# Decision Log Running rationale for protocol, auth, type, and architecture decisions made during the project. New decisions append; old ones are *amended* (with date) rather than overwritten. Format: every decision has a date, a status (`active` / `superseded` / `revisited`), the chosen path, the discarded alternatives, and the *why*. --- ## 2026-05-02 — Project goal & off-ramp **Status**: active **Decision**: Build a pure-Python implementation of the SQLI wire protocol. No IBM Client SDK. No JVM. No native libraries. **Off-ramp** (chosen by user during planning): if Phase 0 reveals the protocol is intractable in pure Python — e.g., mandatory undocumented crypto in the handshake — narrow scope (lock to one server version, drop async, drop prepared statements if needed) and stay pure-Python. Do **not** fall back to JPype/JDBC; that defeats the project's purpose. **Why**: The "no SDK / no JVM" goal is what makes this driver valuable. A JPype fallback would ship something that works but solves nothing the existing JDBC-via-JPype solution doesn't already solve. --- ## 2026-05-02 — Package name **Status**: active **Decision**: `informix-db` **Discarded**: `informixdb-pure` (longer), `ifxsqli` (less discoverable), `pyifx` (obscure) **PyPI availability**: confirmed available 2026-05-02 (HTTP 404 on `/pypi/informix-db/json`). The legacy `informixdb` is taken (HTTP 200), `informix` is also free (404) but too generic. **Why**: Discoverability balanced with brevity. Anyone searching PyPI for "informix" finds it; the hyphen distinguishes it from the legacy C-extension wrapper. --- ## 2026-05-02 — License **Status**: active **Decision**: MIT **Discarded**: Apache-2.0 (more defensive but less common in Python ecosystem), BSD-3-Clause **Why**: Simplest, most permissive, ecosystem-standard for Python libraries. --- ## 2026-05-02 — Sync first; async deferred **Status**: active **Decision**: Build a sync, blocking-socket implementation. Async lands in Phase 6+ as a separate `informix_db.aio` subpackage following asyncpg's I/O-agnostic-protocol pattern. **Why**: Wire protocols are hard enough; debugging protocol bugs through asyncio plumbing is two layers of indirection too many. Sync-first means we can test against blocking sockets, prove correctness, then mechanically swap the I/O layer. --- ## 2026-05-02 — Test target **Status**: active **Decision**: `icr.io/informix/informix-developer-database` (the Developer Edition image, now maintained by HCL Software since the 2017 IBM→HCL transfer of Informix), port 9088 (native SQLI). **Pinned digest** (captured 2026-05-02 from `docker pull`): `sha256:8202d69ba5674df4b13140d5121dd11b7b26b28dc60119b7e8f87e533e538ba1` **On-disk footprint**: 2.23 GB unpacked / 665 MB compressed. **Default credentials** (from container startup logs, accept-license run): - OS/DB user: `informix` - Password: `in4mix` - HQ admin password: `Passw0rd` (don't need this) - DBA user/password: empty - DBSERVERNAME: defaults to `informix` (same as the user) - TLS_CONNECTIONS: OFF (plain auth on port 9088) - Always-present databases: `sysmaster`, `sysuser` (built during init) **Container startup**: `docker run -d --name ifx --privileged -p 9088:9088 -e LICENSE=accept -e SIZE=small icr.io/informix/informix-developer-database@sha256:8202d69b...