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candor_classify/
lib.rs

1//! candor-classify — the curated effect classifier (crate+path -> effect), extracted to a STABLE
2//! crate so both the nightly `rustc_private` lint AND a stable backend share ONE source of truth
3//! (no drift). Pure string logic; no rustc internals. The effect vocabulary lives in candor-report.
4
5use candor_report::EFFECTS;
6
7/// The canonical CANDOR_POLICY DSL parser (SPEC §6.2), shared by the nightly gate and candor-query.
8pub mod policy;
9
10/// The SURPRISE heuristic (the cold-repo hook) — SHARED so candor-scan's scan-time note and
11/// candor-query's `tour` verb can't drift. Generic over the effect element type.
12pub mod surface;
13
14/// Project-supplied rules, consulted only when the built-in `classify` returns None.
15pub fn classify_extra(
16    crate_name: &str,
17    path: &str,
18    extra: &[(&'static str, bool, String)],
19) -> Option<&'static str> {
20    for (eff, is_crate, prefix) in extra {
21        let hit = if *is_crate { crate_name.starts_with(prefix.as_str()) } else { path.starts_with(prefix.as_str()) };
22        if hit {
23            return Some(eff);
24        }
25    }
26    None
27}
28
29/// The exact third-party crates `classify` has effect rules for, and the crate-name
30/// PREFIXES it recognizes. This is the single source of truth for "what candor knows":
31/// it is emitted beside the JSON report (`<prefix>.calibrated.json`) so the Claude Code
32/// receipt's coverage check reads candor's real coverage instead of a hand-copied list.
33/// Keep in lockstep with `classify` below — the `db_crates_are_calibrated` and
34/// `calibrated_crates_are_live` tests (in this crate's `tests` module) enforce both directions.
35pub const CALIBRATED_CRATES: [&str; 79] = [
36    // network (aws_config resolves credentials over the network on `.load()`;
37    // git2 remote ops — fetch/push/connect — contact the network; async_net is smol's net layer;
38    // pnet is raw L2/L3 packet capture)
39    "reqwest", "isahc", "ureq", "curl", "aws_config", "git2", "tokio_tcp", "tokio_udp", "async_net",
40    "async_nats", "lapin", "lettre", "tungstenite", "elasticsearch", "tonic", "rdkafka", "pnet",
41    // directory traversal (ignore = gitignore-aware walker, powers ripgrep/fd; its walk executors are Fs)
42    // + filesystem watching (notify = inotify/FSEvents/kqueue wrapper; powers watchexec/cargo-watch)
43    "ignore", "notify",
44    // database (see DB_CRATES in classify)
45    "sqlx", "rusqlite", "postgres", "tokio_postgres", "diesel", "redis", "mongodb",
46    "mysql", "mysql_async", "sea_orm", "deadpool_postgres",
47    // filesystem (async_fs = smol; fs_err = std::fs wrapper; tempfile; glob) / entropy /
48    // subprocess (async_process = smol; duct) / env (dotenvy/dotenv) / clock (time) / log / clipboard
49    "memmap2", "fs_err", "async_fs", "tempfile", "glob",
50    "rand", "getrandom", "fastrand",
51    // entropy: the password-hashing tier (salt mints + bcrypt's internal salt) + the OsRng source
52    "argon2", "bcrypt", "scrypt", "pbkdf2", "password_hash", "rand_core",
53    "portable_pty", "async_process", "duct",
54    "dotenvy", "dotenv",
55    "chrono", "time", "tracing", "log", "arboard",
56    // compiler diagnostic emission (a dylint lint's output) — see the Log rules in classify
57    "rustc_lint", "rustc_errors",
58    // raw syscalls via FFI — the syscall-name table that lights up the FFI-thin tier (nix is routed
59    // through the same table by leaf name, so a consumer of nix is covered without nix's own source)
60    "libc", "nix", "rustix",
61    // coverage-differential additions (verb-keyed; see the per-crate rules near the end of classify):
62    // sync TLS core + native-tls variants (Net); env/dir resolution + argv + LS_COLORS (Env);
63    // sqlx-core execution terminals (Net/Db); directory walk + timestamp mutation + same-file (Fs);
64    // process-spawn helpers (Exec); signal handler + interactive-tty prompts (Ipc); env_logger (Log);
65    // jiff/backoff clock reads (Clock).
66    "rustls", "native_tls_crate", "tokio_native_tls",
67    "etcetera", "wild", "lscolors",
68    "sqlx_core", "walkdir", "filetime", "clircle",
69    "execute", "ctrlc", "clap", "jiff", "env_logger",
70    "dialoguer", "console", "terminal_colorsaurus", "backoff", "grep_cli",
71];
72
73pub const CALIBRATED_PREFIXES: [&str; 3] = ["aws_sdk_", "aws_smithy", "cap_"];
74
75/// Crates `classify` matches by PATH prefix rather than crate-name equality (their effectful modules
76/// are recognised, e.g. `tokio::net::`/`async_std::fs::`/`mio::net::`), so they're absent from
77/// `CALIBRATED_CRATES` (which the liveness test probes by crate name). The coverage check must still
78/// treat them as *covered* — otherwise it would mislabel the most common async crates as blind spots.
79pub const PATH_CALIBRATED_CRATES: [&str; 3] = ["tokio", "async_std", "mio"];
80
81/// Representative path tails (each appended to a crate name) that the `calibrated_crates_are_live`
82/// liveness test probes: at least one must match for every `CALIBRATED_CRATES` entry, else the entry is
83/// dead. Exported as ONE source of truth because the nightly lint crate (`src/lib.rs`) runs the SAME
84/// liveness test — when the two probe lists were duplicated they drifted, and a rule keyed on a
85/// distinctive tail (pnet `::datalink::channel`, ignore `::WalkBuilder::build_parallel`, notify
86/// `::RecommendedWatcher::new`) added to only one list silently broke the other crate's `cargo test`.
87pub const CALIBRATION_PROBE_TAILS: &[&str] = &[
88    "::X::send", "::X::execute", "::X::call", "::X::query", "::X::fetch_one", "::Remote::fetch",
89    "::datalink::channel", "::WalkBuilder::build_parallel", "::RecommendedWatcher::new",
90    "::X::connect", "::Utc::now", "::X::load", "::__private_api::log", "::tempfile", "::glob",
91    "::X::run", "::dotenv", "::random", "::emit", "::X::emit_span_lint", "::X::anything",
92    "::SaltString::generate", "::hash", "::OsRng::fill_bytes",
93    // verb-precise crates whose whole-crate rules were narrowed to the effectful surface (the pure
94    // accessors/ctors/data-types now return None), so the liveness probe must name an EFFECTFUL path:
95    "::Mmap::map", "::event", "::u32", "::Clipboard::get_text", "::spawn_command",
96    // coverage-differential crates (each needs ≥1 effectful tail; existing tails already cover
97    // native_tls_crate/tokio_native_tls/sqlx_core via ::X::connect, execute via ::X::execute, jiff via ::now):
98    "::read_tls", "::home_dir", "::args", "::from_env", "::IntoIter::next", "::set_file_mtime",
99    "::surely_conflicts_with", "::set_handler", "::get_matches", "::init", "::interact",
100    "::write_line", "::background_color", "::retry", "::build",
101];
102
103/// Database client crates whose execution verbs are I/O (see the DB branch in `classify`).
104/// Module-level so `db_crates_are_calibrated` can enforce `DB_CRATES ⊆ CALIBRATED_CRATES`.
105pub const DB_CRATES: [&str; 11] = [
106    "sqlx", "rusqlite", "postgres", "tokio_postgres", "diesel", "redis", "mongodb",
107    "mysql", "mysql_async", "sea_orm", "deadpool_postgres",
108];
109
110/// Pure file-descriptor *ownership-transfer* leaves. These ADOPT an already-open descriptor
111/// (`from_raw_fd`/`from_raw_socket`/`from_raw_handle`), EXTRACT/BORROW one
112/// (`into_raw_fd`/`into_raw_socket`/`into_raw_handle`, `as_raw_fd`/`as_raw_socket`/`as_raw_handle`),
113/// or UNWRAP an async wrapper back to its std type (`into_std`) — none of them issue a syscall or
114/// perform I/O. calling a PURE function effectful is a FABRICATION — the precision failure (candor's cardinal sin is the opposite direction, the silent under-report) — and these collide with the
115/// coarse std-type PREFIX rules (`std::net::TcpStream`/`std::fs::File`/`std::os::unix::net` → Net/Fs/Ipc)
116/// even though the descriptor was opened ELSEWHERE. The portable_pty/async_process Exec rule already
117/// exempts `from_raw_fd`; this generalises the same carve-out across the net/fs/ipc prefix rules.
118/// (Found by a real-world sweep of tokio: `TcpStream::into_std`, `*::from_raw_fd`, `*::as_raw_fd` all
119/// fabricated Net/Fs/Ipc.)
120const PURE_FD_TRANSFER: &[&str] = &[
121    "from_raw_fd", "from_raw_socket", "from_raw_handle",
122    "into_raw_fd", "into_raw_socket", "into_raw_handle",
123    "as_raw_fd", "as_raw_socket", "as_raw_handle",
124    "into_std",
125    // `SocketAddr::from_pathname` (std/async-std unix net) builds an address STRUCT from a path —
126    // it opens no socket. The `std::os::unix::net` prefix rule below would otherwise fabricate Ipc
127    // on it. (Found sweeping socket2: `SockAddr::as_unix` → `from_pathname` reported Ipc.)
128    "from_pathname",
129];
130
131/// Classify a resolved callee by the crate it belongs to and its full path.
132pub fn classify(crate_name: &str, path: &str) -> Option<&'static str> {
133    // Pure fd ownership-transfer/extraction leaves are never an effect, regardless of which std I/O
134    // type they hang off — exempt them BEFORE the coarse prefix rules can fabricate Net/Fs/Ipc.
135    if PURE_FD_TRANSFER.contains(&path.rsplit("::").next().unwrap_or(path)) {
136        return None;
137    }
138    if crate_name.starts_with("aws_sdk_") || crate_name.starts_with("aws_smithy") {
139        // Only request dispatch is network I/O; builder setters/accessors are pure.
140        if path.ends_with("::send") || path.ends_with("::send_with") {
141            return Some("Net");
142        }
143        return None;
144    }
145    // aws-config resolves credentials/region on `.load()` — it reaches the IMDS metadata
146    // endpoint / STS over the network (and reads ~/.aws + env). Builders (`defaults()`,
147    // `SdkConfig::builder()`, `BehaviorVersion::latest()`) are pure; the `load` is the I/O.
148    // (Found hardening on a real app, ebman: `builder.load().await` was classified pure.)
149    if crate_name == "aws_config" {
150        if path.ends_with("::load") || path.ends_with("::load_defaults") {
151            return Some("Net");
152        }
153        return None;
154    }
155    // git2 (libgit2 FFI): remote operations contact the network; everything else is local
156    // to the .git directory. Match the remote verbs precisely — NOT bare `::clone`, which is
157    // the `Clone`-trait dup of a `Remote` handle (pure), not `Repository::clone`. (Found
158    // hardening on gitui: `remote.fetch`/`remote.push` were classified network-free — a git
159    // client reporting it makes no network calls.)
160    if crate_name == "git2" {
161        if path.ends_with("::fetch")
162            || path.ends_with("::push")
163            || path.ends_with("::download")
164            || path.ends_with("::connect")
165            || path.ends_with("::connect_auth")
166            || path.ends_with("::ls")
167            || path.ends_with("::upload")
168        {
169            return Some("Net");
170        }
171        return None;
172    }
173    // libc — raw syscalls via FFI. The FFI-thin tier (nix, and the syscall layer beneath rusqlite/git2)
174    // is invisible to a name classifier unless we model libc directly: a 35-crate calibration
175    // (eval/calibration) showed nix reporting ZERO library effects because every wrapper bottoms out in
176    // an unrecognised `libc::*` call. Classify by syscall name, but ONLY the UNAMBIGUOUS ones — the
177    // socket family is Net, path/dir syscalls are Fs, spawn/exec/wait is Exec, SysV/pipe IPC is Ipc,
178    // env/clock/entropy each their own. We deliberately SKIP the generic file-descriptor ops
179    // (read/write/close/lseek/dup/fcntl/ioctl/poll/select/epoll*/mmap): they operate on ANY fd — file,
180    // socket, or pipe — so a fixed label would mis-categorise as often as it helps. An honest
181    // no-classify (under-report) beats emitting the WRONG effect. Pure conversions (htons/inet_pton/
182    // gmtime) are also skipped.
183    //
184    // `nix` (the idiomatic SAFE libc wrapper, in ~every Rust systems/CLI crate) is routed through the
185    // SAME table: its functions keep the syscall leaf name (`nix::fcntl::open`, `nix::sys::socket::connect`,
186    // `nix::unistd::execvp`). Without this, a CONSUMER of nix analysed without nix's own source (the
187    // stable scanner, single-crate) sees `nix::*` cross-crate and under-reports — serialport-rs opens its
188    // device via `nix::fcntl::open` and reported ZERO Fs. The nightly lint reaches `libc::*` THROUGH nix's
189    // body; this gives the scanner the same coverage directly. (Found sweeping serialport-rs.)
190    // `rustix` is the same shape as nix but does RAW syscalls (no libc underneath), so its functions MUST
191    // be classified directly. Its leaf names are the syscall names too (`rustix::time::clock_settime`,
192    // `rustix::fs::mkfifoat`/`symlink`/`stat`, `rustix::net::connect`) — route it through the same table.
193    // The rustix-specific `*at`/variant leaves it doesn't share with libc just under-report (the safe
194    // direction). VALIDATED, not speculative: coreutils' `date` reads/sets the clock via
195    // `rustix::time::clock_getres`/`clock_settime` and reported Clock=0; the file I/O that goes through
196    // std::fs was already correct, which is why only the rustix-only effects (Clock/Ipc) were missing.
197    if crate_name == "libc" || crate_name == "nix" || crate_name == "rustix" {
198        let f = path.rsplit("::").next().unwrap_or(path);
199        // path / directory / metadata syscalls (incl. *64 and *at variants)
200        const FS: &[&str] = &[
201            "open", "open64", "openat", "openat2", "creat", "creat64", "stat", "stat64", "lstat",
202            "lstat64", "fstatat", "fstatat64", "newfstatat", "statx", "access", "faccessat",
203            "faccessat2", "mkdir", "mkdirat", "rmdir", "unlink", "unlinkat", "rename", "renameat",
204            "renameat2", "link", "linkat", "symlink", "symlinkat", "readlink", "readlinkat", "chmod",
205            "fchmodat", "chown", "lchown", "fchownat", "truncate", "truncate64", "ftruncate",
206            "ftruncate64", "opendir", "fdopendir", "readdir", "readdir64", "readdir_r", "closedir",
207            "rewinddir", "seekdir", "telldir", "scandir", "mkstemp", "mkstemps", "mkostemp", "mkdtemp",
208            "mknod", "mknodat", "chdir", "fchdir", "getcwd", "get_current_dir_name", "chroot",
209            "pivot_root", "statfs", "statfs64", "fstatfs", "fstatfs64", "statvfs", "fstatvfs", "mount",
210            "umount", "umount2", "fsync", "fdatasync", "sync", "syncfs", "sync_file_range", "fallocate",
211            "posix_fallocate", "posix_fadvise", "sendfile", "sendfile64", "copy_file_range", "flock",
212            "getdents", "getdents64", "utime", "utimes", "lutimes", "futimens", "utimensat", "futimesat",
213            "realpath",
214        ];
215        // socket family — these operate only on sockets, so Net is unambiguous (AF_UNIX domain isn't
216        // visible at the call, so a Unix socket reads as Net rather than Ipc; acceptable over-general).
217        const NET: &[&str] = &[
218            "socket", "setsockopt", "getsockopt", "bind", "listen", "accept", "accept4", "connect",
219            "shutdown", "send", "sendto", "sendmsg", "sendmmsg", "recv", "recvfrom", "recvmsg",
220            "recvmmsg", "getpeername", "getsockname", "getaddrinfo", "freeaddrinfo", "getnameinfo",
221        ];
222        // process creation / replacement / reaping
223        const EXEC: &[&str] = &[
224            "fork", "vfork", "clone", "clone3", "execl", "execlp", "execle", "execv", "execvp",
225            "execvpe", "execve", "execveat", "fexecve", "posix_spawn", "posix_spawnp", "system",
226            "popen", "pclose", "wait", "waitpid", "wait3", "wait4", "waitid",
227        ];
228        // pipes / FIFOs / SysV + POSIX message queues, semaphores, shared memory; socketpair (AF_UNIX)
229        const IPC: &[&str] = &[
230            "pipe", "pipe2", "mkfifo", "mkfifoat", "socketpair", "msgget", "msgsnd", "msgrcv", "msgctl",
231            "semget", "semop", "semtimedop", "semctl", "shmget", "shmat", "shmdt", "shmctl", "mq_open",
232            "mq_send", "mq_receive", "mq_timedsend", "mq_timedreceive", "mq_close", "mq_unlink",
233        ];
234        const ENV: &[&str] = &["getenv", "secure_getenv", "setenv", "putenv", "unsetenv", "clearenv"];
235        const CLOCK: &[&str] = &[
236            "time", "gettimeofday", "clock_gettime", "clock_getres", "nanosleep", "clock_nanosleep",
237            // SETTING the system clock is a clock effect too (was unclassified — found on coreutils `date`,
238            // which sets it via `clock_settime`).
