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envr/db_integration_test.odin

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package main
import "core:fmt"
import "core:os"
import "core:path/filepath"
import "core:strings"
import "core:testing"
import "sqlite"
FIXTURES :: "fixtures"
fixture_key :: proc() -> SshKeyPair {
priv, _ := strings.concatenate(
[]string{FIXTURES, "/keys/insecure-test-key"},
context.temp_allocator,
)
pub, _ := strings.concatenate(
[]string{FIXTURES, "/keys/insecure-test-key.pub"},
context.temp_allocator,
)
return SshKeyPair{Private = priv, Public = pub}
}
fixture_db_path :: proc() -> string {
p, _ := strings.concatenate([]string{FIXTURES, "/single-file.db"}, context.temp_allocator)
return p
}
fixture_config :: proc() -> Config {
cfg := Config {
Keys = make([dynamic]SshKeyPair, 0, 1),
}
append(&cfg.Keys, fixture_key())
return cfg
}
@(test)
test_encrypt_decrypt_sqlite_roundtrip :: proc(t: ^testing.T) {
cfg := fixture_config()
defer {
delete(cfg.Keys)
}
db_path := fixture_db_path()
sqlite_data, read_err := os.read_entire_file_from_path(db_path, context.allocator)
testing.expectf(t, read_err == nil, "failed to read fixture db: %v", read_err)
if read_err != nil {
return
}
defer delete(sqlite_data)
encrypted, enc_ok := encrypt(sqlite_data, cfg.Keys[:])
testing.expect(t, enc_ok, "encryption should succeed")
if !enc_ok {
return
}
defer delete(encrypted)
testing.expect(t, len(encrypted) >= HEADER_SIZE, "ciphertext should have header")
testing.expect(t, encrypted[0] == u8('E'), "magic byte 0")
testing.expect(t, encrypted[1] == u8('N'), "magic byte 1")
testing.expect(t, encrypted[2] == u8('V'), "magic byte 2")
testing.expect(t, encrypted[3] == u8('R'), "magic byte 3")
plaintext, dec_ok := decrypt(encrypted, cfg.Keys[:])
testing.expect(t, dec_ok, "decryption should succeed")
if !dec_ok {
return
}
defer delete(plaintext)
testing.expectf(
t,
len(plaintext) == len(sqlite_data),
"round-trip size mismatch: expected %d, got %d",
len(sqlite_data),
len(plaintext),
)
match := true
for i in 0 ..< len(sqlite_data) {
if plaintext[i] != sqlite_data[i] {
match = false
break
}
}
testing.expect(t, match, "decrypted data should match original")
}
@(test)
test_encrypt_write_read_decrypt :: proc(t: ^testing.T) {
cfg := fixture_config()
defer {
delete(cfg.Keys)
}
db_path := fixture_db_path()
sqlite_data, read_err := os.read_entire_file_from_path(db_path, context.allocator)
testing.expectf(t, read_err == nil, "failed to read fixture db: %v", read_err)
if read_err != nil {
return
}
defer delete(sqlite_data)
encrypted, enc_ok := encrypt(sqlite_data, cfg.Keys[:])
testing.expect(t, enc_ok, "encryption should succeed")
if !enc_ok {
return
}
defer delete(encrypted)
tmp_enc_path := fmt.tprintf("/tmp/envr-test-ewrd-%d.envr", os.get_pid())
write_err := os.write_entire_file(tmp_enc_path, encrypted)
testing.expectf(t, write_err == nil, "failed to write encrypted file: %v", write_err)
if write_err != nil {
return
}
defer os.remove(tmp_enc_path)
read_back, rb_err := os.read_entire_file_from_path(tmp_enc_path, context.allocator)
testing.expectf(t, rb_err == nil, "failed to read back encrypted file: %v", rb_err)
if rb_err != nil {
return
}
defer delete(read_back)
plaintext, dec_ok := decrypt(read_back, cfg.Keys[:])
testing.expect(t, dec_ok, "decryption after write/read should succeed")
if !dec_ok {
return
}
defer delete(plaintext)
testing.expect(t, len(plaintext) == len(sqlite_data), "size mismatch after file round-trip")
}
@(test)
test_decrypt_then_attach_sqlite :: proc(t: ^testing.T) {
cfg := fixture_config()
defer {
delete(cfg.Keys)
}
db_path := fixture_db_path()
sqlite_data, read_err := os.read_entire_file_from_path(db_path, context.allocator)
testing.expectf(t, read_err == nil, "failed to read fixture db: %v", read_err)
if read_err != nil {
return
}
defer delete(sqlite_data)
encrypted, enc_ok := encrypt(sqlite_data, cfg.Keys[:])
testing.expect(t, enc_ok, "encryption should succeed")
if !enc_ok {
return
}
defer delete(encrypted)
plaintext, dec_ok := decrypt(encrypted, cfg.Keys[:])
testing.expect(t, dec_ok, "decryption should succeed")
if !dec_ok {