` **Why**: Free, official, no license click-through, supports plain-password auth out of the box. The digest is locked from Phase 0 onward — `:latest` is the canonical source of flaky integration suites in DB-driver projects, so all `docker-compose.yml` files reference the digest, never the tag. --- ## 2026-05-02 — Phase 0 is a gate, not a step **Status**: active **Decision**: No library code is written until `PROTOCOL_NOTES.md` meets all four exit criteria: 1. Login byte layout documented end-to-end 2. Message-type tags identified for login/execute/row/end-of-result/error/disconnect 3. `SELECT 1` round-trip fully labeled 4. JDBC source and packet capture corroborate on login + execute paths If exit criteria can't be met within bounded effort, invoke the off-ramp. **Why**: Most greenfield projects fail by writing code before they understand the problem. This project has an undocumented wire protocol as its central unknown. Gating on Phase 0 means a failed spike still produces a publicly valuable artifact (`PROTOCOL_NOTES.md`) instead of a half-built driver. --- ## 2026-05-02 — Phase 1 architecture decisions (locked at start of Phase 1) > These are pre-decided so paramstyle/Python-floor/autocommit don't churn later. Recorded here so Phase 1 doesn't relitigate them. - **`paramstyle = "numeric"`** (`:1`, `:2`, …). Matches Informix ESQL/C convention. - **Python ≥ 3.10**. Gives us `match`, modern type hints, `tomllib`. - **`autocommit` defaults to off**. PEP 249 implicit semantics; opt-in via `connect(autocommit=True)`. - **Author**: Ryan Malloy `` (per global pyproject.toml convention). - **Versioning**: CalVer `YYYY.MM.DD` (`2026.05.02` initial); same-day fixes use PEP 440 post-release `2026.05.02.1`, `.2`, etc. --- ## 2026-05-02 — DATE pulled forward to MVP **Status**: active **Decision**: DATE is included in the Phase 2 MVP type set, alongside SMALLINT/INTEGER/BIGINT/FLOAT/CHAR/VARCHAR/BOOLEAN. **Discarded**: leaving DATE in the "medium" / Phase 6 bucket. **Why**: Almost no real Informix database is DATE-free. The encoding is trivial once the type code is known (4-byte day count from the Informix epoch 1899-12-31). Cheap to include; expensive to leave out. DATETIME / INTERVAL / DECIMAL / NUMERIC / MONEY remain in Phase 6+ — their encodings (qualifier-byte precision, BCD-style packed decimal) are non-trivial. --- ## 2026-05-02 — `CLAUDE.md` excluded from git and sdist **Status**: active **Decision**: `.gitignore` excludes `CLAUDE.md`. Once `pyproject.toml` exists, `[tool.hatch.build.targets.sdist].exclude` will also list `CLAUDE.md`. **Why**: `CLAUDE.md` contains the user's email and operator-private context. Per global convention, only commit `CLAUDE.md` to private repos. This project is destined for PyPI / public Git. --- ## 2026-05-02 — JDBC reference: `ifxjdbc.jar` 4.50.JC10 **Status**: active **Decision**: Use the user-provided `ifxjdbc.jar` from `/home/rpm/bingham/rtmt/lib/` as the JDBC reference, working copy at `build/ifxjdbc.jar`. **JAR identity**: `Implementation-Version: 4.50.10-SNAPSHOT`, build 146, dated 2023-03-07. Printable version string: `4.50.JC10`. SHA256 `dc5622cb4e95678d15836b684b6ef1783d37bc0cdd2725208577fc300df4e5f1`. **Discarded**: Maven Central `com.ibm.informix:jdbc:4.50.4.1` (not downloaded — the local copy is newer). **Why**: A newer reference is strictly better — the wire protocol is backwards-compatible, so anything `4.50.JC10` knows how to send/receive will be accepted by older servers. Avoids the Maven download. --- ## 2026-05-02 — Decompiler: CFR 0.152 **Status**: active **Decision**: Use CFR 0.152 (https://github.com/leibnitz27/cfr) as the JDBC decompiler. Cached at `build/tools/cfr.jar`. **Discarded**: Procyon, Fernflower, Ghidra (Ghidra MCP port pool was exhausted; CFR alone proved sufficient). **Why**: CFR produces the most readable Java for modern bytecode, ships as a single fat JAR, has no install step. Decompiles 478 .java files in seconds. --- ## 2026-05-02 — Confirmed: CSM is dead in modern Informix **Status**: active **Decision**: Do NOT plan for CSM (Communications Support Module) support. Ever. **Evidence**: `com.informix.asf.Connection.getOptProperties()` (decompiled) literally