239            "clock_settime", "settimeofday", "stime", "adjtime", "adjtimex", "clock_adjtime",
240        ];
241        const RAND: &[&str] = &["getrandom", "getentropy", "arc4random", "arc4random_buf", "arc4random_uniform"];
242        if FS.contains(&f) {
243            return Some("Fs");
244        }
245        if NET.contains(&f) {
246            return Some("Net");
247        }
248        if EXEC.contains(&f) {
249            return Some("Exec");
250        }
251        if IPC.contains(&f) {
252            return Some("Ipc");
253        }
254        if ENV.contains(&f) {
255            return Some("Env");
256        }
257        if CLOCK.contains(&f) {
258            return Some("Clock");
259        }
260        if RAND.contains(&f) {
261            return Some("Rand");
262        }
263        return None;
264    }
265    // C-library FFI bindings: libsqlite3 (under rusqlite) and libgit2 (under git2). Like the libc tier,
266    // these crates are thin Rust over a C library, so their real I/O is invisible until the C entry
267    // points are named. Match by the DISTINCTIVE C function name (`sqlite3_*` / `git_*`) via the call's
268    // LEAF — independent of the binding crate's alias: rusqlite calls `ffi::sqlite3_step`, git2 calls
269    // `raw::git_remote_fetch`, and the nightly lint resolves the same to `libsqlite3_sys`/`libgit2_sys`;
270    // all spellings share the leaf. Only the I/O-performing entry points are listed — the in-memory
271    // accessors (`sqlite3_bind_*`/`sqlite3_column_*`, `git_*_oid`/strarray/options builders) stay pure,
272    // so a non-listed `sqlite3_`/`git_` leaf returns None (under-report, never a wrong effect). Calibrated
273    // + validated against rusqlite 0.39 / git2 0.20 source (eval/calibration).
274    {
275        let leaf = path.rsplit("::").next().unwrap_or(path);
276        if let Some(rest) = leaf.strip_prefix("sqlite3_") {
277            let _ = rest;
278            // SQLite C API operations that touch the database (open/exec/step/prepare/backup/blob/wal).
279            const DB: &[&str] = &[
280                "sqlite3_open", "sqlite3_open_v2", "sqlite3_open16", "sqlite3_close", "sqlite3_close_v2",
281                "sqlite3_exec", "sqlite3_step", "sqlite3_prepare", "sqlite3_prepare_v2",
282                "sqlite3_prepare_v3", "sqlite3_prepare16", "sqlite3_prepare16_v2", "sqlite3_prepare16_v3",
283                "sqlite3_get_table", "sqlite3_backup_init", "sqlite3_backup_step", "sqlite3_backup_finish",
284                "sqlite3_blob_open", "sqlite3_blob_read", "sqlite3_blob_write", "sqlite3_blob_reopen",
285                "sqlite3_load_extension", "sqlite3_wal_checkpoint", "sqlite3_wal_checkpoint_v2",
286            ];
287            return DB.contains(&leaf).then_some("Db");
288        }
289        if leaf.starts_with("git_") {
290            // libgit2: remote/transport operations contact the network … (incl. submodule clone/update,
291            // which `git_clone`/fetch the subrepo over its remote — `allow_fetch` defaults on; an A/B on
292            // git2 0.20 caught `Submodule::update`/`clone` reporting no `Net`).
293            const NET: &[&str] = &[
294                "git_clone", "git_remote_connect", "git_remote_connect_ext", "git_remote_fetch",
295                "git_remote_download", "git_remote_upload", "git_remote_push", "git_remote_ls",
296                "git_submodule_clone", "git_submodule_update",
297            ];
298            // … and repository/index/odb/checkout/ref/config operations touch the on-disk .git store.
299            const FS: &[&str] = &[
300                "git_repository_open", "git_repository_open_ext", "git_repository_open_bare",
301                "git_repository_init", "git_repository_init_ext", "git_repository_discover",
302                "git_checkout_tree", "git_checkout_head", "git_checkout_index", "git_index_read",
303                "git_index_write", "git_index_write_tree", "git_index_write_tree_to",
304                "git_index_add_bypath", "git_index_add_all", "git_odb_open", "git_odb_read",
305                "git_odb_write", "git_odb_open_wstream", "git_odb_open_rstream",
306                "git_blob_create_fromdisk", "git_blob_create_fromworkdir", "git_blob_create_from_disk",
307                "git_blob_create_from_workdir", "git_blob_create_from_stream", "git_commit_create",
308                "git_commit_create_v", "git_reference_create", "git_reference_set_target",
309                "git_reference_delete", "git_config_open_default", "git_config_open_ondisk",
310                "git_config_add_file_ondisk", "git_tag_create", "git_treebuilder_write",
311                "git_packbuilder_write",
312            ];
313            if NET.contains(&leaf) {
314                return Some("Net");
315            }
316            if FS.contains(&leaf) {
317                return Some("Fs");
318            }
319            return None;
320        }
321        if leaf.starts_with("curl_") {
322            // libcurl (under the `curl` crate, called `curl_sys::curl_*`). Only the entry points that
323            // PERFORM network I/O: the blocking transfer (`curl_easy_perform`), raw socket send/recv,
324            // the HTTP/2 keepalive PING (`upkeep`), and the multi-interface transfer pumps. The large
325            // pure surface (setopt/init/cleanup/reset/getinfo/escape/multi_add_handle/fdset/info_read)
326            // stays unclassified, as do `curl_multi_wait`/`poll` (readiness WAIT on sockets, no payload —
327            // the loop's `perform` is the tagged boundary, per the I/O-boundary principle). An A/B on
328            // curl 0.4 caught the whole crate reporting ZERO Net (`Easy::perform` read as pure).
329            const NET: &[&str] = &[
330                "curl_easy_perform", "curl_easy_send", "curl_easy_recv", "curl_easy_upkeep",
331                "curl_multi_perform", "curl_multi_socket_action",
332            ];
333            return NET.contains(&leaf).then_some("Net");
334        }
335        if let Some(op) = leaf.strip_prefix("SSL_") {
336            // OpenSSL (libssl, under the `openssl`/`native-tls` crates, called `ffi::SSL_*`). The TLS
337            // handshake and record I/O run over the peer socket -> Net. Unlike libc read/write, an SSL_*
338            // op is ~always over a network BIO (the rare memory-BIO/sans-IO case is the honest exception
339            // we accept). The crypto surface (EVP_*/SHA*/AES*) and pure setup (SSL_CTX_new/SSL_set_fd) are
340            // NOT here; `BIO_*` is skipped (a BIO may be memory or socket). Validated vs openssl 0.9 source.
341            const SSL_NET: &[&str] = &[
342                "connect", "accept", "do_handshake", "read", "read_ex", "write", "write_ex", "peek",
343                "peek_ex", "shutdown",
344            ];
345            return SSL_NET.contains(&op).then_some("Net");
346        }
347    }
348    // HTTP clients use the same builder pattern as the AWS SDK: only the dispatch is
349    // I/O. (Found by the eval: ebman's reqwest calls to the Anthropic API + webhooks
350    // were silently classified network-free because reqwest wasn't recognized.)
351    if crate_name == "reqwest" || crate_name == "isahc" {
352        // The dispatch (`::send`/`::execute`) is the I/O. PLUS the one-shot CONVENIENCE functions
353        // `reqwest::get` / `reqwest::blocking::get` / `isahc::get`, which send immediately — they're
354        // an EXACT match (not `Client::get`, the builder) to avoid false-positiving the builder path.
355        // (Found running on `xh`: a one-shot `reqwest::get(url)` was classified network-free.)
356        if path.ends_with("::send")
357            || path.ends_with("::execute")
358            || path == "reqwest::get"
359            || path == "reqwest::blocking::get"
360            || path == "isahc::get"
361        {
362            return Some("Net");
363        }
364        // THE URL-BEARING BUILDER METHODS: `Client::{get,post,put,delete,patch,head,request}(URL)`.
365        // Real code almost never uses `reqwest::get(url)`; the DOMINANT idiom is the builder chain
366        // `Client::new().post(url).send()` / `Client::builder().build()?.post(url).send()`. The `.send()`
367        // already classifies `Net` — but the URL literal rides the `.post(url)` call, NOT `.send()`, so
368        // without classifying the URL-naming step `Net` the endpoint is NEVER captured and the `Llm`
369        // host refinement can't fire (ebman's `api.anthropic.com` call read as bare Net, undisclosed as
370        // Llm — the dogfood silent under-report). Classifying these `Net` (idempotent with the eventual
371        // `.send()`) makes the scanner capture the URL from their string arg. `request(method, url)`'s
372        // url is its SECOND arg — the scanner's first-string-literal capture still gets it when the
373        // method is a literal string, and misses it (honest under-report) when the method is an
374        // expression. The pure builder surface (`::header`, `::json`, `::body`, `::query`, …) stays None.
375        if path.ends_with("::get")
376            || path.ends_with("::post")
377            || path.ends_with("::put")
378            || path.ends_with("::delete")
379            || path.ends_with("::patch")
380            || path.ends_with("::head")
381            || path.ends_with("::request")
382        {
383            return Some("Net");
384        }
385        return None;
386    }
387    if crate_name == "ureq" && path.ends_with("::call") {
388        return Some("Net");
389    }
390    // The `curl` crate (libcurl's safe binding — cargo's own HTTP client): the dispatch verbs are
391    // `perform` (Easy/Easy2/Transfer/Multi), raw-socket `send`/`recv`, the keepalive `upkeep`, and the
392    // multi-interface `action` (socket_action). The big setopt-style builder surface stays pure.
393    // `Multi::timeout` is deliberately NOT matched: `Easy::timeout` is a pure CURLOPT_TIMEOUT setter
394    // sharing the leaf — an under-report on the rare event-loop kick beats mis-tagging every consumer
395    // that sets a timeout. (Consumer-side companion to the curl_* FFI tier, same A/B finding.)
396    if crate_name == "curl"
397        && (path.ends_with("::perform")
398            || path.ends_with("::send")
399            || path.ends_with("::recv")
400            || path.ends_with("::upkeep")
401            || path.ends_with("::action"))
402    {
403        return Some("Net");
404    }
405    // The modern async-HTTP / TLS / QUIC / DNS stack — the LAYER reqwest/ureq/isahc build on, and that
406    // crates use DIRECTLY. Found by the independent-method differential on `oha` (2026-06-17): candor
407    // honestly DISCLOSED these as blind but never CLASSIFIED them, leaving real Net reaches uncovered.
408    // Verb-keyed (the pure type/builder/codec surface stays None) and CRATE-GATED, so generic verbs
409    // (request/connect/get/read/write/accept) never fabricate across unrelated crates. Same precision
410    // discipline as the reqwest/curl rules above; complements the scan_builder_entry_effect entries.
411    match crate_name {
412        // hyper 1.x client connection I/O (the builder/Body/Request types stay pure).
413        "hyper" if path.ends_with("::send_request") || path.ends_with("::handshake") => return Some("Net"),
414        // hyper-util's pooled legacy Client + its TCP connectors.
415        "hyper_util" if path.ends_with("::request") || path.ends_with("::connect") => return Some("Net"),
416        // hickory (trust-dns) resolver — issues DNS queries over the network.
417        "hickory_resolver"
418            if path.ends_with("::lookup_ip") || path.ends_with("::lookup") || path.ends_with("_lookup")
419                || path.ends_with("::resolve") => return Some("Net"),
420        // HTTP/3 over QUIC.
421        "h3" if path.ends_with("::send_request") || path.ends_with("::recv_data")
422            || path.ends_with("::recv_response") || path.ends_with("::send_data") => return Some("Net"),
423        // QUIC transport (UDP socket send/recv): connection setup, datagrams, AND the stream byte I/O
424        // (`RecvStream::read*` / `SendStream::write*` / `finish`). Opening a stream is caught above, but a
425        // fn that only HOLDS a stream and reads/writes it would otherwise read silent-pure (review: a Net
426        // under-report). Crate-gated to quinn, where these verbs are unambiguously the socket I/O.
427        "quinn" if path.ends_with("::connect") || path.ends_with("::accept") || path.ends_with("::open_bi")
428            || path.ends_with("::open_uni") || path.ends_with("::accept_bi") || path.ends_with("::accept_uni")
429            || path.ends_with("::send_datagram") || path.ends_with("::read_datagram")
430            || path.ends_with("::read") || path.ends_with("::read_chunk") || path.ends_with("::read_chunks")
431            || path.ends_with("::read_to_end") || path.ends_with("::write") || path.ends_with("::write_all")
432            || path.ends_with("::write_chunk") || path.ends_with("::write_chunks")
433            || path.ends_with("::finish") => return Some("Net"),
434        // TLS-over-TCP stream adapters — the actual socket handshake/I/O (the config/cert types stay pure).
435        "tokio_rustls" | "native_tls"
436            if path.ends_with("::connect") || path.ends_with("::accept") || path.ends_with("::handshake") =>
437            return Some("Net"),
438        // AF_VSOCK host<->guest sockets — inter-process / VM comms.
439        "tokio_vsock" if path.ends_with("::connect") || path.ends_with("::bind") || path.ends_with("::accept") =>
440            return Some("Ipc"),
441        // Loads the OS trust store from disk (cert files / keychain).
442        "rustls_native_certs" if path.ends_with("::load_native_certs") => return Some("Fs"),
443        // `rlimit` reads/mutates the process's kernel resource limits — the closest bucket is Env (host/
444        // process config); no dedicated process-state bucket exists, so getrlimit (read) and setrlimit
445        // (mutate) share it. NOTE: `num_cpus::get`/`get_physical` are deliberately NOT modeled — asking the
446        // OS for the CPU count is a near-pure topology query, and std's equivalent `thread::
447        // available_parallelism` classifies pure; modeling it as Env would spray Env over every thread-pool
448        // constructor (review: a high-noise over-report) for no capability a reviewer cares about.
449        "rlimit" if path.ends_with("::getrlimit") || path.ends_with("::setrlimit")
450            || path.ends_with("::increase_nofile_limit") => return Some("Env"),
451        // rustls — the SYNC TLS core (tokio_rustls/native_tls above are the async/system adapters). The
452        // record-layer I/O is `read_tls`/`write_tls` (pull/push raw bytes through a held `io::Read`/`Write`)
453        // and `complete_io` (loops them until the handshake/buffers drain). The config/cert/builder types
454        // (`ClientConfig`/`ServerConfig`/`ConfigBuilder`) are PURE. `process_new_packets` is deliberately
455        // EXCLUDED — it only decrypts ALREADY-buffered bytes (no socket touch; docs say call it AFTER
456        // read_tls), so flagging it would over-report Net on the pure decrypt step.
457        "rustls" if path.ends_with("::read_tls") || path.ends_with("::write_tls")
458            || path.ends_with("::complete_io") => return Some("Net"),
459        // native-tls under its alternate crate name + the tokio async wrapper (the `native_tls` arm above
460        // is the common name). The TLS handshake over a TcpStream is Net; the builder/cert types are pure.
461        "native_tls_crate" | "tokio_native_tls"
462            if path.ends_with("::connect") || path.ends_with("::accept")
463                || path.ends_with("::handshake") => return Some("Net"),
464        _ => {}
465    }
466    // Message-queue clients fully encapsulate the socket (the underlying tokio::net lives
467    // inside the crate, unseen), so a user's connect/publish/consume calls ARE the I/O
468    // boundary — to a remote broker, hence Net. Match the broker round-trip verbs (snake_case
469    // methods); the CamelCase option/property builders stay pure. (Found hardening on consumer
470    // apps: lapin `basic_publish`/`queue_declare` and async-nats `publish`/`subscribe` were
471    // classified pure — a message-queue client reporting no I/O.)
472    if crate_name == "async_nats" {
473        if path.ends_with("::connect")
474            || path.contains("::publish")
475            || path.ends_with("::subscribe")
476            || path.ends_with("::queue_subscribe")
477            || path.contains("::request")
478            || path.ends_with("::flush")
479        {
480            return Some("Net");
481        }
482        return None;
483    }
484    if crate_name == "lapin" {
485        if path.ends_with("::connect")
486            || path.ends_with("::create_channel")
487            || path.contains("::basic_")
488            || path.contains("::queue_")
489            || path.contains("::exchange_")
490            || path.contains("::tx_")
491            || path.ends_with("::confirm_select")
492            || path.ends_with("::close")
493        {
494            return Some("Net");
495        }
496        return None;
497    }
498    // SMTP email — lettre's `Transport::send` is the network dispatch; Message building is
499    // pure. (Found hardening on a lettre consumer: `mailer.send(&email)` classified pure.)
500    if crate_name == "lettre" {
501        if path.ends_with("::send") || path.ends_with("::send_raw") {
502            return Some("Net");
503        }
504        return None;
505    }
506    // WebSockets — tungstenite (the modern successor to the old `websocket` crate). connect
507    // and the socket read/write/send are network; Message constructors are pure. (Found on a
508    // tungstenite consumer: connect + send + read classified pure.)
509    if crate_name == "tungstenite" {
510        if path.ends_with("::connect")
511            || path.ends_with("::read")
512            || path.ends_with("::write")
513            || path.ends_with("::send")
514            || path.ends_with("::close")
515            || path.ends_with("::flush")
516            || path.ends_with("::read_message")
517            || path.ends_with("::write_message")
518        {
519            return Some("Net");
520        }
521        return None;
522    }
523    // elasticsearch: request builders are pure; only the `.send()` dispatch is HTTP I/O
524    // (same shape as reqwest / the AWS SDK). (Found on an elasticsearch consumer.)
525    if crate_name == "elasticsearch" && path.ends_with("::send") {
526        return Some("Net");
527    }
528    // gRPC — tonic. The transport connect and the Grpc client RPC dispatch are network;
529    // codecs and request/response wrappers are pure. (connect repro-confirmed on a consumer;
530    // the unary/streaming RPC verbs are from the tonic::client::Grpc API.)
531    if crate_name == "tonic" {
532        if path.ends_with("::connect")
533            || path.ends_with("::unary")
534            || path.ends_with("::server_streaming")
535            || path.ends_with("::client_streaming")
536            || path.ends_with("::streaming")
537        {
538            return Some("Net");
539        }
540        return None;
541    }
542    // Kafka — rdkafka (FFI to librdkafka). Producer send + consumer poll/recv/subscribe/
543    // commit are network round-trips to the brokers. (API-calibrated + unit-tested; a real
544    // repro needs librdkafka/cmake, deferred.)