return
}
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
rc := sqlite.db_open(":memory:", &mem_db)
testing.expectf(t, rc == sqlite.OK, "failed to open in-memory db")
if rc != sqlite.OK {
return
}
defer sqlite.db_close(mem_db)
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(mem_db, create_sql, nil, nil, nil)
testing.expect(t, rc == sqlite.OK, "failed to create table")
attach_ok := db_attach_and_copy(mem_db, tmp_db_path)
testing.expect(t, attach_ok, "failed to attach and copy")
sql: cstring = "SELECT path FROM envr_env_files"
stmt: ^rawptr
rc = sqlite.prepare_v2(mem_db, sql, -1, &stmt, nil)
testing.expect(t, rc == sqlite.OK, "prepare failed")
if rc != sqlite.OK {
return
}
defer sqlite.finalize(stmt)
rc = sqlite.step(stmt)
testing.expect(t, rc == sqlite.ROW, "expected at least one row")
if rc == sqlite.ROW {
path := string(sqlite.column_text(stmt, 0))
testing.expect(t, len(path) > 0, "path should not be empty")
}
}
@(test)
test_full_db_cycle :: proc(t: ^testing.T) {
cfg := fixture_config()
defer delete(cfg.Keys)
db_path := fixture_db_path()
original_data, read_err := os.read_entire_file_from_path(db_path, context.allocator)
testing.expectf(t, read_err == nil, "failed to read fixture db: %v", read_err)
if read_err != nil {
return
}
defer delete(original_data)
encrypted, enc_ok := encrypt(original_data, cfg.Keys[:])
testing.expect(t, enc_ok, "first encryption should succeed")
if !enc_ok {
return
}
defer delete(encrypted)
envr_dir_path := fmt.tprintf("/tmp/envr-test-cycle-%d/.envr", os.get_pid())
os.mkdir_all(envr_dir_path)
data_path, _ := filepath.join([]string{envr_dir_path, "data.envr"})
defer delete(data_path)
write_err := os.write_entire_file(data_path, encrypted)
testing.expectf(t, write_err == nil, "failed to write data.envr: %v", write_err)
if write_err != nil {
return
}
read_back, rb_err := os.read_entire_file_from_path(data_path, context.allocator)
testing.expectf(t, rb_err == nil, "failed to read data.envr: %v", rb_err)
if rb_err != nil {
return
}
defer delete(read_back)
plaintext, dec_ok := decrypt(read_back, cfg.Keys[:])
testing.expect(t, dec_ok, "decryption should succeed")
if !dec_ok {
return
}
defer delete(plaintext)
encrypted2, enc2_ok := encrypt(plaintext, cfg.Keys[:])
testing.expect(t, enc2_ok, "re-encryption should succeed")
if !enc2_ok {
return
}
defer delete(encrypted2)
plaintext2, dec2_ok := decrypt(encrypted2, cfg.Keys[:])
testing.expect(t, dec2_ok, "second decryption should succeed")
if !dec2_ok {
return
}
defer delete(plaintext2)
testing.expect(
t,
len(plaintext2) == len(original_data),
fmt.tprintf(
"double round-trip size mismatch: expected %d, got %d",
len(original_data),
len(plaintext2),
),
)
os.remove(data_path)
os.remove(envr_dir_path)
home := filepath.dir(filepath.dir(envr_dir_path))
os.remove(home)
}
@(test)
test_ssh_key_parse_from_fixtures :: proc(t: ^testing.T) {
key := fixture_key()
priv_kp, priv_ok := parse_ssh_private_key(key.Private)
testing.expect(t, priv_ok, "should parse private key from fixtures")
if !priv_ok {
return
}
pub_key, pub_ok := parse_ssh_public_key(key.Public)
testing.expect(t, pub_ok, "should parse public key from fixtures")
if !pub_ok {
return
}
for i in 0 ..< 32 {
testing.expectf(t, priv_kp.Public[i] == pub_key[i], "public key mismatch at byte %d", i)
}
x25519_pairs, x_ok := ssh_to_x25519([]SshKeyPair{key})
testing.expect(t, x_ok, "ssh_to_x25519 should succeed")
if !x_ok {
return
}
defer delete(x25519_pairs)
testing.expect(t, len(x25519_pairs) == 1, "should have 1 x25519 keypair")
}
@(test)
test_config_load_with_fixture_key :: proc(t: ^testing.T) {
cfg := fixture_config()
defer {
delete(cfg.Keys)
}
testing.expect(t, len(cfg.Keys) == 1, "should have 1 key")
key := cfg.Keys[0]
testing.expectf(t, len(key.Private) > 0, "private key path should not be empty")
testing.expectf(t, len(key.Public) > 0, "public key path should not be empty")
_, priv_ok := parse_ssh_private_key(key.Private)
testing.expect(t, priv_ok, "should parse private key using config paths")
if !priv_ok {
fmt.printf(" private key path was: '%s'\n", key.Private)
}
}
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