throws: `"CSM Encryption is no longer supported"` if `SECURITY` or `CSM` opt-prop is set. **Why**: This used to be the supplied-encryption-plugin layer. IBM removed it; modern Informix uses TLS/SSL exclusively. Removes CSM from every phase plan. --- ## 2026-05-02 — Wire framing primitives confirmed (from JDBC) **Status**: active (pending PCAP corroboration) **Decision**: Adopt these wire-framing primitives in `_protocol.py` from day one: - All multi-byte integers are **big-endian** (network byte order) - SmallInt = 2 bytes, Int = 4 bytes, BigInt = 8 bytes, Real = 4 bytes IEEE 754, Double = 8 bytes IEEE 754 - Variable-length payloads (string, decimal, datetime, interval, BLOB): `[short length][bytes][optional 0x00 pad if length is odd]` — **the 16-bit alignment requirement is mandatory; missing it desynchronizes the parser** - Strings emitted as `[short len+1][bytes][0x00 nul terminator]` (the +1 is the trailing nul) - Post-login messages have NO header: each is `[short messageType][payload]` and the next message begins immediately after the previous one's payload ends - Login PDU has its own SLheader (6 bytes) + PFheader structure **Source**: `com.informix.lang.JavaToIfxType` (encoders), `com.informix.asf.IfxDataInputStream`/`IfxDataOutputStream` (framing), `com.informix.asf.Connection` (login PDU). Documented byte-by-byte in `PROTOCOL_NOTES.md`. --- ## 2026-05-02 — Plain-password auth: no challenge-response round trip **Status**: active **Decision**: For MVP, treat plain-password auth as a single round trip: client sends one binary login PDU containing the password inline; server replies with one PDU containing version + capabilities or an error block. **Why**: `Connection.encodeAscBinary()` writes the password as a length-prefixed string within the login PDU body. There is no separate auth phase, no salt, no hashing, no `SQ_CHALLENGE`/`SQ_RESPONSE` exchange. Those constants (129/130) are reserved for PAM and other interactive auth methods, used AFTER the binary login PDU when the server initiates them. --- ## 2026-05-02 — Capability ints: corrected after PDU diff caught misread **Status**: active (corrects an earlier same-day entry) **Decision**: Send `Cap_1 = 0x0000013c, Cap_2 = 0, Cap_3 = 0` in the binary login PDU. These are the values IBM's JDBC driver sends; the server echoes them back identically. **Why this is a correction**: An earlier read of the wire bytes (before we wrote the byte-for-byte PDU diff) decoded the capability section as `Cap_1=1, Cap_2=0x3c000000, Cap_3=0`. That was a misalignment — the `0x3c` byte interpreted as `Cap_2`'s high byte was actually `Cap_1`'s low byte. Real layout: a single int `0x0000013c` = `(capability_class << 8) | PF_PROT_SQLI_0600 (60 = 0x3c)`. **How we caught it**: `tests/test_pdu_match.py` — captures our generated PDU via a monkey-patched socket and asserts byte-for-byte equality against `docs/CAPTURES/01-connect-only.socat.log` for offsets 2..280 (the structural prefix). The connection still worked with the wrong values because the dev image is permissive, but the PDU was structurally non-identical. **Server-accepts ≠ structurally-correct.** **Methodology takeaway**: For wire-protocol implementations, always diff against the reference vendor's PDU bytes, not just "it connected." Permissive servers mask real bugs. --- ## 2026-05-04 — VARCHAR row decoding: three byte-level discoveries **Status**: active **Decision**: ``parse_tuple_payload`` now handles VARCHAR/NCHAR/NVCHAR with a single-byte length prefix; SQ_TUPLE payloads are padded to even byte alignment; the trailing reserved field in CURNAME+NFETCH is a SHORT not an INT. **Why this is three findings**: each one was caught by a different debugging technique: 1. **CURNAME+NFETCH PDU off by 2 bytes**: my reserved trailing field was `write_int(0)` (4 bytes); JDBC's reference is `write_short(0)` (2 bytes). Caught by capturing both PDUs under socat and byte-diffing — our 44-byte vs JDBC's 42-byte. The server happened to accept the longer version for INT-only SELECTs (silently treating the extra zeros as padding) but rejected it for VARCHAR queries. Lesson: **server tolerance varies by query type — always match JDBC byte-for-byte**. 