545    if crate_name == "rdkafka" {
546        if path.ends_with("::send")
547            || path.ends_with("::send_result")
548            || path.ends_with("::recv")
549            || path.ends_with("::poll")
550            || path.ends_with("::subscribe")
551            || path.ends_with("::commit")
552            || path.ends_with("::commit_message")
553            || path.ends_with("::commit_consumer_state")
554            || path.ends_with("::store_offset")
555            || path.ends_with("::seek")
556            || path.ends_with("::fetch_metadata")
557            || path.ends_with("::fetch_watermarks")
558            || path.ends_with("::flush")
559        {
560            return Some("Net");
561        }
562        return None;
563    }
564    // cap-std: capability-oriented std. I/O goes *through* a held capability handle
565    // (Dir/Pool/Clock/...), so these calls ARE the effect. Recognising them means a
566    // cap-std project's real I/O is detected and matches the capability it declared
567    // (via `declared_caps`/`capstd_cap`) — conformance against unforgeable capabilities.
568    if crate_name.starts_with("cap_") {
569        if path.contains("::net::Unix") || path.contains("::os::") {
570            return Some("Ipc");
571        }
572        if path.contains("::net") {
573            return Some("Net");
574        }
575        if path.contains("::time") {
576            return Some("Clock");
577        }
578        if path.contains("::fs") || crate_name == "cap_tempfile" || crate_name == "cap_directories" {
579            return Some("Fs");
580        }
581        return None;
582    }
583    // Local IPC (Unix-domain sockets) is I/O but not *network* — keep it distinct so
584    // CANDOR_NO_AMBIENT and audits don't conflate it with internet access. async-std puts its
585    // Unix sockets under `os::unix::net` (mirroring std); async-net (smol's net layer) under
586    // `unix`.
587    if path.starts_with("tokio::net::Unix")
588        || path.starts_with("std::os::unix::net")
589        || path.starts_with("async_std::os::unix::net")
590        || path.starts_with("async_net::unix")
591    {
592        return Some("Ipc");
593    }
594    // Raw packet capture / raw sockets — libpnet (the dominant low-level networking crate; powers
595    // bandwhich, sniffers, custom-protocol tools). `datalink::channel` opens an L2 socket and
596    // `transport::transport_channel` an L3/L4 raw socket — both ARE network I/O. Packet construction
597    // (pnet_packet / pnet_base, MacAddr, Ethernet frames…) is pure and stays unclassified. The actual
598    // frame read/write happens via methods on the returned Sender/Receiver (trait-object dispatch the
599    // syntactic backend can't resolve), so the channel-open call is the precise Net boundary. (Found
600    // scanning bandwhich — a packet sniffer — which reported Net 0.)
601    if crate_name == "pnet" || crate_name == "pnet_datalink" || crate_name == "pnet_transport" {
602        if path.ends_with("::channel") || path.ends_with("::transport_channel") {
603            return Some("Net");
604        }
605        return None;
606    }
607    // Directory traversal — `ignore` (BurntSushi's gitignore-aware walker; powers ripgrep, fd). The walk
608    // EXECUTORS read the directory tree from disk = Fs. Type-precise on purpose: the configuration builders
609    // (`OverrideBuilder::build`, `GitignoreBuilder::build`, the `WalkBuilder` setters) and `DirEntry`
610    // accessors are PURE — only `WalkBuilder::build`/`build_parallel` (which kick off the walk) and
611    // `WalkParallel::run` (which drives it) touch the filesystem. A bare `build` would wrongly flag the
612    // config builders. (Found scanning fd — a file finder — which reported Fs 2: its own `fs::read_dir`
613    // was caught, but the `ignore`-based traversal that IS fd was invisible cross-crate.)
614    if crate_name == "ignore" {
615        if path == "ignore::WalkBuilder::build"
616            || path == "ignore::WalkBuilder::build_parallel"
617            || path.ends_with("::WalkParallel::run")
618            // `add_ignore(path)` LOOKS like a config setter but reads that ignore file from disk at call
619            // time (it returns the read error) — unlike the pure `add_custom_ignore_filename(name)` which
620            // only stores a filename string. The lone Fs-touching builder method in the otherwise-pure setter
621            // surface, so it was silently pure under the covered-crate floor.
622            || path == "ignore::WalkBuilder::add_ignore"
623        {
624            return Some("Fs");
625        }
626        return None;
627    }
628    // Filesystem watching — `notify` (the de-facto fs-watch crate: watchexec, cargo-watch, mdbook). A
629    // watcher opens an OS notification handle (inotify / FSEvents / kqueue / ReadDirectoryChanges) and
630    // registers paths — observing filesystem state changes = Fs. The lifecycle boundary: any
631    // `*Watcher::new` constructor (RecommendedWatcher/PollWatcher/INotifyWatcher/FsEventWatcher/…), the
632    // `recommended_watcher` convenience fn, and the `watch`/`unwatch` registration verbs. `Config`/`Event`/
633    // `EventKind` data types stay pure. (Found scanning watchexec: its watcher-`create` read Fs 0.)
634    if crate_name == "notify" {
635        if path.ends_with("Watcher::new")
636            || path.ends_with("::recommended_watcher")
637            || path.ends_with("::watch")
638            || path.ends_with("::unwatch")
639        {
640            return Some("Fs");
641        }
642        return None;
643    }
644    // std DNS resolution — `("host", 80).to_socket_addrs()` / `std::net::lookup_host("host")` perform a
645    // real getaddrinfo query (Net), but the classify table covered only the socket I/O *types*, so they
646    // floored silently (sweep [37]; the syntactic engine modelled DNS only at the libc layer).
647    if path.ends_with("::to_socket_addrs")
648        || path == "std::net::lookup_host"
649        || path.ends_with("ToSocketAddrs::to_socket_addrs")
650    {
651        return Some("Net");
652    }
653    // Raw sockets. Match the I/O *types* only — `std::net` also holds pure data types
654    // (SocketAddr, IpAddr, …) whose construction must NOT be flagged.
655    if path.starts_with("std::net::TcpStream")
656        || path.starts_with("std::net::TcpListener")
657        || path.starts_with("std::net::UdpSocket")
658        || path.starts_with("tokio::net::")
659    {
660        // …but the PURE accessors read back local/option state — no network I/O — so the whole-type Net
661        // rule fabricated Net on them (sweep [24], the precision failure; mirrors the arboard/memmap2 accessor
662        // carve-outs). local_addr/peer_addr return bound/connected addresses; nodelay/ttl/take_error read
663        // socket options/state. Every genuine verb (connect/read/write/send/recv/accept) stays Net.
664        if path.ends_with("::local_addr")
665            || path.ends_with("::peer_addr")
666            || path.ends_with("::nodelay")
667            || path.ends_with("::ttl")
668            || path.ends_with("::take_error")
669        {
670            return None;
671        }
672        return Some("Net");
673    }
674    // Legacy tokio 0.1 socket crates — `tokio_tcp`/`tokio_udp` are *entirely* networking
675    // (no pure types to over-flag), so the whole crate is Net. (Found hardening on websocat,
676    // which is still on tokio 0.1: its `tokio_tcp::TcpStream::connect` was classified
677    // network-free — a network tool confidently reporting 0 Net.)
678    if matches!(crate_name, "tokio_tcp" | "tokio_udp") {
679        return Some("Net");
680    }
681    // The other async runtimes mirror tokio's module layout, and their `net` modules hold only
682    // socket I/O types (the pure `SocketAddr`/`IpAddr` are re-exports that resolve to `std::net`,
683    // so they're excluded by def-path). `mio` is the low-level non-blocking-socket layer under
684    // tokio/others; `async_net` is smol's net crate. Closes the async-std/smol/mio gap the
685    // tokio_tcp note flagged. (Calibrated by module structure — these crates ARE networking — not
686    // a live repro; the TCP/UDP types are defined in-crate so the def-path prefix is exact.)
687    if path.starts_with("async_std::net::")
688        || path.starts_with("mio::net::")
689        || crate_name == "async_net"
690    {
691        return Some("Net");
692    }
693    // Database clients. Like the AWS/HTTP builders, only the execution verbs are I/O;
694    // query *construction* is pure. Best-effort across crates (tune via CANDOR_CONFIG).
695    // Note: bare `::query` is deliberately omitted — it executes in postgres/rusqlite but
696    // only *builds* in sqlx, so including it would false-positive sqlx's `query()` builder.
697    if DB_CRATES.contains(&crate_name) {
698        // Postgres / SQLite-family clients: `query`/`batch_execute`/`prepare`/etc. ARE the
699        // execution (round-trips to the server). sqlx is the outlier where bare `query()`
700        // only BUILDS — it keeps the narrow set below. (Found by running on a real
701        // tokio-postgres app, pgman: candor had reported only 4 of ~20 DB call sites.)
702        if matches!(crate_name, "postgres" | "tokio_postgres" | "deadpool_postgres" | "rusqlite") {
703            const PG: [&str; 19] = [
704                "::query", "::query_one", "::query_opt", "::query_raw", "::execute",
705                "::batch_execute", "::simple_query", "::prepare", "::prepare_typed",
706                "::copy_in", "::copy_out", "::transaction", "::connect",
707                // rusqlite's dialect of the same verbs (a verb-probe found the CANONICAL rusqlite
708                // consumer API classifying pure): `query_row` is the one-row read, `query_map`/
709                // `query_and_then` the many-row reads, `execute_batch` is rusqlite's name for
710                // batch_execute, `prepare_cached` round-trips like prepare. `query_typed` is
711                // tokio_postgres 0.7.10+.
712                "::query_row", "::query_map", "::query_and_then", "::execute_batch",
713                "::prepare_cached", "::query_typed",
714            ];
715            if PG.iter().any(|v| path.ends_with(v)) {
716                return Some("Db");
717            }
718            // rusqlite only: opening the database IS the connection establishment (`Connection::
719            // open`/`open_in_memory`/`open_with_flags` — the embedded analog of `::connect`).
720            if crate_name == "rusqlite"
721                && (path.ends_with("::open")
722                    || path.ends_with("::open_in_memory")
723                    || path.ends_with("::open_with_flags"))
724            {
725                return Some("Db");
726            }
727            return None;
728        }
729        // redis: the way redis is ACTUALLY used is the high-level `Commands`/`AsyncCommands`
730        // traits (`con.get`/`set`/`hset`/`lpush`/…) — every method is a round-trip — plus
731        // connection establishment. The shared VERBS below only catch the low-level
732        // `cmd("GET").query(con)`, so without this a normal redis user's calls classify as
733        // PURE. (Found hardening on redis-rs: a fn doing `con.get`/`set` reported no effects.)
734        if crate_name == "redis"
735            && (path.contains("Commands::")
736                || path.contains("::get_connection")
737                || path.contains("::get_async_connection")
738                || path.contains("::get_multiplexed_async_connection")
739                // a live `ConnectionManager` round-trips (Db), but `ConnectionManagerConfig` is a pure
740                // in-memory builder (set_number_of_retries/set_max_delay) — exclude it (adversarial review).
741                // `ConnectionManager::clone` is an Arc refcount bump — no Db round-trip (sweep [27]).
742                || (path.contains("ConnectionManager") && !path.contains("ConnectionManagerConfig")
743                    && !path.ends_with("::clone"))
744                || path.ends_with("::query")
745                || path.ends_with("::query_async")
746                || path.ends_with("::req_command")
747                || path.ends_with("::req_packed_command")
748                || path.ends_with("::req_packed_commands"))
749        {
750            return Some("Db");
751        }
752        // mongodb: a document-store API with none of the SQL verbs — the user calls
753        // `coll.find_one`/`insert_one`/`aggregate`/… and `Client::with_uri_str`. Without
754        // these a mongodb user's calls classify PURE. (Found hardening: a fn doing
755        // `find_one`+`insert_one` reported no effects.) Handle accessors (name/namespace)
756        // and option/doc builders don't match these verbs, so they stay pure.
757        if crate_name == "mongodb" {
758            const MONGO: [&str; 27] = [
759                "::with_uri_str", "::connect", "::find", "::find_one", "::insert_one",
760                "::insert_many", "::update_one", "::update_many", "::delete_one",
761                "::delete_many", "::replace_one", "::aggregate", "::count_documents",
762                "::estimated_document_count", "::count", "::distinct", "::run_command",
763                "::find_one_and_update", "::find_one_and_delete", "::find_one_and_replace",
764                "::list_collections", "::list_collection_names", "::list_databases",
765                "::list_database_names", "::create_collection", "::create_index", "::watch",
766            ];
767            if MONGO.iter().any(|v| path.ends_with(v)) {
768                return Some("Db");
769            }
770            return None;
771        }
772        // mysql / mysql_async: the `query`/`exec` families + `get_conn`/`ping` execute
773        // immediately — no build-then-execute split like sqlx, so matching `::query` is safe
774        // here. Same DB-verb-dialect gap class as redis/mongodb; calibrated from the Queryable
775        // API (unit-tested; a real-app repro is the remaining confirmation).
776        if matches!(crate_name, "mysql" | "mysql_async") {
777            const MY: [&str; 16] = [
778                "::query", "::query_first", "::query_iter", "::query_map", "::query_fold",
779                "::query_drop", "::exec", "::exec_first", "::exec_iter", "::exec_map",
780                "::exec_fold", "::exec_drop", "::exec_batch", "::prep", "::ping", "::get_conn",
781            ];
782            if MY.iter().any(|v| path.ends_with(v)) {
783                return Some("Db");
784            }
785            return None;
786        }
787        // sea_orm: an ORM whose execution is split from building (like sqlx). The query
788        // BUILDERS (`Entity::find`, `Entity::insert`) are pure; execution happens at `.all`/
789        // `.one`/`.count`/`.stream` and `Insert/Update/Delete::exec`. The write path via an
790        // ActiveModel (`model.insert(db)`) executes too — distinguished from the `EntityTrait`
791        // builder by the trait in the path (`ActiveModelTrait::`). (Found hardening on a
792        // sea_orm consumer app: `.all(db)` reads and `ActiveModel::insert` writes were pure.)
793        if crate_name == "sea_orm" {
794            // sea_orm RE-EXPORTS sea_query (`sea_orm::sea_query::…`), whose builder algebra collides with
795            // the execution verbs: `Func::count(col)` builds a COUNT() expr, `Condition::all()` AND-groups
796            // filters, `Expr::count(…)` — all PURE, none touch a db. The `::all`/`::count`/`::one` execution
797            // rule fabricated Db on them (sweep [5]). sea_query is pure query construction end-to-end, so
798            // exclude the whole re-exported namespace first.
799            if path.contains("sea_query") {
800                return None;
801            }
802            if path.ends_with("::all")
803                || path.ends_with("::one")
804                || path.ends_with("::count")
805                || path.ends_with("::stream")
806                || path.ends_with("::exec")
807                || path.ends_with("::exec_with_returning")
808                || path.ends_with("::exec_without_returning")
809                || path.ends_with("::connect")
810                || path.ends_with("::execute")
811                || path.ends_with("::execute_unprepared")
812                || path.ends_with("::query_one")
813                || path.ends_with("::query_all")
814                || path.ends_with("::fetch_page")
815                || path.ends_with("::num_items")
816                || path.contains("ActiveModelTrait::")
817            {
818                return Some("Db");
819            }
820            return None;
821        }
822        // (Reached by sqlx + diesel — the build-vs-execute-split crates.) `first` is diesel's
823        // LIMIT-1 round trip and `load_iter` its 2.x streaming execution; `fetch_many` is sqlx's
824        // multi-result stream. All crate-gated, so a std `Vec::first` never resolves here.
825        const VERBS: [&str; 19] = [
826            "::execute", "::query_row", "::query_map", "::query_one", "::fetch_one",
827            "::fetch_all", "::fetch_optional", "::fetch", "::fetch_many", "::connect",
828            "::acquire", "::begin", "::commit", "::rollback", "::load", "::load_iter",
829            "::first", "::get_result", "::get_results",
830        ];
831        if VERBS.iter().any(|v| path.ends_with(v)) {
832            return Some("Db");
833        }
834        return None;
835    }
836    // std::path::Path / PathBuf STAT-family methods hit the filesystem (each is a stat/readlink/
837    // readdir syscall) — unlike the rest of the std::path surface, which is pure string manipulation
838    // (join/file_name/extension/parent/…). Verb-precise so the scanner's receiver inference can safely
839    // route a `path.symlink_metadata()` method call here. (A blackout screen caught gix-dir — an entire
840    // directory WALKER — reporting ZERO Fs because all its I/O is Path-method calls; same class as
841    // fd's residual `Path::symlink_metadata` under-report.)
842    if let Some(m) = path
843        .strip_prefix("std::path::Path::")
844        .or_else(|| path.strip_prefix("std::path::PathBuf::"))
845    {
846        const STAT: &[&str] = &[
847            "metadata", "symlink_metadata", "canonicalize", "read_link", "read_dir", "exists",
848            "try_exists", "is_file", "is_dir", "is_symlink",
849        ];
850        return STAT.contains(&m).then_some("Fs");
851    }
852    // Filesystem. `tokio::fs`/`async_std::fs` are the async mirrors of `std::fs`; `async_fs` is
853    // smol's fs crate; `fs_err` is a drop-in `std::fs` wrapper (its whole surface is fs I/O).
854    if path.starts_with("std::fs::")
855        || path.starts_with("tokio::fs::")
856        || path.starts_with("async_std::fs::")
857        || crate_name == "async_fs"
858        || crate_name == "fs_err"
859    {
860        return Some("Fs");
861    }
862    // memmap2: only `MmapOptions::map*` (and the in-place `Mmap::flush`/`make_*` protection
863    // changes / `remap`) actually issue the mmap/msync/mprotect/mremap syscall = Fs. The rest of the
864    // crate is PURE: `MmapOptions::new`/setters BUILD the request, and once a region is mapped, reads
865    // over it (`Mmap::len`/`is_empty`/`as_ptr`/`as_mut_ptr`/`deref` into the byte slice) are plain
866    // memory access with no syscall. Whole-crate Fs fabricated Fs on those reads (a `m.len()` the
867    // scanner's receiver inference routes to `memmap2::Mmap::len`). Match the syscall-issuing verbs;
868    // everything else returns None (pure). `map*` covers `map`/`map_mut`/`map_exec`/`map_copy`/
869    // `map_copy_read_only`/`map_raw`/`map_raw_read_only`/`map_anon`.
