testing.expect(t, !old_exists, "old path should be deleted from db")
new_fetched, new_ok := db_fetch(&d, expected_path)
testing.expect(t, new_ok, "new path should exist in db")
if new_ok {
testing.expect_value(t, new_fetched.contents, "SECRET=value")
}
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")
}

1
docs/cli/envr.md
View File

@@ -45,7 +45,6 @@ at before, restore your backup with:
* [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 deps](envr_deps.md) - Check for missing binaries
* [envr edit-config](envr_edit-config.md) - Edit your config with your default editor
* [envr init](envr_init.md) - Set up envr
* [envr list](envr_list.md) - View your tracked files

24
docs/cli/envr_deps.md
View File

@@ -1,24 +0,0 @@
## 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.

47
features.odin
View File

@@ -1,47 +0,0 @@
package main
import "base:runtime"
import "core:mem"
import "core:os"
import "core:strings"
Feature :: enum {
Git,
}
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}
}
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
View File

@@ -1,34 +0,0 @@
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")
}

29
findr/walker.odin
View File

@@ -1,5 +1,6 @@
package findr
import "core:bytes"
import "core:fmt"
import "core:os"
import "core:strings"
@@ -54,19 +55,26 @@ Collector_Data :: struct {
collect_worker :: proc(t: ^thread.Thread) {
data := cast(^Collector_Data)t.data
for {
batch, ok := chan.recv(data.ch)
if !ok do break
batch := chan.recv(data.ch) or_break
defer delete(batch)
start := 0
for i in 0 ..< len(batch) {
if batch[i] == '\n' {
if i > start {
s, _ := strings.clone(string(batch[start:i]))
append(data.results, s)
}
start = i + 1
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
}
delete(batch)
}
}
@@ -447,3 +455,4 @@ join_path :: proc(parent, child: string) -> string {
copy(buf[pos:], child)
return string(buf)
}

23
main.odin
View File

@@ -1,14 +1,31 @@
package main
import "core:bufio"
import "core:fmt"
import "core:mem"
import "core:os"
main :: proc() {
when ODIN_DEBUG {
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 bufio.writer_flush(cmd.out_buf)
defer delete_command(&cmd) // delete flushes automatically
if !ok {
return
}
@@ -18,8 +35,6 @@ main :: proc() {
cmd_init(&cmd)
case "version":
cmd_version(&cmd)
case "deps":
cmd_deps(&cmd)
case "list":
cmd_list(&cmd)
case "backup", "add":

36
ssh.odin
View File

@@ -12,24 +12,6 @@ Ed25519Keypair :: struct {
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) {
data, err := os.read_entire_file_from_path(pub_path, context.temp_allocator)
if err != nil {
@@ -253,3 +235,21 @@ is_encrypted_key :: proc(priv_path: string) -> bool {
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
}

13
table.odin
View File

@@ -6,7 +6,7 @@ import "core:io"
import "core:strings"
render_table :: proc(w: io.Writer, headers: []string, rows: [][]string) {
col_widths := make([dynamic]int, 0, len(headers))
col_widths := make([dynamic]int, 0, len(headers), context.temp_allocator)
for i in 0 ..< len(headers) {
append(&col_widths, strings.rune_count(headers[i]))
}
@@ -20,11 +20,14 @@ render_table :: proc(w: io.Writer, headers: []string, rows: [][]string) {
}
b: strings.Builder
strings.builder_init(&b)
defer strings.builder_destroy(&b)
defer delete(col_widths)
strings.builder_init(&b, context.temp_allocator)
hline :: proc(w: io.Writer, b: ^strings.Builder, left, mid, right: string, widths: [dynamic]int) {
hline :: proc(
w: io.Writer,
b: ^strings.Builder,
left, mid, right: string,
widths: [dynamic]int,
) {
strings.write_string(b, left)
for i in 0 ..< len(widths) {
for _ in 0 ..< widths[i] + 2 {