2. **SQ_TUPLE payload pads to even alignment**: when `size` is odd, an extra 0x00 byte follows the payload before the next tag. Found in `docs/CAPTURES/15-py-varchar-fixed.socat.log` — an 11-byte "syscolumns" VARCHAR payload had a trailing `0x00` that JDBC's `IfxRowColumn.readTuple` consumes silently. We weren't doing this, so the parser desynced for any odd-length variable-width row. **Even-byte alignment is a wire-protocol-wide invariant — every variable-length payload pads.** 3. **VARCHAR in tuple uses 1-byte length prefix, NOT 2**: per the on-wire encoding (verified empirically in capture 15), VARCHAR values in row data are `[byte length][bytes]` — single-byte prefix, max 255 chars. NCHAR and NVCHAR follow the same pattern. (CHAR is fixed-width per encoded_length, no length prefix at all.) LVARCHAR uses a 4-byte int prefix for values >255 bytes. **How to apply**: when adding new variable-width type decoders, capture a tuple under socat first to see the exact framing — don't infer from the column descriptor's `encoded_length`, which is the MAX storage, not the wire format. The wire format may differ by orders of magnitude (1-byte prefix vs encoded_length=128 for VARCHAR). --- ## 2026-05-04 — DML / DDL execution path: SQ_PREPARE + SQ_EXECUTE + SQ_RELEASE **Status**: active **Decision**: For statements that don't return rows (CREATE, INSERT, UPDATE, DELETE, DROP), Cursor.execute branches on ``nfields == 0`` in the DESCRIBE response. SELECT path is the cursor lifecycle (CURNAME+NFETCH+...); DDL/DML path is just SQ_EXECUTE then SQ_RELEASE. **Why**: JDBC uses SQ_PREPARE for everything; for non-SELECT it just doesn't open a cursor. Per IfxSqli.sendExecute (line 1075): non-prepared-statement execute is a bare ``[short SQ_ID=4][int SQ_EXECUTE=7][short SQ_EOT]`` (8 bytes). --- ## 2026-05-04 — SQ_INSERTDONE (=94) is execution metadata, NOT execution **Status**: active **Decision**: SQ_INSERTDONE arrives in BOTH the DESCRIBE response (PREPARE phase) AND the EXECUTE response for literal-value INSERTs. It carries the auto-generated serial values that WILL be / WERE inserted. Don't interpret SQ_INSERTDONE in the DESCRIBE response as "row was inserted" — it's just metadata. Always send SQ_EXECUTE. **Why this was a debugging trap**: when I first saw SQ_INSERTDONE in the PREPARE response for ``INSERT INTO t1 VALUES (1, 'hello')``, I assumed Informix optimizes literal INSERTs by executing during PREPARE and added a "skip SQ_EXECUTE" branch. Result: SELECT returned 0 rows. The data wasn't actually inserted; the SQ_INSERTDONE in PREPARE was just "here are the serials that WILL be assigned when you execute". After reverting to "always send SQ_EXECUTE", the row persists. Lesson: optimization-looking responses may not be what they look like — always verify with a follow-up SELECT. --- ## 2026-05-04 — SQ_INSERTDONE wire format **Status**: active **Decision**: Per IfxSqli.receiveInsertDone (line 2347), the SQ_INSERTDONE payload is 18 bytes for modern (bigint-supported) servers: - 10 bytes: serial8 inserted (Informix's variable-numeric LONGINT encoding) - 8 bytes: bigserial inserted (regular 64-bit long, big-endian) For now we read-and-discard. Phase 5+ will surface these as ``Cursor.lastrowid`` / similar. --- ## 2026-05-04 — Transactions: commit/rollback are 2-byte messages **Status**: active **Decision**: ``Connection.commit()`` sends ``[short SQ_CMMTWORK=19][short SQ_EOT=12]`` (4 bytes). ``Connection.rollback()`` sends ``[short SQ_RBWORK=20][short SQ_EOT=12]``. Server responds with SQ_DONE+SQ_EOT (in logged databases) or SQ_ERR sqlcode=-255 ("Not in transaction") in unlogged databases like sysmaster. **How to apply**: integration tests for transactions need a LOGGED database. The Informix Developer Edition image ships with ``stores_demo`` (logged) — point integration tests at that for commit/rollback verification. --- ## 2026-05-04 — Parameter binding: SQ_BIND chained with SQ_EXECUTE in one PDU **Status**: active **Decision**: ``Cursor.execute(sql, params)`` for DML sends one PDU containing SQ_BIND with all parameter values, immediately followed by SQ_EXECUTE. No separate CIDESCRIBE round trip — the server infers parameter types from the type tags we send in SQ_BIND. **Why this matters**: skipping the CIDESCRIBE/IDESCRIBE handshake (which JDBC does for type-discovery) saves one round trip per execute. The server accepts our SQ_BIND directly because we provide explicit type codes for each parameter. PDU structure (verified against ``docs/CAPTURES/02-dml-cycle.socat.log`` msg[29]): ``` [short SQ_ID=4][int SQ_BIND=5][short numparams] for each param: [short type][short indicator=0 or -1][short prec_or_encLen] writePadded(rawbytes) # data + 0x00 pad if odd-length [short SQ_EXECUTE=7] [short SQ_EOT] ``` Per-type encoding (Phase 4 MVP): | Python type | IDS type code | Precision short | Data | |-------------|---------------|-----------------|------| | ``int`` (32-bit) | 2 (INT) | ``0x0a00`` (=2560 packed display-width=10/scale=0) | 4 bytes BE | | ``int`` (64-bit) | 52 (BIGINT) | ``0x1300`` (=4864 packed width=19/scale=0) | 8 bytes BE | | ``str`` | 0 (CHAR — server casts) | 0 | ``[short len][bytes]`` (writePadded adds even pad) | | ``float`` | 3 (FLOAT/DOUBLE) | 0 | 8 bytes IEEE 754 | | ``bool`` | 45 (BOOL) | 0 | 1 byte (0x01 or 0x00) | | ``None`` | 0 | indicator=-1 | (no data) | **Surprise**: JDBC sends Python-string equivalents as **CHAR (type=0)**, not VARCHAR (type=13). The server handles conversion to the actual column type via internal CIDESCRIBE/IDESCRIBE inference. We do the same — string parameters always go out as CHAR. **Surprise**: integer precision is **packed** as ``(display_width << 8) | scale``. For INTEGER, that's ``(10 << 8) | 0 = 0x0a00 = 2560``. Initially looked like a bug (why would precision be 2560?) until I realized it's a packed field. Captured in cursor's ``_build_bind_execute_pdu`` and converters' ``_encode_int``. **Paramstyle**: we declare ``paramstyle = "numeric"`` (PEP 249), supporting ``:1``, ``:2`` placeholders. Internally we rewrite to ``?`` (Informix's native style) before sending PREPARE. Trivial regex; doesn't escape strings/comments — Phase 5 can add a proper SQL tokenizer for that edge case. --- ## 2026-05-04 — SELECT vs DML branching: keyword-based, not nfields-based **Status**: active **Decision**: ``Cursor.execute`` branches on the first word of the SQL (``SELECT`` → cursor-fetch path; everything else → execute-and-release path). Don't use ``nfields > 0`` from the DESCRIBE response. **Why**: a parameterized INSERT (``INSERT INTO t VALUES (?, ?, ?)``) returns a DESCRIBE response with ``nfields > 0`` because the server describes the row that WILL be inserted. The ``nfields == 0`` heuristic that worked for non-parameterized DML breaks here. JDBC does the same via its ``IfxStatement`` / ``IfxPreparedStatement`` subclassing. --- ## (template — copy below this line for new entries) ``` ## YYYY-MM-DD — **Status**: active | superseded | revisited **Decision**: **Discarded**: **Why**: ```