870    if crate_name == "memmap2" {
871        let m = path.rsplit("::").next().unwrap_or(path);
872        if m.starts_with("map")
873            || m == "flush"
874            || m == "flush_async"
875            || m == "flush_range"
876            || m == "flush_async_range"
877            || m == "remap"
878            || m.starts_with("make_")
879            || m == "advise"
880            || m == "advise_range"
881            || m == "lock"
882            || m == "unlock"
883        {
884            return Some("Fs");
885        }
886        return None;
887    }
888    // tempfile: creating a temp file/dir touches the disk. Match the create/persist verbs (the
889    // `Builder` setters — prefix/suffix/rand_bytes — stay pure). `persist`/`keep` rename/retain
890    // the file on disk; `close` removes it.
891    if crate_name == "tempfile"
892        && (path.ends_with("::tempfile")
893            || path.ends_with("::tempfile_in")
894            || path.ends_with("::tempdir")
895            || path.ends_with("::tempdir_in")
896            || path.ends_with("NamedTempFile::new")
897            || path.ends_with("NamedTempFile::new_in")
898            || path.ends_with("TempDir::new")
899            || path.ends_with("TempDir::new_in")
900            || path.ends_with("::persist")
901            || path.ends_with("::persist_noclobber")
902            || path.ends_with("::keep"))
903    {
904        return Some("Fs");
905    }
906    // glob: walks the filesystem to expand a pattern (the returned iterator reads directories).
907    // `Pattern::matches` is pure string matching — match only the directory-walking entry points.
908    if crate_name == "glob" && (path.ends_with("::glob") || path.ends_with("::glob_with")) {
909        return Some("Fs");
910    }
911    // Password-hashing / KDF crates — the entropy tier (the TS engine's CTA lesson: an invisible
912    // argon2 landed on exactly the call a security review cares about). In this engine's
913    // verb-precise style the ENTROPY is the salt mint: `SaltString::generate(OsRng)` in the
914    // password-hash API family, and bcrypt's `hash`/`hash_with_result` (salt minted internally).
915    // Verification and explicit-salt hashing are deterministic recomputation — pure. `rand_core`
916    // carries the OsRng source itself (otherwise the most common salt mint is invisible).
917    if matches!(crate_name, "argon2" | "scrypt" | "pbkdf2" | "password_hash") {
918        if path.contains("SaltString::generate") {
919            return Some("Rand");
920        }
921        return None;
922    }
923    if crate_name == "bcrypt" {
924        if path.ends_with("::hash") || path.ends_with("::hash_with_result") {
925            return Some("Rand");
926        }
927        return None;
928    }
929    if crate_name == "rand_core" {
930        if path.contains("OsRng")
931            || path.ends_with("::next_u32")
932            || path.ends_with("::next_u64")
933            || path.ends_with("::fill_bytes")
934        {
935            return Some("Rand");
936        }
937        return None;
938    }
939    // Randomness / entropy. `getrandom`/`fastrand` are effectful end-to-end. `rand` is NOT — it
940    // mixes entropy/generation (effectful) with *pure* distribution constructors (`Uniform::new`,
941    // `Normal::new`) and deterministic-seed constructors (`seed_from_u64`). Flagging the whole crate
942    // over-reported those as `Rand`; match only the calls that actually consume randomness — the
943    // entropy sources (`OsRng`, `thread_rng`/`rng`, `from_entropy`/`from_os_rng`) and the generation
944    // verbs (`gen*`/`random*`/`fill*`/`sample*`/`next_u*`). A `Uniform::new` is now correctly pure.
945    if crate_name == "getrandom" {
946        return Some("Rand");
947    }
948    // fastrand: like `rand`, it mixes entropy-consuming generation (effectful) with PURE deterministic
949    // pieces. `Rng::with_seed(42)` is a DETERMINISTIC seeded constructor (consumes no entropy — the same
950    // seed gives the same stream), and `Rng::fork`/`Rng::clone` just split/copy existing state. Those are
951    // PURE; whole-crate Rand fabricated Rand on them. The effect is the value-drawing methods (`u32`/
952    // `usize`/`bool`/`f64`/`char`/`alphanumeric`/`choice`/`choose_multiple`/`shuffle`/`fill`/the range
953    // forms) AND the entropy-seeded entry points: bare `Rng::new()` (seeds from the global entropy-backed
954    // generator), `fastrand::seed`, and the top-level `fastrand::u32(..)` free functions (which draw from
955    // the thread-local generator). `with_seed` is exempted explicitly; any other method on an `Rng`
956    // (i.e. a value draw) is Rand.
957    if crate_name == "fastrand" {
958        let m = path.rsplit("::").next().unwrap_or(path);
959        // Provably pure: deterministic seeded ctor + state split/copy.
960        if m == "with_seed" || m == "fork" || m == "clone" {
961            return None;
962        }
963        // Everything else fastrand exposes either draws a value or seeds from entropy → Rand. (The crate
964        // has no pure data types beyond the `Rng` handle itself, so a non-draw stray would have to be a
965        // method we don't recognise — keep the effect, the safe direction.)
966        return Some("Rand");
967    }
968    if crate_name == "rand" {
969        let rng_verb = path.ends_with("::gen")
970            || path.ends_with("::gen_range")
971            || path.ends_with("::gen_bool")
972            || path.ends_with("::gen_ratio")
973            || path.ends_with("::random")
974            || path.ends_with("::random_range")
975            || path.ends_with("::random_bool")
976            || path.ends_with("::random_ratio")
977            || path.ends_with("::random_iter") // rand 0.9 iterator generator
978            || path.ends_with("::gen_iter")
979            || path.ends_with("::fill")
980            || path.ends_with("::fill_bytes")
981            || path.ends_with("::try_fill")
982            || path.ends_with("::try_fill_bytes")
983            || path.ends_with("::sample")
984            || path.ends_with("::sample_iter")
985            || path.ends_with("::next_u32")
986            || path.ends_with("::next_u64")
987            || path.ends_with("::thread_rng")
988            || path.ends_with("::rng")
989            || path.ends_with("::from_entropy")
990            || path.ends_with("::from_os_rng");
991        // `OsRng` is the OS entropy SOURCE, but `clone`/`fork`/`default` just copy or construct the
992        // (zero-sized) handle and draw no entropy — pure, exactly like the `fastrand` arm's clone/fork
993        // exemption above. The actual draws (`fill_bytes`/`next_u*`/…) are caught by `rng_verb`. Without
994        // this exemption the blanket `contains("OsRng")` fabricated `Rand` on `OsRng::clone` (adversarial
995        // review: OsRng is a unit struct, cloning consumes nothing).
996        let m = path.rsplit("::").next().unwrap_or(path);
997        let os_rng = path.contains("OsRng") && !matches!(m, "clone" | "fork" | "default");
998        if rng_verb || os_rng {
999            return Some("Rand");
1000        }
1001        return None;
1002    }
1003    // Subprocess spawning. `tokio::process` is the async mirror of `std::process` — it exists
1004    // only to spawn/control subprocesses (`Command`/`Child`, no pure data types like std's
1005    // `Stdio`/`ExitStatus`/`exit`), so spawning through it is Exec just the same. Without this an
1006    // async app's `tokio::process::Command::new(..).spawn()` classified pure — a silent under-report
1007    // of subprocess execution, the dangerous direction (mirrors the tokio::fs/tokio::net coverage).
1008    if path.starts_with("std::process::Command")
1009        || path.starts_with("std::process::Child")
1010        || path.starts_with("tokio::process::Command")
1011        || path.starts_with("tokio::process::Child")
1012        || path.starts_with("async_std::process::Command")
1013        || path.starts_with("async_std::process::Child")
1014    {
1015        // PURE read-backs of the builder's stored fields / the cached pid — no spawn, no syscall — so the
1016        // whole-type Exec rule fabricated Exec on them (sweep [23]; mirrors the portable_pty getter carve-
1017        // out just below). get_program/get_args/get_envs/get_current_dir read the Command; Child::id reads
1018        // the cached pid. Every genuine verb (new/spawn/output/status/wait/kill) stays Exec.
1019        if path.ends_with("::get_program")
1020            || path.ends_with("::get_args")
1021            || path.ends_with("::get_envs")
1022            || path.ends_with("::get_current_dir")
1023            || path.ends_with("Child::id")
1024        {
1025            return None;
1026        }
1027        return Some("Exec");
1028    }
1029    // portable_pty / async_process are whole-crate Exec EXCEPT for the proven-pure surface they expose:
1030    // the `CommandBuilder` GETTERS (`get_argv`/`get_cwd`/`get_env`/`as_unix_command_line`…) read back
1031    // configuration, and the PURE DATA types (`PtySize::default`, `ExitStatus`/`Stdio`/`CommandBuilder`
1032    // construction/setters). The earlier `is_cmd_naming_method` fix stopped the head-refinement LEAK, but
1033    // the BASE Exec still fabricated on these accessors (a `cmd.get_cwd()` the scanner routes to
1034    // `portable_pty::CommandBuilder::get_cwd`). Subtract the read-back getters and the obvious pure
1035    // ctors/setters; the spawn/wait/exec surface (`spawn_command`/`openpty`/`wait`/`kill`/`exec`…) keeps
1036    // Exec. SUBTRACT only what is provably pure — when unrecognised, KEEP Exec (the safe direction).
1037    if crate_name == "async_process" || crate_name == "portable_pty" {
1038        let m = path.rsplit("::").next().unwrap_or(path);
1039        // configuration read-back getters — pure (no spawn).
1040        if m.starts_with("get_") || m == "as_unix_command_line" {
1041            return None;
1042        }
1043        // pure data-type ctors/setters/derives that NAME no program and spawn nothing.
1044        if matches!(
1045            m,
1046            "default" | "new" | "piped" | "null" | "inherit" | "from_raw_fd"
1047                | "arg" | "args" | "arg0" | "env" | "envs" | "env_clear" | "env_remove"
1048                | "cwd" | "current_dir" | "rows" | "cols"
1049                | "clone" | "fmt" | "eq" | "ne" | "hash"
1050        ) {
1051            return None;
1052        }
1053        return Some("Exec");
1054    }
1055    // duct: a subprocess-orchestration crate. `cmd()`/`cmd!` only *build* an Expression; the
1056    // spawn/wait happens at `run`/`read`/`start`. Match the execution verbs, not the builder.
1057    if crate_name == "duct"
1058        && (path.ends_with("::run")
1059            || path.ends_with("::read")
1060            || path.ends_with("::start")
1061            || path.ends_with("::read_chars"))
1062    {
1063        return Some("Exec");
1064    }
1065    if path.starts_with("std::env::") {
1066        return Some("Env");
1067    }
1068    // dotenvy / dotenv: load environment variables (reading a `.env` file and mutating the process
1069    // environment). Match the load/read entry points; `Error`/builder types stay pure.
1070    if matches!(crate_name, "dotenvy" | "dotenv")
1071        && (path.ends_with("::dotenv")
1072            || path.ends_with("::dotenv_override")
1073            || path.ends_with("::from_path")
1074            || path.ends_with("::from_path_override")
1075            || path.ends_with("::from_filename")
1076            || path.ends_with("::from_filename_override")
1077            || path.ends_with("::from_read")
1078            || path.ends_with("::from_read_override")
1079            || path.ends_with("::load")
1080            || path.ends_with("::var")
1081            || path.ends_with("::vars"))
1082    {
1083        return Some("Env");
1084    }
1085    // Wall-clock reads. Match the `now` accessor precisely (ends_with), not any path
1086    // containing the substring "now". The `time` crate (distinct from `std::time`/`chrono`)
1087    // reads the clock via `now_utc`/`now_local` (and the deprecated `Instant::now`).
1088    if (crate_name == "chrono" || path.starts_with("std::time::")) && path.ends_with("::now") {
1089        return Some("Clock");
1090    }
1091    if crate_name == "time"
1092        && (path.ends_with("::now_utc") || path.ends_with("::now_local") || path.ends_with("::now"))
1093    {
1094        return Some("Clock");
1095    }
1096    // `tracing`: same principle as the `log` facade below — the crate's TYPES are pure data, so match
1097    // the emit, not the whole crate. The actual program output is the macro-expanded
1098    // `Subscriber::event`/`event!`/`Span::*enter*` dispatch and the `Span::new*`/`Span::record`
1099    // recording path that drives the subscriber. The data-type accessors — `Level::as_str`,
1100    // `Span::is_disabled`/`metadata`/`id`, and constructing/reading `Level`/`LevelFilter`/`Span`/
1101    // `Event`/`Metadata`/`Field`/`FieldSet`/`Id` — are PURE (no output is produced), so whole-crate Log
1102    // fabricated Log on them. Match the emit verbs; everything else returns None.
1103    if crate_name == "tracing" {
1104        let m = path.rsplit("::").next().unwrap_or(path);
1105        // The user-facing emit MACROS (`tracing::info!`/`warn!`/…) — candor-scan is pre-expansion, so it
1106        // sees the raw macro path `tracing::info`, not the expanded `__tracing`/`Subscriber::event` the
1107        // deep (post-expansion) engine sees. Only the macro names; the pure DATA types (Level/Span/Event)
1108        // have other tails and stay None.
1109        if m == "trace" || m == "debug" || m == "info" || m == "warn" || m == "error"
1110            || m == "trace_span" || m == "debug_span" || m == "info_span" || m == "warn_span"
1111            || m == "error_span" || m == "span"
1112            || m == "event"
1113            || m == "new_span"
1114            || m == "record"
1115            || m == "record_follows_from"
1116            || m == "enter"
1117            || m == "exit"
1118            || m == "in_scope"
1119            || m == "entered"
1120            || path.contains("::__macro_support")
1121            || path.contains("::__tracing")
1122            || path.contains("Subscriber::event")
1123            || path.contains("Subscriber::new_span")
1124            || path.contains("Subscriber::enter")
1125            || path.contains("Subscriber::exit")
1126        {
1127            return Some("Log");
1128        }
1129        return None;
1130    }
1131    // The `log` facade: its macros route through `log::__private_api`; the crate's types
1132    // (`Level`, `LevelFilter`) are pure, so match the logging entry, not the whole crate.
1133    if crate_name == "log" {
1134        // Expanded macro form (deep engine) OR the raw user-facing macro names (candor-scan, pre-expansion).
1135        // `log::Level`/`LevelFilter`/`Record`/`Metadata` have other tails, so the type surface stays pure.
1136        let m = path.rsplit("::").next().unwrap_or(path);
1137        if path.contains("::__private_api")
1138            || m == "error" || m == "warn" || m == "info" || m == "debug" || m == "trace" || m == "log"
1139        {
1140            return Some("Log");
1141        }
1142    }
1143    // Compiler diagnostic emission — the ONE genuinely effectful operation in the otherwise-pure
1144    // rustc_* surface (a dylint lint's actual OUTPUT: it writes warnings/errors to the compiler's
1145    // diagnostic sink). Classified `Log` (same family as `tracing`/`log` — program output). Match the
1146    // emission verbs precisely; rustc_lint/rustc_errors are mostly pure types (Lint, LintId, the Diag
1147    // BUILDERS), and only the terminal `emit`/`emit_span_lint` actually produces output.
1148    if crate_name == "rustc_lint"
1149        && (path.ends_with("::emit_span_lint")
1150            || path.ends_with("::span_lint")
1151            || path.ends_with("::span_lint_hir"))
1152    {
1153        return Some("Log");
1154    }
1155    if crate_name == "rustc_errors"
1156        && (path.ends_with("::emit")
1157            || path.ends_with("::emit_diagnostic")
1158            || path.ends_with("::emit_now"))
1159    {
1160        return Some("Log");
1161    }
1162    // arboard: the effectful surface is the `Clipboard` handle's read/write verbs (each talks to the
1163    // OS clipboard / X11/Wayland/Win32/NSPasteboard server). The data types — chiefly `arboard::Error`
1164    // (whose `Display`/`to_string` formatting is pure) and the `ImageData`/`GetExtLinux`/`SetExtLinux`
1165    // option types — are PURE, so whole-crate Clipboard fabricated Clipboard on e.g. an error
1166    // `to_string()`. Match the handle verbs; everything else returns None. `Clipboard::new` opens the
1167    // connection to the clipboard server, so it's an effect too; `get`/`set` return the
1168    // builder-then-read `Get`/`Set` cursors whose `text`/`image`/`html` terminals do the I/O.
1169    if crate_name == "arboard" {
1170        let m = path.rsplit("::").next().unwrap_or(path);
1171        if m == "new"
1172            || m == "get"
1173            || m == "set"
1174            || m == "clear"
1175            || m == "get_text"
1176            || m == "set_text"
1177            || m == "set_html"
1178            || m == "get_image"
1179            || m == "set_image"
1180            || m == "text"
1181            || m == "image"
1182            || m == "html"
1183        {
1184            return Some("Clipboard");
1185        }
1186        return None;
1187    }
1188    // ── Coverage-differential additions (calibrated against each crate's real API; see the per-crate
1189    //    notes). All verb-keyed + crate-gated, with the pure builder/config/data surface returning None.
1190
1191    // `etcetera` — XDG/known-folder base+app directory resolution. Each dir ACCESSOR reads the
1192    // environment at call time (`$HOME`/`$XDG_*` on Unix, `%APPDATA%`/`%LOCALAPPDATA%` on Windows), and
1193    // the `choose_*`/`home_dir` entry points read `$HOME`. The `AppStrategyArgs` data struct and the
1194    // strategy types themselves are PURE. (Found DISCLOSED-but-unmodeled in 3/4 differential projects.)
1195    if crate_name == "etcetera" {
1196        let m = path.rsplit("::").next().unwrap_or(path);
1197        if m == "home_dir"
1198            || m == "choose_base_strategy" || m == "choose_native_strategy" || m == "choose_app_strategy"
1199            || m == "config_dir" || m == "data_dir" || m == "cache_dir"
1200            || m == "state_dir" || m == "runtime_dir" || m == "data_local_dir"
1201        {
1202            return Some("Env");
1203        }
1204        return None;
1205    }
1206    // `sqlx-core` (crate `sqlx_core`) — the execution terminals under the sqlx core (the `sqlx` builder
1207    // table maps `sqlx::query*`; here it's the core `Executor`/`Connection`/`Pool` round-trips). Opening
1208    // the connection is the network boundary (Net); the query/transaction round-trips are Db. The
1209    // `*Options`/query-builder/row data types are PURE. Crate-gated so the generic verbs never spread.
1210    if crate_name == "sqlx_core" {
1211        if path.ends_with("::connect") || path.ends_with("::connect_with") {
1212            return Some("Net");
1213        }
1214        if path.ends_with("::fetch") || path.ends_with("::fetch_all") || path.ends_with("::fetch_one")
1215            || path.ends_with("::fetch_optional") || path.ends_with("::fetch_many")
1216            || path.ends_with("::execute") || path.ends_with("::execute_many")
1217            || path.ends_with("::prepare") || path.ends_with("::prepare_with")
1218            || path.ends_with("::acquire") || path.ends_with("::begin") || path.ends_with("::ping")
1219        {
1220            return Some("Db");
1221        }
1222        return None;
1223    }
1224    // `walkdir` — recursive directory traversal. The disk read (`read_dir` + `stat`) happens lazily in
1225    // `IntoIter::next` (driving the iterator), and `DirEntry::metadata` issues a `stat`. The
1226    // `WalkDir::new`/`max_depth`/`follow_links`/`sort_by` BUILDERS, `WalkDir::into_iter` (constructs the
1227    // iterator, no I/O until pulled), and the cached `DirEntry::path`/`file_name`/`file_type`/`depth`
1228    // accessors (`file_type` makes NO syscall) are PURE. (Companion to the already-modeled `ignore`.)
1229    if crate_name == "walkdir" {
1230        if path.ends_with("::IntoIter::next") || path.ends_with("::DirEntry::metadata") {
1231            return Some("Fs");
1232        }
1233        return None;
1234    }
1235    // `filetime` — file-timestamp mutation. The `set_*` free fns issue utimes/utimensat/futimens (Fs).
1236    // `FileTime::now` reads the system clock (Clock). The `FileTime::from_*`/`zero` value constructors
1237    // (incl. `from_last_modification_time(&Metadata)` etc., which read an ALREADY-loaded `&Metadata`, not
1238    // the disk) and the `seconds`/`nanoseconds` accessors are PURE.
1239    if crate_name == "filetime" {
1240        if path.ends_with("::set_file_mtime") || path.ends_with("::set_file_atime")
1241            || path.ends_with("::set_file_times") || path.ends_with("::set_symlink_file_times")
1242            || path.ends_with("::set_file_handle_times")
1243        {
1244            return Some("Fs");
1245        }
1246        if path.ends_with("::FileTime::now") {
1247            return Some("Clock");
1248        }
1249        return None;
1250    }
1251    // `execute` — the `Execute` trait that extends `std::process::Command` with run helpers. The
1252    // `execute*` verbs SPAWN a child process (Exec). The `execute::command`/`shell` free fns and the
1253    // `command!`/`command_args!` macros only BUILD a Command (no spawn) and stay PURE.
1254    if crate_name == "execute" {
1255        if path.contains("::execute") {
1256            return Some("Exec");
1257        }
1258        return None;
1259    }
1260    // `ctrlc` — installs an OS signal handler (Unix SIGINT/SIGTERM/SIGHUP, Windows CTRL_C_EVENT) and
1261    // spawns its handler thread. Signals are an inter-process control channel, so the closest bucket is
1262    // Ipc (candor has no dedicated Signal effect; same judgment as routing SysV/pipe IPC to Ipc).
1263    if crate_name == "ctrlc" {
1264        if path.ends_with("::set_handler") || path.ends_with("::try_set_handler") {
1265            return Some("Ipc");
1266        }
1267        return None;
1268    }
1269    // `clap` — argument parsing. ONLY the terminals that read `std::env::args_os` at call time are an
1270    // effect (Env): `get_matches`/`get_matches_mut`/`try_get_matches` and the derive `parse`/`try_parse`.
1271    // clap is MOSTLY PURE: the ENTIRE builder surface (`Command::new`/`arg`/`about`/`Arg::new`) stays
1272    // None, and crucially the `*_from`/`*_parse_from` variants take an EXPLICIT iterator (they do NOT
1273    // read argv) so they stay pure too. (`Arg::env` reads an env var at builder time but bare `::env` is
1274    // too generic to gate safely, so it's left unmodeled — under-report over fabrication.)
1275    if crate_name == "clap" {
1276        if path.ends_with("::get_matches") || path.ends_with("::get_matches_mut")
1277            || path.ends_with("::try_get_matches")
1278            || path.ends_with("::parse") || path.ends_with("::try_parse")
1279        {
1280            return Some("Env");
1281        }
1282        return None;
1283    }
1284    // `jiff` — date/time. `Timestamp::now`/`Zoned::now`/`Zoned::now_with` read the wall clock (Clock).
1285    // `tz::TimeZone::system`/`get` and `tz::db().get` read the system tzdb files from disk
1286    // (`/etc/localtime`, `/usr/share/zoneinfo`; `system` is also `$TZ`-overridable — Fs is the dominant
1287    // op, modeled as Fs). The `Span`/`civil` date math and `Timestamp`/`Zoned` arithmetic are PURE.
1288    if crate_name == "jiff" {
1289        if path.ends_with("::now") || path.ends_with("::now_with") {
1290            return Some("Clock");
1291        }
1292        if path.ends_with("::TimeZone::system") || path.ends_with("::TimeZone::get")
1293            || path.ends_with("::TimeZoneDatabase::get")
1294        {
1295            return Some("Fs");
1296        }
1297        return None;
1298    }
1299    // `env_logger` — installs the global logger and emits to stderr; reads `RUST_LOG`/`RUST_LOG_STYLE`.
1300    // The init terminals are the effect (Log — program output, same family as `log`/`tracing`). The
1301    // `Builder::new`/`build` and the format/filter/target config setters are PURE.
1302    if crate_name == "env_logger" {
1303        if path.ends_with("::init") || path.ends_with("::try_init")
1304            || path.ends_with("::init_from_env") || path.ends_with("::try_init_from_env")
1305        {
1306            return Some("Log");
1307        }
1308        return None;
1309    }
1310    // `dialoguer` — interactive terminal prompts. The `interact*` verbs read stdin + write the tty (a
1311    // console dialogue with the user — Ipc, like the other local-channel effects). The
1312    // `with_prompt`/`default`/`items`/`validate_with` BUILDERS are PURE.
1313    if crate_name == "dialoguer" {
1314        if path.ends_with("::interact") || path.ends_with("::interact_on")
1315            || path.ends_with("::interact_text") || path.ends_with("::interact_text_on")
1316            || path.ends_with("::interact_opt") || path.ends_with("::interact_on_opt")
1317        {
1318            return Some("Ipc");
1319        }
1320        return None;
1321    }
1322    // `console` — terminal handle + styling. The `Term` read/write verbs do tty I/O (Ipc, the user
1323    // dialogue channel; note there is NO `write_str` — `Term` impls `io::Write`). The free-fn terminal
1324    // detection (`colors_enabled`/`user_attended`) reads `CLICOLOR`/`CLICOLOR_FORCE` (Env). The `Style`
1325    // color/format methods and the text utils (`strip_ansi_codes`/`pad_str`/`measure_text_width`) are PURE.
1326    if crate_name == "console" {
1327        if path.ends_with("::write_line") || path.ends_with("::read_line")
1328            || path.ends_with("::read_line_initial_text") || path.ends_with("::read_char")
1329            || path.ends_with("::read_key") || path.ends_with("::read_key_raw")
1330            || path.ends_with("::read_secure_line")
1331        {
1332            return Some("Ipc");
1333        }
1334        if path.ends_with("::colors_enabled") || path.ends_with("::colors_enabled_stderr")
1335            || path.ends_with("::user_attended") || path.ends_with("::user_attended_stderr")
1336        {
1337            return Some("Env");
1338        }
1339        return None;
1340    }
1341    // `terminal_colorsaurus` — queries the terminal's colours by writing OSC 10/11 escapes and reading the
1342    // reply (bidirectional tty dialogue — Ipc, consistent with dialoguer/console). Nothing else is I/O.
1343    if crate_name == "terminal_colorsaurus" {
1344        if path.ends_with("::background_color") || path.ends_with("::foreground_color")
1345            || path.ends_with("::color_palette") || path.ends_with("::theme_mode")
1346        {
1347            return Some("Ipc");
1348        }
1349        return None;
1350    }
1351    // `backoff` — retry-with-backoff. `retry`/`retry_notify` consult the clock and `thread::sleep`
1352    // between attempts (Clock). The `ExponentialBackoff`/builder config is PURE. (The user closure's own
1353    // effects are out of scope here — we model only backoff's own Clock effect.)
1354    if crate_name == "backoff" {
1355        if path.ends_with("::retry") || path.ends_with("::retry_notify") {
1356            return Some("Clock");
1357        }
1358        return None;
1359    }
1360    // `lscolors` — LS_COLORS parsing. ONLY `from_env` reads the environment (Env). `from_string`/
1361    // `style_for_path`/`style_for*` and the `Style` type take explicit input and are PURE.
1362    if crate_name == "lscolors" {
1363        if path.ends_with("::from_env") {
1364            return Some("Env");
1365        }
1366        return None;
1367    }
1368    // `wild` — argv with glob expansion. `args`/`args_os` read `std::env::args(_os)` (Env). Nothing else.
1369    if crate_name == "wild" {
1370        if path.ends_with("::args") || path.ends_with("::args_os") {
1371            return Some("Env");
1372        }
1373        return None;
1374    }
1375    // `grep_cli` — only the firm effect is modeled: `CommandReaderBuilder::build` spawns a child process
1376    // (Exec). The `is_readable_stdin`/`is_tty_*` fd probes (isatty/fstat on the std descriptors) are
1377    // deliberately NOT modeled — candor doesn't classify `IsTerminal`/isatty as an effect anywhere, and
1378    // they read no data; flagging them would be an inconsistent over-report.
1379    if crate_name == "grep_cli" {
1380        if path.ends_with("::build") {
1381            return Some("Exec");
1382        }
1383        return None;
1384    }
1385    // `clircle` — detects whether two handles are the same file (cycle protection). `Identifier::try_from`
1386    // (File/Stdio) issues an `fstat`, and `surely_conflicts_with` does an `lseek` (`stream_position`) — both
1387    // Fs. The `PartialEq`/`Hash` comparisons read stored dev/ino and are PURE. (The named methods
1388    // `are_identical`/`same_file` do NOT exist in the crate — not modeled.)
1389    if crate_name == "clircle" {
1390        if path.ends_with("::try_from") || path.ends_with("::surely_conflicts_with") {
1391            return Some("Fs");
1392        }
1393        return None;
1394    }
1395    None
1396}
1397
1398pub fn cap_from_name(name: &str) -> Option<&'static str> {
1399    EFFECTS.iter().copied().find(|e| *e == name)
1400}
1401
1402/// Refine the `Exec` cliff (spec §4 ⟨0.5⟩): the effects a *literal, statically-known* subprocess
1403/// head implies, matched by basename (`/usr/bin/curl` → `curl`). The head's effects are ADDED to a
1404/// caller that already carries `Exec` (a subprocess is still spawned — `Exec` is never dropped); an
1405/// unrecognised or dynamically-built head returns `&[]` and keeps the bare cliff (never guess). A
1406/// **candor engine** reads `Fs`/`Env` only — spec §7 item 12 (the analyzer self-boundary) guarantees
1407/// that, so that case is spec-supplied, not curation. The rest is a small curated table under the
1408/// same under-report rule as the crate classifier. INVARIANT: every head here is an external tool
1409/// that does NOT run the analysed project's own code (so `make`/`npm`/`cargo` are deliberately
1410/// absent — they stay the cliff). The reference engines share this table so the `Exec` boundary —
1411/// the one boundary every engine hits — refines identically (the §4-consistency argument).
1412pub fn classify_command_head(cmd: &str) -> &'static [&'static str] {
1413    // Only UNAMBIGUOUS single-effect tools belong here. A multi-modal head (`git status` is local,
1414    // `git push` is Net; `rsync` local-vs-remote) would FABRICATE the effect for its common case —
1415    // the under-report rule forbids it, so such heads keep the bare cliff.
1416    match cmd.rsplit(['/', '\\']).next().unwrap_or(cmd) {
1417        "curl" | "wget" | "http" | "ssh" | "scp" | "sftp" | "ftp" | "telnet" => &["Net"],
1418        "psql" | "mysql" | "sqlite3" | "mongosh" | "mongo" | "redis-cli" | "cqlsh" | "influx" => &["Db"],
1419        // candor engines — Fs/Env only, guaranteed by spec §7 item 12 (the analyzer self-boundary)
1420        "candor" | "candor-run.sh" | "candor-scan" | "candor-query" | "candor-java"
1421        | "candor-classify" | "candor-report" | "cargo-candor" => &["Env", "Fs"],
1422        _ => &[],
1423    }
1424}
1425
1426/// Known machine-learning MODEL-provider hosts — the SPEC §1 ⟨0.13⟩ `Llm` host-literal refinement:
1427/// a statically-known `Net` request to one of these classifies `Llm` IN ADDITION to `Net` (Net is
1428/// never dropped — a model call IS network I/O, exactly as an `Exec`-refined subprocess keeps `Exec`),
1429/// just as a jdbc URL classifies `Db`. Matched by host, case-insensitive; a SUBDOMAIN of a listed host
1430/// counts. The reference engines share this table VERBATIM with candor-java's `Literals.MODEL_HOSTS`
1431/// (the analog of `classify_command_head`) so the `Net` boundary refines to `Llm` identically. An
1432/// UNKNOWN host stays bare `Net` — never guessed. Curated STARTER set; the §7 coverage ledger
1433/// discloses an uncovered provider like any other.
1434pub const MODEL_HOSTS: &[&str] = &[
1435    "api.openai.com",
1436    "api.anthropic.com",
1437    "generativelanguage.googleapis.com",
1438    "api.mistral.ai",
1439    "api.cohere.ai",
1440    "api.cohere.com",
1441    "api.groq.com",
1442    "api.together.xyz",
1443    "api.perplexity.ai",
1444    "openrouter.ai",
1445];
1446
1447/// Whether an endpoint HOST literal is a known model provider (case-insensitive; a subdomain of a
1448/// `MODEL_HOSTS` entry counts). Strips a `:port` suffix first. Two special forms carry their own rule,
1449/// matching candor-java's `Literals.isModelHost` exactly: any host whose port is `11434` is a local
1450/// Ollama endpoint (a LOOPBACK host — `localhost`/`127.0.0.1`/`::1` — on port 11434); and an AWS Bedrock
1451/// runtime host (the model-inference service label `bedrock-runtime`/`bedrock-agent-runtime`).
1452pub fn is_model_host(host_literal: &str) -> bool {
1453    // Strip any `:port` (via the shared host_part) and lowercase for the name comparisons.
1454    let host = policy::host_part(host_literal).to_ascii_lowercase();
1455    // Ollama is a LOCAL endpoint: :11434 → Llm ONLY on a loopback host (max-review r3 parity fix — "any
1456    // host on :11434" fabricated Llm on unrelated internal services on that port).
1457    if let Some((_, port)) = host_literal.rsplit_once(':') {
1458        if port == "11434" {
1459            return matches!(host.as_str(), "localhost" | "127.0.0.1" | "::1");
1460        }
1461    }
1462    if MODEL_HOSTS.contains(&host.as_str()) {
1463        return true;
1464    }
1465    // A subdomain of a known model host counts (`eu.api.openai.com` → api.openai.com).
1466    if MODEL_HOSTS.iter().any(|m| host.ends_with(&format!(".{m}"))) {
1467        return true;
1468    }
1469    // AWS Bedrock runtime: the FIRST label is the model-inference service (`bedrock-runtime.<region>.
1470    // amazonaws.com`), NOT the substring "bedrock" (which caught `bedrock-backups.s3.amazonaws.com`, an
1471    // S3 bucket) and NOT the control-plane `bedrock.<region>.amazonaws.com`.
1472    host.ends_with(".amazonaws.com")
1473        && matches!(host.split('.').next(), Some("bedrock-runtime") | Some("bedrock-agent-runtime"))
1474}
1475
1476/// Curated Rust model-provider SDK crates — the SPEC §1 ⟨0.13⟩ `Llm` model-SDK surface, the Rust analog
1477/// of candor-java's `Rules.MODEL_SDK_PACKAGES`. A resolved call into one of these crates classifies
1478/// `Llm` + `Net` (the caller adds both — a model dispatch IS network I/O). NO method-name gating: these
1479/// are single-purpose provider clients, so ANY call into the crate is a model dispatch (matches the java
1480/// reference's judgment call). Curated STARTER list; the §7 coverage ledger discloses the rest.
1481pub const MODEL_SDK_CRATES: &[&str] = &[
1482    "async_openai",           // async-openai — the de-facto OpenAI client
1483    "anthropic_sdk",          // anthropic-sdk
1484    "anthropic",              // anthropic (community client crate)
1485    "aws_sdk_bedrockruntime", // AWS Bedrock runtime (invoke/converse) — the model surface of the aws-sdk family
1486    "ollama_rs",              // ollama-rs — local Ollama client
1487    "langchain_rust",         // langchain-rust — the LangChain invoke surfaces
1488    "mistralai",              // mistralai (Mistral client)
1489    "genai",                  // genai — a multi-provider model client
1490];
1491
1492/// Whether a resolved call's CRATE is a curated model-provider SDK (`MODEL_SDK_CRATES`) → the SPEC §1
1493/// ⟨0.13⟩ `Llm` model-SDK classification (the caller adds both `Llm` and `Net`). Crate-level, no
1494/// method gating — a single-purpose client, matching candor-java's `isModelSdkOwner`.
1495pub fn is_model_sdk_crate(crate_name: &str) -> bool {
1496    MODEL_SDK_CRATES.contains(&crate_name)
1497}
1498
1499/// Whether a subprocess-builder method only MODIFIES the command (`.arg`, `.env`, `.current_dir`)
1500/// rather than NAMING the program (`Command::new`, `duct::cmd`). A WHOLE-CRATE-Exec crate
1501/// (`portable_pty`, `duct`, `async_process`) classifies *every* method as `Exec`, so the
1502/// head-refinement must skip these: an arg or env-var-name literal that happened to match a head
1503/// (`.env("psql", …)`, `.arg("curl")`) would FABRICATE that effect — the §1 under-report rule. The
1504/// method is the call path's last segment.
1505pub fn is_cmd_builder_method(method: &str) -> bool {
1506    matches!(
1507        method,
1508        "arg" | "args" | "arg0" | "env" | "envs" | "env_clear" | "env_remove" | "current_dir"
1509            | "cwd" | "stdin" | "stdout" | "stderr" | "pre_exec" | "creation_flags" | "uid" | "gid"
1510            | "groups" | "process_group"
1511    )
1512}
1513
1514/// Whether a subprocess method NAMES the program (so its first string literal IS the command head to
1515/// refine): `Command::new("curl")`, `duct::cmd("curl", …)`. The head-refinement must fire ONLY here —
1516/// an ALLOWLIST, not "any method except known modifiers". A whole-crate-Exec crate classifies EVERY
1517/// method as `Exec`, so a denylist leaked NON-naming methods that aren't modifiers — a getter like
1518/// `CommandBuilder::get_env("psql")` (reading back an env-var KEY, not a program) fed `"psql"` to the
1519/// head classifier and FABRICATED `Db` (review find). Only `new`/`cmd` name a program; everything else
1520/// (modifiers, getters `get_*`, custom builder methods) keeps the bare `Exec` cliff — under-refine
1521/// (safe) rather than fabricate. `std::process::Command` is verb-precise so getters never fire `Exec`
1522/// there anyway; the allowlist makes the whole-crate-Exec crates safe too.
1523pub fn is_cmd_naming_method(method: &str) -> bool {
1524    matches!(method, "new" | "cmd")
1525}
1526
1527/// The masking guard (AS-EFF-008): a Net call whose method takes the HOST/URL as an argument is
1528/// "establishing" — a classified Net call here with no captured host literal leaves the endpoint
1529/// structurally INVISIBLE (a runtime-built host), so the surface is incomplete and the gate must fail
1530/// closed (else a benign sibling literal masks the runtime endpoint). An ALLOWLIST of connection-
1531/// establishing verbs — the SAFE direction: a USE-verb on an already-connected socket
1532/// (`stream.write`/`read`/`flush`, `socket.send`/`recv`) is NOT here, so a missing literal there (the
1533/// host was fixed at `connect`) never false-positives. Under-catching an unusual establishing verb is a
1534/// missed mask (sound-with-disclosure), never a broken gate. The arg is the method (path's last segment).
1535pub fn is_net_establishing(method: &str) -> bool {
1536    matches!(
1537        method,
1538        "connect"
1539            | "connect_timeout"
1540            | "get"
1541            | "post"
1542            | "put"
1543            | "patch"
1544            | "delete"
1545            | "head"
1546            | "request"
1547            | "send_to"
1548            | "lookup_host"
1549            | "to_socket_addrs"
1550    )
1551}
1552
1553/// The masking guard (AS-EFF-008), the `Fs` analog of `is_net_establishing`: whether an `Fs`-classified
1554/// call takes the filesystem PATH as a string argument (so a missing literal leaves the path
1555/// structurally INVISIBLE — a runtime-built path — and the surface is incomplete, fail-closed). An
1556/// ALLOWLIST of the path-NAMING free functions / constructors (`fs::write`/`read`/`File::open`/…), the
1557/// SAFE direction: a path-stat METHOD whose path is the RECEIVER (`p.metadata()`, `p.exists()`) is
1558/// invoked method-form and the caller gates on `!is_method`, so this never sees it; an op on an
1559/// already-opened handle (`file.write_all`, `mmap.flush`, `tempfile()` — a random name, no path arg)
1560/// is not here, so a missing literal there never false-positives. Under-catching an unusual
1561/// path-naming fn is a missed mask (sound-with-disclosure), never a broken gate. The arg is the
1562/// method/fn leaf (the path's last segment).
1563pub fn is_fs_path_arg(leaf: &str) -> bool {
1564    matches!(
1565        leaf,
1566        // std::fs / tokio::fs / async_std::fs / fs_err free functions taking a path argument
1567        "write"
1568            | "read"
1569            | "read_to_string"
1570            | "read_dir"
1571            | "read_link"
1572            | "copy"
1573            | "rename"
1574            | "remove_file"
1575            | "remove_dir"
1576            | "remove_dir_all"
1577            | "create_dir"
1578            | "create_dir_all"
1579            | "hard_link"
1580            | "soft_link"
1581            | "symlink"
1582            | "symlink_file"
1583            | "symlink_dir"
1584            | "symlink_metadata"
1585            | "canonicalize"
1586            | "metadata"
1587            | "set_permissions"
1588            | "exists"
1589            | "try_exists"
1590            // File / OpenOptions constructors taking a path argument
1591            | "open"
1592            | "create"
1593            | "create_new"
1594    )
1595}
1596
1597/// The masking guard (AS-EFF-008), the `Db` analog of `is_net_establishing`: whether a `Db`-classified
1598/// call takes the raw SQL QUERY as a string argument (so a missing literal leaves the table
1599/// structurally INVISIBLE — a runtime-built query — and the surface is incomplete, fail-closed). An
1600/// ALLOWLIST of the SQL-string-bearing execution/prepare verbs, the SAFE direction: a
1601/// build-then-execute terminal that takes NO SQL string (sqlx/diesel/sea_orm `fetch*`/`load*`/`first`/
1602/// `all`/`one`/`stream`, the document-store `find*`/`insert*`/…), and a non-query op (`connect`/
1603/// `open`/`acquire`/`begin`/`commit`/`ping`/`get_conn`), are NOT here — their query is built
1604/// structurally (never a maskable string literal) so a missing literal must not false-positive.
1605/// Under-catching an unusual query verb is a missed mask (sound-with-disclosure), never a broken gate.
1606/// The arg is the method leaf (the path's last segment).
1607pub fn is_db_query_arg(leaf: &str) -> bool {
1608    matches!(
1609        leaf,
1610        "execute"
1611            | "execute_batch"
1612            | "execute_unprepared"
1613            | "batch_execute"
1614            | "simple_query"
1615            | "query"
1616            | "query_one"
1617            | "query_opt"
1618            | "query_raw"
1619            | "query_row"
1620            | "query_map"
1621            | "query_and_then"
1622            | "query_typed"
1623            | "query_all"
1624            | "prepare"
1625            | "prepare_typed"
1626            | "prepare_cached"
1627            | "exec"
1628            | "exec_first"
1629            | "exec_iter"
1630            | "exec_map"
1631            | "exec_fold"
1632            | "exec_drop"
1633            | "exec_batch"
1634            | "prep"
1635            | "run_command"
1636    )
1637}
1638
1639/// Map a cap-std capability *type* to the effect it authorises. Holding one of these
1640/// (e.g. `&Dir`) is the real, unforgeable right to perform that effect — so candor
1641/// treats it as a declared capability, exactly like its own `&Fs` token.
1642pub fn capstd_cap(crate_name: &str, type_name: &str) -> Option<&'static str> {
1643    if !crate_name.starts_with("cap_") {
1644        return None;
1645    }
1646    Some(match type_name {
1647        "Dir" => "Fs",
1648        "TcpListener" | "TcpStream" | "UdpSocket" | "Pool" => "Net",
1649        "UnixListener" | "UnixStream" | "UnixDatagram" => "Ipc",
1650        "SystemClock" | "MonotonicClock" => "Clock",
1651        _ => return None,
1652    })
1653}
1654
1655/// Table names a SQL string literal STATICALLY reaches — the `Db` analog of the `Net` host /
1656/// `Exec` command / `Fs` path literal surface (feeds `allow Db in <scope> <table>…`, AS-EFF-008).
1657/// Conservative by construction, because a wrong capture here would FABRICATE: the string must
1658/// open with a SQL statement keyword, and only identifiers in table position are taken —
1659/// `FROM`/`JOIN` anywhere, `INTO` anywhere, statement-leading `UPDATE`/`TRUNCATE`, and
1660/// `TABLE` (create/drop/alter), skipping `ONLY`/`IF NOT EXISTS`. `UPDATE` mid-statement is
1661/// deliberately ignored (`FOR UPDATE SKIP LOCKED` must not yield a table "skip"). A
1662/// dynamically-built query yields nothing — the gate's opaque case — never a guess.
1663/// Output is lower-cased, quote/backtick-stripped, `schema.table` kept qualified, deduped.
1664/// SPEC §2 pins this algorithm token-for-token across engines; the cross-impl vector battery
1665/// (candor-spec conformance/tables/vectors.json, run.sh Part 4b) enforces the JVM/TS mirrors.
1666pub fn tables_in_sql(sql: &str) -> Vec<String> {
1667    const STMT: &[&str] =
1668        &["select", "insert", "update", "delete", "create", "drop", "alter", "truncate", "merge", "replace", "with"];
1669    // Tokens that can FOLLOW a table-introducing keyword without being a table.
1670    const SKIP: &[&str] = &["only", "if", "not", "exists", "table"];
1671    // Identifier-position tokens that are grammar, not a table (subqueries, locking clauses…).
1672    const STOP: &[&str] = &[
1673        "select", "set", "where", "values", "on", "using", "group", "order", "by", "limit",
1674        "returning", "as", "inner", "outer", "left", "right", "cross", "lateral", "natural",
1675        "union", "all", "distinct", "case", "when", "null", "default", "skip", "nowait", "of",
1676        "from", "join", "into", "update", "delete", "insert",
1677    ];
1678    // `,` survives as its OWN token (not a space): it's what lets `FROM t1, t2` continue the table
1679    // list without fabricating from other comma-ridden positions (column lists, ON clauses).
1680    let cleaned: String = sql
1681        .to_lowercase()
1682        .chars()
1683        .flat_map(|c| match c {
1684            '(' | ')' | ';' => vec![' '],
1685            ',' => vec![' ', ',', ' '],
1686            _ => vec![c],
1687        })
1688        .collect();
1689    let toks: Vec<&str> = cleaned.split_whitespace().collect();
1690    let Some(first) = toks.first() else { return Vec::new() };
1691    if !STMT.contains(first) {
1692        return Vec::new(); // not SQL — nothing to certify, nothing fabricated
1693    }
1694    let ident = |t: &str| -> Option<String> {
1695        let t = t.trim_matches(|c| matches!(c, '"' | '`' | '\''));
1696        let mut chars = t.chars();
1697        let ok_first = chars.next().is_some_and(|c| c.is_ascii_alphabetic() || c == '_');
1698        let ok_rest = t.chars().all(|c| c.is_ascii_alphanumeric() || matches!(c, '_' | '.' | '$' | '"' | '`'));
1699        (ok_first && ok_rest && !STOP.contains(&t)).then(|| t.replace(['"', '`'], ""))
1700    };
1701    let mut out: Vec<String> = Vec::new();
1702    let mut push = |t: Option<String>| {
1703        if let Some(t) = t {
1704            if !out.contains(&t) {
1705                out.push(t);
1706            }
1707        }
1708    };
1709    for (i, tok) in toks.iter().enumerate() {
1710        let table_pos = match *tok {
1711            "from" | "join" | "into" | "table" => true,
1712            // statement-leading only (see doc comment): `update t set …`, `truncate [table] t`.
1713            "update" | "truncate" => i == 0,
1714            _ => false,
1715        };
1716        if !table_pos {
1717            continue;
1718        }
1719        let mut j = i + 1;
1720        while j < toks.len() && SKIP.contains(&toks[j]) {
1721            j += 1;
1722        }
1723        let Some(next) = toks.get(j) else { continue };
1724        let Some(first) = ident(next) else { continue };
1725        push(Some(first));
1726        // Comma-ADJACENT continuation only: `FROM t1, t2, t3` takes all three, while an alias breaks
1727        // the chain (`FROM t1 a, t2` keeps just t1 — an under-report, never a guess: skipping an
1728        // alias to chase the comma would fabricate tables out of `INSERT INTO t (a, b)`'s column
1729        // list, whose parens are spaces by the time we tokenize).
1730        while j + 2 < toks.len() && toks[j + 1] == "," {
1731            let Some(more) = ident(toks[j + 2]) else { break };
1732            push(Some(more));
1733            j += 2;
1734        }
1735    }
1736    out
1737}
1738
1739#[cfg(test)]
1740mod tests {
1741    #[test]
1742    fn model_host_recognizes_known_providers_and_special_forms() {
1743        use super::is_model_host as m;
1744        // exact known hosts (case-insensitive), with/without a port
1745        assert!(m("api.openai.com"));
1746        assert!(m("API.OpenAI.com"));
1747        assert!(m("api.anthropic.com:443"));
1748        assert!(m("generativelanguage.googleapis.com"));
1749        assert!(m("api.mistral.ai"));
1750        assert!(m("api.cohere.ai"));
1751        assert!(m("api.cohere.com")); // BOTH cohere hosts
1752        assert!(m("api.groq.com"));
1753        assert!(m("api.together.xyz"));
1754        assert!(m("api.perplexity.ai"));
1755        assert!(m("openrouter.ai"));
1756        // a subdomain of a known host counts
1757        assert!(m("eu.api.openai.com"));
1758        // Ollama: :11434 on a LOOPBACK host only (max-review r3 — a remote host on 11434 is not Ollama)
1759        assert!(m("localhost:11434"));
1760        assert!(m("127.0.0.1:11434"));
1761        assert!(!m("ollama.internal:11434")); // a remote/internal service on 11434 is NOT a model host
1762        // Bedrock: the FIRST label is the model-inference service, not the substring "bedrock"
1763        assert!(m("bedrock-runtime.us-east-1.amazonaws.com"));
1764        assert!(m("bedrock-runtime.eu-west-1.amazonaws.com"));
1765        assert!(m("bedrock-agent-runtime.us-east-1.amazonaws.com"));
1766        // NOT model hosts (never guessed)
1767        assert!(!m("example.com"));
1768        assert!(!m("api.stripe.com"));
1769        assert!(!m("localhost:8080")); // a non-Ollama local port
1770        assert!(!m("s3.us-east-1.amazonaws.com")); // amazonaws but not bedrock
1771        assert!(!m("bedrock-backups.s3.amazonaws.com")); // an S3 bucket merely NAMED bedrock — not the runtime
1772        assert!(!m("bedrock.us-east-1.amazonaws.com")); // the Bedrock CONTROL plane — not model inference
1773        assert!(!m("openai.com.evil.com")); // suffix trick — not a subdomain of a known host
1774    }
1775
1776    #[test]
1777    fn model_sdk_crate_is_crate_level_no_method_gating() {
1778        use super::is_model_sdk_crate as s;
1779        assert!(s("async_openai"));
1780        assert!(s("aws_sdk_bedrockruntime"));
1781        assert!(s("ollama_rs"));
1782        assert!(s("langchain_rust"));
1783        assert!(!s("reqwest"));
1784        assert!(!s("aws_sdk_s3"));
1785    }
1786
1787    #[test]
1788    fn sql_table_extraction_is_conservative() {
1789        use super::tables_in_sql as t;
1790        assert_eq!(t("SELECT id FROM users WHERE x = 1"), vec!["users"]);
1791        assert_eq!(t("select * from ledger.entries e join customers c on c.id = e.cid"),
1792                   vec!["ledger.entries", "customers"]);
1793        assert_eq!(t("INSERT INTO audit_log (a) VALUES (?1)"), vec!["audit_log"]);
1794        assert_eq!(t("UPDATE accounts SET v = ?"), vec!["accounts"]);
1795        assert_eq!(t("DELETE FROM sessions WHERE id = ?"), vec!["sessions"]);
1796        assert_eq!(t("CREATE TABLE IF NOT EXISTS cache (k TEXT)"), vec!["cache"]);
1797        assert_eq!(t("TRUNCATE TABLE staging"), vec!["staging"]);
1798        // FOR UPDATE locking clause must not yield a phantom table (mid-statement update ignored)
1799        assert_eq!(t("SELECT * FROM jobs FOR UPDATE SKIP LOCKED"), vec!["jobs"]);
1800        // a subquery in FROM position yields nothing for that position
1801        assert_eq!(t("SELECT * FROM (SELECT 1) q"), Vec::<String>::new());
1802        // not SQL -> nothing (never fabricate)
1803        assert_eq!(t("/tmp/some/path"), Vec::<String>::new());
1804        assert_eq!(t("hello world from nowhere"), Vec::<String>::new());
1805        // comma-ADJACENT continuation: a FROM list takes every table in the chain…
1806        assert_eq!(t("SELECT a FROM t1, t2, s.t3 WHERE x = 1"), vec!["t1", "t2", "s.t3"]);
1807        // …but an alias breaks it (under-report, never a guess)…
1808        assert_eq!(t("SELECT a FROM t1 a1, t2 WHERE x = 1"), vec!["t1"]);
1809        // …which is exactly what keeps a column list from fabricating (parens are spaces by now).
1810        assert_eq!(t("INSERT INTO t (a, b) VALUES (1, 2)"), vec!["t"]);
1811        // a subquery after the comma stops the chain too
1812        assert_eq!(t("SELECT a FROM t1, (SELECT 1) q"), vec!["t1"]);
1813    }
1814
1815    use super::*;
1816
1817    #[test]
1818    fn db_crates_are_calibrated() {
1819        // The calibrated set must cover every DB client the classifier knows, or the receipt's coverage
1820        // check would flag a recognized crate as a blind spot. (Was nightly-lint-only; now runs on stable.)
1821        for c in DB_CRATES {
1822            assert!(
1823                CALIBRATED_CRATES.contains(&c),
1824                "DB crate `{c}` is matched by classify() but missing from CALIBRATED_CRATES"
1825            );
1826        }
1827    }
1828
1829    #[test]
1830    fn calibrated_crates_are_live() {
1831        // Conversely, every crate advertised as calibrated must actually be matched by classify() for
1832        // some representative path — a dead entry would silently suppress a real coverage warning.
1833        for c in CALIBRATED_CRATES {
1834            assert!(
1835                CALIBRATION_PROBE_TAILS.iter().any(|t| classify(c, &format!("{c}{t}")).is_some()),
1836                "calibrated crate `{c}` is matched by no path in classify() — dead list entry"
1837            );
1838        }
1839    }
1840
1841    #[test]
1842    fn async_http_stack_classifies() {
1843        // The modern async-HTTP/TLS/QUIC/DNS stack (found by the independent-method differential on oha):
1844        // verb-keyed Net/Ipc/Fs/Env, crate-gated so generic verbs never fabricate across crates.
1845        assert_eq!(classify("hyper", "hyper::client::conn::http1::SendRequest::send_request"), Some("Net"));
1846        assert_eq!(classify("hyper", "hyper::client::conn::http1::handshake"), Some("Net"));
1847        assert_eq!(classify("hyper_util", "hyper_util::client::legacy::Client::request"), Some("Net"));
1848        assert_eq!(classify("hickory_resolver", "hickory_resolver::Resolver::lookup_ip"), Some("Net"));
1849        assert_eq!(classify("quinn", "quinn::Endpoint::connect"), Some("Net"));
1850        assert_eq!(classify("quinn", "quinn::RecvStream::read_to_end"), Some("Net")); // stream byte I/O, not just open
1851        assert_eq!(classify("quinn", "quinn::SendStream::write_all"), Some("Net"));
1852        assert_eq!(classify("tokio_rustls", "tokio_rustls::TlsConnector::connect"), Some("Net"));
1853        assert_eq!(classify("native_tls", "native_tls::TlsConnector::connect"), Some("Net"));
1854        assert_eq!(classify("tokio_vsock", "tokio_vsock::VsockStream::connect"), Some("Ipc"));
1855        assert_eq!(classify("rustls_native_certs", "rustls_native_certs::load_native_certs"), Some("Fs"));
1856        assert_eq!(classify("rlimit", "rlimit::setrlimit"), Some("Env"));
1857        // num_cpus is deliberately PURE (consistency with std::thread::available_parallelism; avoids Env spray)
1858        assert_eq!(classify("num_cpus", "num_cpus::get"), None);
1859        assert_eq!(classify("num_cpus", "num_cpus::get_physical"), None);
1860        // pure surface stays None (no fabrication): builder/type/config paths, and other crates' generic verbs
1861        assert_eq!(classify("hyper", "hyper::Request::builder"), None);
1862        assert_eq!(classify("hyper", "hyper::body::Bytes::new"), None);
1863        assert_eq!(classify("native_tls", "native_tls::TlsConnectorBuilder::min_protocol_version"), None);
1864        assert_eq!(classify("serde", "serde::Deserialize::request"), None); // generic verb, wrong crate
1865    }
1866
1867    #[test]
1868    fn coverage_differential_crates_classify() {
1869        // Crates the coverage differential found DISCLOSED-but-unmodeled. Each rule is verb-keyed +
1870        // crate-gated; the EFFECT verbs map to the right bucket and the PURE surface stays None (a
1871        // wrongly-flagged pure crate is a fabrication, so the negatives matter as much as the positives).
1872
1873        // rustls (sync TLS core) — record I/O is Net; config/cert + the buffered-decrypt step are pure.
1874        assert_eq!(classify("rustls", "rustls::ClientConnection::read_tls"), Some("Net"));
1875        assert_eq!(classify("rustls", "rustls::ConnectionCommon::write_tls"), Some("Net"));
1876        assert_eq!(classify("rustls", "rustls::Connection::complete_io"), Some("Net"));
1877        assert_eq!(classify("rustls", "rustls::ConnectionCommon::process_new_packets"), None); // buffered decrypt, no I/O
1878        assert_eq!(classify("rustls", "rustls::ClientConfig::builder"), None); // pure config
1879
1880        // native-tls variants — handshake is Net; builder is pure.
1881        assert_eq!(classify("native_tls_crate", "native_tls_crate::TlsConnector::connect"), Some("Net"));
1882        assert_eq!(classify("tokio_native_tls", "tokio_native_tls::TlsAcceptor::accept"), Some("Net"));
1883        assert_eq!(classify("native_tls_crate", "native_tls_crate::TlsConnectorBuilder::min_protocol_version"), None);
1884
1885        // etcetera — dir resolution reads env; the args data type is pure.
1886        assert_eq!(classify("etcetera", "etcetera::home_dir"), Some("Env"));
1887        assert_eq!(classify("etcetera", "etcetera::base_strategy::choose_base_strategy"), Some("Env"));
1888        assert_eq!(classify("etcetera", "etcetera::base_strategy::Xdg::config_dir"), Some("Env"));
1889        assert_eq!(classify("etcetera", "etcetera::app_strategy::AppStrategyArgs::new"), None); // pure data
1890
1891        // sqlx-core — connect is Net, execute/fetch round-trips are Db; options/builders pure.
1892        assert_eq!(classify("sqlx_core", "sqlx_core::connection::Connection::connect"), Some("Net"));
1893        assert_eq!(classify("sqlx_core", "sqlx_core::executor::Executor::fetch_one"), Some("Db"));
1894        assert_eq!(classify("sqlx_core", "sqlx_core::executor::Executor::execute"), Some("Db"));
1895        assert_eq!(classify("sqlx_core", "sqlx_core::pool::Pool::acquire"), Some("Db"));
1896        assert_eq!(classify("sqlx_core", "sqlx_core::pool::PoolOptions::max_connections"), None); // pure builder
1897
1898        // walkdir — the lazy read happens in next()/metadata(); builders + cached accessors pure.
1899        assert_eq!(classify("walkdir", "walkdir::IntoIter::next"), Some("Fs"));
1900        assert_eq!(classify("walkdir", "walkdir::DirEntry::metadata"), Some("Fs"));
1901        assert_eq!(classify("walkdir", "walkdir::WalkDir::new"), None); // builder
1902        assert_eq!(classify("walkdir", "walkdir::WalkDir::into_iter"), None); // no I/O until pulled
1903        assert_eq!(classify("walkdir", "walkdir::DirEntry::file_type"), None); // cached, no syscall
1904
1905        // filetime — set_* are utimes (Fs), now is Clock; from_* constructors pure.
1906        assert_eq!(classify("filetime", "filetime::set_file_mtime"), Some("Fs"));
1907        assert_eq!(classify("filetime", "filetime::set_file_handle_times"), Some("Fs"));
1908        assert_eq!(classify("filetime", "filetime::FileTime::now"), Some("Clock"));
1909        assert_eq!(classify("filetime", "filetime::FileTime::from_unix_time"), None);
1910        assert_eq!(classify("filetime", "filetime::FileTime::from_last_modification_time"), None); // reads &Metadata, not disk
1911
1912        // execute — the execute* verbs spawn (Exec); command/shell builders pure.
1913        assert_eq!(classify("execute", "execute::Execute::execute"), Some("Exec"));
1914        assert_eq!(classify("execute", "execute::Execute::execute_output"), Some("Exec"));
1915        assert_eq!(classify("execute", "execute::Execute::execute_multiple_output"), Some("Exec"));
1916        assert_eq!(classify("execute", "execute::command"), None); // only builds a Command
1917        assert_eq!(classify("execute", "execute::shell"), None);
1918
1919        // ctrlc — install signal handler (Ipc).
1920        assert_eq!(classify("ctrlc", "ctrlc::set_handler"), Some("Ipc"));
1921        assert_eq!(classify("ctrlc", "ctrlc::try_set_handler"), Some("Ipc"));
1922
1923        // clap — only the argv-reading terminals are Env; the whole builder + *_from variants pure.
1924        assert_eq!(classify("clap", "clap::Command::get_matches"), Some("Env"));
1925        assert_eq!(classify("clap", "clap::Command::try_get_matches"), Some("Env"));
1926        assert_eq!(classify("clap", "clap::Parser::parse"), Some("Env"));
1927        assert_eq!(classify("clap", "clap::Command::new"), None); // builder
1928        assert_eq!(classify("clap", "clap::Arg::about"), None); // builder
1929        assert_eq!(classify("clap", "clap::Command::get_matches_from"), None); // explicit args, no argv read
1930
1931        // jiff — now* is Clock; tz lookups read the tzdb (Fs); span/civil math pure.
1932        assert_eq!(classify("jiff", "jiff::Timestamp::now"), Some("Clock"));
1933        assert_eq!(classify("jiff", "jiff::Zoned::now_with"), Some("Clock"));
1934        assert_eq!(classify("jiff", "jiff::tz::TimeZone::system"), Some("Fs"));
1935        assert_eq!(classify("jiff", "jiff::tz::TimeZone::get"), Some("Fs"));
1936        assert_eq!(classify("jiff", "jiff::Span::checked_add"), None); // pure arithmetic
1937
1938        // env_logger — init installs the logger + reads RUST_LOG (Log); config setters pure.
1939        assert_eq!(classify("env_logger", "env_logger::init"), Some("Log"));
1940        assert_eq!(classify("env_logger", "env_logger::try_init"), Some("Log"));
1941        assert_eq!(classify("env_logger", "env_logger::Builder::init"), Some("Log"));
1942        assert_eq!(classify("env_logger", "env_logger::Builder::format_timestamp"), None); // config
1943        assert_eq!(classify("env_logger", "env_logger::Builder::build"), None); // pure build
1944
1945        // dialoguer — interact* is tty I/O (Ipc); builders pure.
1946        assert_eq!(classify("dialoguer", "dialoguer::Input::interact_text"), Some("Ipc"));
1947        assert_eq!(classify("dialoguer", "dialoguer::Confirm::interact"), Some("Ipc"));
1948        assert_eq!(classify("dialoguer", "dialoguer::Select::interact_opt"), Some("Ipc"));
1949        assert_eq!(classify("dialoguer", "dialoguer::Input::with_prompt"), None); // builder
1950
1951        // console — Term I/O is Ipc, detection is Env, Style is pure.
1952        assert_eq!(classify("console", "console::Term::write_line"), Some("Ipc"));
1953        assert_eq!(classify("console", "console::Term::read_key"), Some("Ipc"));
1954        assert_eq!(classify("console", "console::colors_enabled"), Some("Env"));
1955        assert_eq!(classify("console", "console::Style::cyan"), None); // pure styling
1956        assert_eq!(classify("console", "console::strip_ansi_codes"), None); // pure text util
1957
1958        // terminal_colorsaurus — tty colour query (Ipc).
1959        assert_eq!(classify("terminal_colorsaurus", "terminal_colorsaurus::background_color"), Some("Ipc"));
1960        assert_eq!(classify("terminal_colorsaurus", "terminal_colorsaurus::color_palette"), Some("Ipc"));
1961
1962        // backoff — retry sleeps + reads the clock (Clock); config pure.
1963        assert_eq!(classify("backoff", "backoff::retry"), Some("Clock"));
1964        assert_eq!(classify("backoff", "backoff::retry_notify"), Some("Clock"));
1965        assert_eq!(classify("backoff", "backoff::ExponentialBackoff::default"), None);
1966
1967        // lscolors — ONLY from_env reads the environment; from_string/style_for_path pure.
1968        assert_eq!(classify("lscolors", "lscolors::LsColors::from_env"), Some("Env"));
1969        assert_eq!(classify("lscolors", "lscolors::LsColors::from_string"), None);
1970        assert_eq!(classify("lscolors", "lscolors::LsColors::style_for_path"), None);
1971
1972        // wild — argv readers (Env).
1973        assert_eq!(classify("wild", "wild::args"), Some("Env"));
1974        assert_eq!(classify("wild", "wild::args_os"), Some("Env"));
1975
1976        // grep_cli — only the firm Exec (CommandReader spawn); the isatty probes stay unmodeled.
1977        assert_eq!(classify("grep_cli", "grep_cli::CommandReaderBuilder::build"), Some("Exec"));
1978        assert_eq!(classify("grep_cli", "grep_cli::is_readable_stdin"), None); // isatty/fstat, not modeled
1979        assert_eq!(classify("grep_cli", "grep_cli::is_tty_stdout"), None);
1980
1981        // clircle — same-file detection issues fstat/lseek (Fs); equality is pure.
1982        assert_eq!(classify("clircle", "clircle::Identifier::try_from"), Some("Fs"));
1983        assert_eq!(classify("clircle", "clircle::Clircle::surely_conflicts_with"), Some("Fs"));
1984    }
1985
1986    #[test]
1987    fn log_tracing_emit_macros_classify_pre_expansion() {
1988        // candor-scan is pre-expansion: it sees the raw macro path (`log::info`, `tracing::warn`), not the
1989        // expanded dispatch the deep engine sees. Both the user-facing macro names AND the type surface:
1990        assert_eq!(classify("log", "log::info"), Some("Log"));
1991        assert_eq!(classify("log", "log::error"), Some("Log"));
1992        assert_eq!(classify("tracing", "tracing::warn"), Some("Log"));
1993        assert_eq!(classify("tracing", "tracing::info_span"), Some("Log"));
1994        // pure data-type surface stays None (no fabricated Log)
1995        assert_eq!(classify("log", "log::Level::as_str"), None);
1996        assert_eq!(classify("tracing", "tracing::Level::INFO"), None);
1997    }
1998
1999    #[test]
2000    fn classify_core_effects() {
2001        // A representative smoke test of the classifier's main families, so the published crate is not
2002        // shipped untested (these used to live only in the nightly-only src/lib.rs).
2003        assert_eq!(classify("std", "std::fs::read_to_string"), Some("Fs"));
2004        // std::path stat-family methods are Fs (each is a stat/readdir syscall); the pure
2005        // string-manipulation surface stays unclassified (the blackout screen's gix-dir find).
2006        assert_eq!(classify("std", "std::path::Path::symlink_metadata"), Some("Fs"));
2007        assert_eq!(classify("std", "std::path::PathBuf::read_dir"), Some("Fs"));
2008        assert_eq!(classify("std", "std::path::Path::exists"), Some("Fs"));
2009        assert_eq!(classify("std", "std::path::Path::join"), None); // pure string manipulation
2010        assert_eq!(classify("std", "std::path::PathBuf::file_name"), None);
2011        assert_eq!(classify("std", "std::path::Path::parent"), None);
2012        assert_eq!(classify("std", "std::process::Command::new"), Some("Exec"));
2013        assert_eq!(classify("std", "std::env::var"), Some("Env"));
2014        assert_eq!(classify("reqwest", "reqwest::Client::execute"), Some("Net"));
2015        // one-shot convenience fns send immediately → Net.
2016        assert_eq!(classify("reqwest", "reqwest::get"), Some("Net"));
2017        assert_eq!(classify("reqwest", "reqwest::blocking::get"), Some("Net"));
2018        // the URL-BEARING builder methods classify Net too — the DOMINANT idiom is the builder chain
2019        // `Client::new().post(url).send()`, whose URL literal rides the `.post(url)` step (NOT `.send()`),
2020        // so the endpoint (and the Llm host refinement) only get captured if the URL-naming step is Net.
2021        assert_eq!(classify("reqwest", "reqwest::Client::get"), Some("Net"));
2022        assert_eq!(classify("reqwest", "reqwest::Client::post"), Some("Net"));
2023        assert_eq!(classify("reqwest", "reqwest::Client::put"), Some("Net"));
2024        assert_eq!(classify("reqwest", "reqwest::Client::delete"), Some("Net"));
2025        assert_eq!(classify("reqwest", "reqwest::Client::request"), Some("Net"));
2026        // the PURE builder surface stays None (no URL, no dispatch).
2027        assert_eq!(classify("reqwest", "reqwest::RequestBuilder::header"), None);
2028        assert_eq!(classify("reqwest", "reqwest::RequestBuilder::json"), None);
2029        assert_eq!(classify("reqwest", "reqwest::ClientBuilder::build"), None);
2030        // nix routes through the libc syscall table (same leaves): I/O classified, generic fd ops skipped.
2031        assert_eq!(classify("nix", "nix::fcntl::open"), Some("Fs"));
2032        assert_eq!(classify("nix", "nix::sys::socket::connect"), Some("Net"));
2033        assert_eq!(classify("nix", "nix::unistd::execvp"), Some("Exec"));
2034        assert_eq!(classify("nix", "nix::unistd::write"), None); // generic fd op — deliberately unclassified
2035        assert_eq!(classify("nix", "nix::unistd::getpid"), None); // not I/O
2036        // rustix does raw syscalls (no libc underneath) → classified directly by leaf, same table.
2037        assert_eq!(classify("rustix", "rustix::time::clock_settime"), Some("Clock"));
2038        assert_eq!(classify("rustix", "rustix::fs::symlink"), Some("Fs"));
2039        assert_eq!(classify("rustix", "rustix::net::connect"), Some("Net"));
2040        assert_eq!(classify("rustix", "rustix::io::read"), None); // generic fd op
2041        // pnet raw packet capture: channel openers are Net, packet construction stays pure.
2042        assert_eq!(classify("pnet", "pnet::datalink::channel"), Some("Net"));
2043        assert_eq!(classify("pnet", "pnet::transport::transport_channel"), Some("Net"));
2044        assert_eq!(classify("pnet_datalink", "pnet_datalink::channel"), Some("Net"));
2045        assert_eq!(classify("pnet", "pnet::packet::ethernet::EthernetPacket::new"), None);
2046        assert_eq!(classify("pnet_base", "pnet_base::MacAddr::new"), None);
2047        // ignore (gitignore-aware walker): walk executors are Fs, config builders stay pure.
2048        assert_eq!(classify("ignore", "ignore::WalkBuilder::build_parallel"), Some("Fs"));
2049        assert_eq!(classify("ignore", "ignore::WalkBuilder::build"), Some("Fs"));
2050        assert_eq!(classify("ignore", "ignore::WalkParallel::run"), Some("Fs"));
2051        assert_eq!(classify("ignore", "ignore::WalkBuilder::add_ignore"), Some("Fs")); // reads the ignore file
2052        assert_eq!(classify("ignore", "ignore::overrides::OverrideBuilder::build"), None); // pure config
2053        assert_eq!(classify("ignore", "ignore::gitignore::GitignoreBuilder::build"), None); // pure config
2054        assert_eq!(classify("ignore", "ignore::DirEntry::path"), None); // pure accessor
2055        // notify fs-watching: watcher constructors + watch/unwatch are Fs, data types stay pure.
2056        assert_eq!(classify("notify", "notify::RecommendedWatcher::new"), Some("Fs"));
2057        assert_eq!(classify("notify", "notify::PollWatcher::new"), Some("Fs"));
2058        assert_eq!(classify("notify", "notify::recommended_watcher"), Some("Fs"));
2059        assert_eq!(classify("notify", "notify::INotifyWatcher::watch"), Some("Fs"));
2060        assert_eq!(classify("notify", "notify::Config::default"), None); // pure config
2061        assert_eq!(classify("notify", "notify::Event::new"), None); // pure data type
2062        assert_eq!(classify("rusqlite", "rusqlite::Connection::execute"), Some("Db"));
2063        // the rusqlite verb DIALECT (a verb probe found the canonical consumer API classifying pure):
2064        assert_eq!(classify("rusqlite", "rusqlite::Connection::query_row"), Some("Db"));
2065        assert_eq!(classify("rusqlite", "rusqlite::Statement::query_map"), Some("Db"));
2066        assert_eq!(classify("rusqlite", "rusqlite::Connection::execute_batch"), Some("Db"));
2067        assert_eq!(classify("rusqlite", "rusqlite::Connection::prepare_cached"), Some("Db"));
2068        assert_eq!(classify("rusqlite", "rusqlite::Connection::open"), Some("Db"));
2069        assert_eq!(classify("rusqlite", "rusqlite::Connection::open_in_memory"), Some("Db"));
2070        // …but `open` stays rusqlite-only (postgres has no open; nothing else may borrow it):
2071        assert_eq!(classify("postgres", "postgres::Client::open"), None);
2072        assert_eq!(classify("tokio_postgres", "tokio_postgres::Client::query_typed"), Some("Db"));
2073        // diesel's LIMIT-1 + streaming executions; sqlx's multi-result stream:
2074        assert_eq!(classify("diesel", "diesel::RunQueryDsl::first"), Some("Db"));
2075        assert_eq!(classify("diesel", "diesel::RunQueryDsl::load_iter"), Some("Db"));
2076        assert_eq!(classify("sqlx", "sqlx::query::Query::fetch_many"), Some("Db"));
2077        // sqlx's bare `query()` builder must STAY pure (the original sqlx lesson):
2078        assert_eq!(classify("sqlx", "sqlx::query"), None);
2079        // tracing: the emit/span-lifecycle dispatch is Log; the pure DATA-type accessors are not
2080        // (whole-crate Log fabricated Log on `Level::as_str` / `Span::is_disabled` — the data types are
2081        // pure, same principle as the `log` facade).
2082        assert_eq!(classify("tracing", "tracing::event"), Some("Log"));
2083        assert_eq!(classify("tracing", "tracing::Span::new_span"), Some("Log"));
2084        assert_eq!(classify("tracing", "tracing::Span::record"), Some("Log"));
2085        assert_eq!(classify("tracing", "tracing::Span::enter"), Some("Log"));
2086        assert_eq!(classify("tracing", "tracing::Level::as_str"), None); // pure accessor
2087        assert_eq!(classify("tracing", "tracing::Span::is_disabled"), None); // pure state read
2088        assert_eq!(classify("tracing", "tracing::Span::metadata"), None); // pure accessor
2089        assert_eq!(classify("tracing", "tracing::metadata::Level::TRACE"), None); // pure data type
2090        assert_eq!(classify("tracing", "tracing::field::Field::name"), None); // pure data type
2091        // memmap2: only the syscall-issuing map/flush/protect verbs are Fs; reads over an already-mapped
2092        // region (len/as_ptr/is_empty) and the request builder are PURE (whole-crate Fs fabricated Fs).
2093        assert_eq!(classify("memmap2", "memmap2::MmapOptions::map"), Some("Fs"));
2094        assert_eq!(classify("memmap2", "memmap2::MmapOptions::map_mut"), Some("Fs"));
2095        assert_eq!(classify("memmap2", "memmap2::Mmap::flush"), Some("Fs"));
2096        assert_eq!(classify("memmap2", "memmap2::MmapMut::make_read_only"), Some("Fs"));
2097        assert_eq!(classify("memmap2", "memmap2::Mmap::len"), None); // length read — pure
2098        assert_eq!(classify("memmap2", "memmap2::Mmap::is_empty"), None); // pure
2099        assert_eq!(classify("memmap2", "memmap2::Mmap::as_ptr"), None); // pointer — pure
2100        assert_eq!(classify("memmap2", "memmap2::MmapOptions::new"), None); // request builder — pure
2101        // arboard: the Clipboard handle's read/write verbs are Clipboard; `arboard::Error` formatting
2102        // and option data types are PURE (whole-crate Clipboard fabricated Clipboard on `Error::to_string`).
2103        assert_eq!(classify("arboard", "arboard::Clipboard::new"), Some("Clipboard"));
2104        assert_eq!(classify("arboard", "arboard::Clipboard::get_text"), Some("Clipboard"));
2105        assert_eq!(classify("arboard", "arboard::Clipboard::set_text"), Some("Clipboard"));
2106        assert_eq!(classify("arboard", "arboard::Clipboard::clear"), Some("Clipboard"));
2107        assert_eq!(classify("arboard", "arboard::Error::to_string"), None); // error formatting — pure
2108        assert_eq!(classify("arboard", "arboard::Error::fmt"), None); // Display impl — pure
2109        assert_eq!(classify("arboard", "arboard::ImageData::to_owned_img"), None); // pure data type
2110        // fastrand: value draws + entropy-seeded entry points are Rand; the DETERMINISTIC seeded ctor
2111        // `with_seed` and state split/copy (`fork`/`clone`) are PURE (whole-crate Rand fabricated Rand).
2112        assert_eq!(classify("fastrand", "fastrand::u32"), Some("Rand")); // top-level draw
2113        assert_eq!(classify("fastrand", "fastrand::Rng::usize"), Some("Rand"));
2114        assert_eq!(classify("fastrand", "fastrand::Rng::shuffle"), Some("Rand"));
2115        assert_eq!(classify("fastrand", "fastrand::Rng::new"), Some("Rand")); // entropy-seeded
2116        assert_eq!(classify("fastrand", "fastrand::Rng::with_seed"), None); // deterministic ctor — pure
2117        assert_eq!(classify("fastrand", "fastrand::Rng::fork"), None); // state split — pure
2118        assert_eq!(classify("fastrand", "fastrand::Rng::clone"), None); // state copy — pure
2119        // portable_pty / async_process: spawn/wait keep Exec; config GETTERS and pure data ctors/setters
2120        // do NOT (base Exec fabricated on `CommandBuilder::get_cwd` / `PtySize::default` / `Stdio::piped`).
2121        assert_eq!(classify("portable_pty", "portable_pty::PtySystem::openpty"), Some("Exec"));
2122        assert_eq!(classify("portable_pty", "portable_pty::SlavePty::spawn_command"), Some("Exec"));
2123        assert_eq!(classify("portable_pty", "portable_pty::CommandBuilder::get_argv"), None); // getter
2124        assert_eq!(classify("portable_pty", "portable_pty::CommandBuilder::get_cwd"), None); // getter
2125        assert_eq!(classify("portable_pty", "portable_pty::PtySize::default"), None); // pure data type
2126        assert_eq!(classify("portable_pty", "portable_pty::CommandBuilder::new"), None); // builder ctor
2127        assert_eq!(classify("async_process", "async_process::Command::spawn"), Some("Exec"));
2128        assert_eq!(classify("async_process", "async_process::Command::output"), Some("Exec"));
2129        assert_eq!(classify("async_process", "async_process::Stdio::piped"), None); // pure data type
2130        assert_eq!(classify("async_process", "async_process::Stdio::null"), None); // pure data type
2131        // FFI tiers (matched by distinctive leaf, alias-independent)
2132        assert_eq!(classify("libc", "libc::open"), Some("Fs"));
2133        assert_eq!(classify("libc", "libc::connect"), Some("Net"));
2134        assert_eq!(classify("libc", "libc::read"), None); // generic fd op — deliberately unclassified
2135        assert_eq!(classify("ffi", "ffi::sqlite3_step"), Some("Db"));
2136        assert_eq!(classify("raw", "raw::git_remote_fetch"), Some("Net"));
2137        // libgit2 clone + submodule clone/update fetch over the network (an A/B on git2 0.20 caught
2138        // `Submodule::update`/`clone` and `Repository::clone` reporting no Net — the latter because the
2139        // `src/build.rs` module was being dropped as if it were the Cargo build script).
2140        assert_eq!(classify("raw", "raw::git_clone"), Some("Net"));
2141        assert_eq!(classify("raw", "raw::git_submodule_clone"), Some("Net"));
2142        assert_eq!(classify("raw", "raw::git_submodule_update"), Some("Net"));
2143        assert_eq!(classify("raw", "raw::git_submodule_open"), None); // local subrepo open — not Net
2144        // libcurl: the transfer/raw-socket entry points are Net (an A/B on curl 0.4 caught the whole
2145        // crate reporting ZERO Net); the big setopt/init/getinfo surface — and the readiness-wait
2146        // multi_wait/poll — stay unclassified (the loop's perform is the boundary).
2147        assert_eq!(classify("curl_sys", "curl_sys::curl_easy_perform"), Some("Net"));
2148        assert_eq!(classify("curl_sys", "curl_sys::curl_easy_send"), Some("Net"));
2149        assert_eq!(classify("curl_sys", "curl_sys::curl_multi_perform"), Some("Net"));
2150        assert_eq!(classify("curl_sys", "curl_sys::curl_multi_socket_action"), Some("Net"));
2151        assert_eq!(classify("curl_sys", "curl_sys::curl_easy_setopt"), None); // in-memory option write
2152        assert_eq!(classify("curl_sys", "curl_sys::curl_easy_init"), None); // handle alloc
2153        assert_eq!(classify("curl_sys", "curl_sys::curl_multi_wait"), None); // readiness wait, no payload
2154        // consumer-side `curl` crate rule: the dispatch verbs are Net, the setopt builders pure.
2155        assert_eq!(classify("curl", "curl::easy::Easy::perform"), Some("Net"));
2156        assert_eq!(classify("curl", "curl::multi::Multi::perform"), Some("Net"));
2157        assert_eq!(classify("curl", "curl::easy::Easy::send"), Some("Net"));
2158        assert_eq!(classify("curl", "curl::easy::Easy::url"), None); // CURLOPT setter — pure
2159        assert_eq!(classify("curl", "curl::easy::Easy::timeout"), None); // pure setter; Multi::timeout under-reported by design
2160        assert_eq!(classify("ffi", "ffi::SSL_connect"), Some("Net"));
2161        // pure crates stay pure
2162        assert_eq!(classify("serde", "serde::Serialize::serialize"), None);
2163        assert_eq!(classify("std", "std::vec::Vec::push"), None);
2164
2165        // ── sweep 2026-06-17: fabrication carve-outs + DNS coverage (each fails pre-fix) ──
2166        // [24] std::net socket accessors are pure; the I/O verbs stay Net.
2167        assert_eq!(classify("std", "std::net::TcpStream::connect"), Some("Net"));
2168        assert_eq!(classify("std", "std::net::TcpStream::local_addr"), None);
2169        assert_eq!(classify("std", "std::net::TcpStream::nodelay"), None);
2170        assert_eq!(classify("std", "std::net::TcpStream::ttl"), None);
2171        assert_eq!(classify("std", "std::net::UdpSocket::peer_addr"), None);
2172        // [37] std DNS resolution is Net (was floored).
2173        assert_eq!(classify("std", "std::net::lookup_host"), Some("Net"));
2174        assert_eq!(classify("std", "core::net::ToSocketAddrs::to_socket_addrs"), Some("Net"));
2175        // [23] std::process getters are pure; spawn/new stay Exec.
2176        assert_eq!(classify("std", "std::process::Command::get_program"), None);
2177        assert_eq!(classify("std", "std::process::Command::get_args"), None);
2178        assert_eq!(classify("std", "std::process::Child::id"), None);
2179        assert_eq!(classify("std", "std::process::Command::spawn"), Some("Exec"));
2180        // [27] redis ConnectionManager::clone is an Arc bump (pure); a query round-trips.
2181        assert_eq!(classify("redis", "redis::aio::ConnectionManager::clone"), None);
2182        assert_eq!(classify("redis", "redis::aio::ConnectionManager::send_packed_command"), Some("Db"));
2183        // [5] sea_orm re-exported sea_query builder algebra is pure; execution verbs stay Db.
2184        assert_eq!(classify("sea_orm", "sea_orm::sea_query::Func::count"), None);
2185        assert_eq!(classify("sea_orm", "sea_orm::sea_query::Condition::all"), None);
2186        assert_eq!(classify("sea_orm", "sea_orm::Select::all"), Some("Db"));
2187    }
2188
2189    #[test]
2190    fn rand_osrng_handle_ops_are_pure_but_draws_are_rand() {
2191        // Adversarial-review fabrication: the blanket `contains("OsRng")` tagged `OsRng::clone` Rand,
2192        // but OsRng is a unit struct — clone/fork/default draw no entropy. The real draws still fire.
2193        assert_eq!(classify("rand", "rand::rngs::OsRng::clone"), None);
2194        assert_eq!(classify("rand", "rand::rngs::OsRng::default"), None);
2195        assert_eq!(classify("rand", "rand::rngs::OsRng::fill_bytes"), Some("Rand")); // a real draw
2196        assert_eq!(classify("rand", "rand::rngs::OsRng::next_u32"), Some("Rand"));
2197        assert_eq!(classify("rand", "rand::Rng::gen"), Some("Rand")); // verb path unaffected
2198        assert_eq!(classify("rand", "rand::distributions::Uniform::new"), None); // pure ctor still pure
2199    }
2200
2201    #[test]
2202    fn redis_connection_manager_config_builder_is_pure() {
2203        // Adversarial-review fabrication: `contains("ConnectionManager")` hit the pure *Config* builder.
2204        assert_eq!(classify("redis", "redis::aio::ConnectionManagerConfig::new"), None);
2205        assert_eq!(classify("redis", "redis::aio::ConnectionManagerConfig::set_max_delay"), None);
2206        // the LIVE manager still round-trips (Db).
2207        assert_eq!(classify("redis", "redis::aio::ConnectionManager::new"), Some("Db"));
2208        assert_eq!(classify("redis", "redis::Commands::get"), Some("Db"));
2209    }
2210
2211    #[test]
2212    fn pure_fd_transfer_is_not_an_effect() {
2213        // ADOPTING / EXTRACTING / BORROWING an already-open descriptor (or unwrapping an async type back
2214        // to its std type) issues NO syscall — it must be PURE even though it hangs off a std I/O type
2215        // whose prefix rule would otherwise fire Net/Fs/Ipc. (Real tokio sweep: `into_std`, `from_raw_fd`,
2216        // `as_raw_fd` all fabricated effects.)
2217        assert_eq!(classify("std", "std::net::TcpStream::from_raw_fd"), None);
2218        assert_eq!(classify("std", "std::net::TcpStream::into_raw_fd"), None);
2219        assert_eq!(classify("std", "std::net::TcpStream::as_raw_fd"), None);
2220        assert_eq!(classify("std", "std::net::TcpListener::from_raw_fd"), None);
2221        assert_eq!(classify("std", "std::net::UdpSocket::from_raw_socket"), None);
2222        assert_eq!(classify("std", "std::fs::File::from_raw_fd"), None);
2223        assert_eq!(classify("std", "std::fs::File::into_raw_fd"), None);
2224        assert_eq!(classify("std", "std::fs::File::as_raw_handle"), None);
2225        assert_eq!(classify("std", "std::os::unix::net::UnixStream::from_raw_fd"), None);
2226        // `SocketAddr::from_pathname` builds an address struct, opens no socket — pure. (socket2 sweep.)
2227        assert_eq!(classify("std", "std::os::unix::net::SocketAddr::from_pathname"), None);
2228        assert_eq!(classify("tokio", "tokio::net::TcpStream::from_raw_fd"), None);
2229        assert_eq!(classify("tokio", "tokio::net::TcpStream::into_std"), None); // unwrap → std type, pure
2230        assert_eq!(classify("tokio", "tokio::fs::File::into_std"), None);
2231        // …but a REAL open/connect on the SAME types still fires the effect — the carve-out is leaf-precise.
2232        assert_eq!(classify("std", "std::net::TcpStream::connect"), Some("Net"));
2233        assert_eq!(classify("std", "std::fs::File::open"), Some("Fs"));
2234        assert_eq!(classify("std", "std::fs::read"), Some("Fs"));
2235        assert_eq!(classify("std", "std::os::unix::net::UnixStream::connect"), Some("Ipc"));
2236        assert_eq!(classify("tokio", "tokio::net::TcpStream::connect"), Some("Net"));
2237    }
2238
2239    #[test]
2240    fn command_head_refines_the_exec_cliff() {
2241        use super::classify_command_head as h;
2242        // unambiguous external tools classify by basename (spec §4 ⟨0.5⟩)
2243        assert_eq!(h("curl"), &["Net"]);
2244        assert_eq!(h("telnet"), &["Net"]);
2245        assert_eq!(h("sftp"), &["Net"]);
2246        assert_eq!(h("/usr/local/bin/psql"), &["Db"]); // basename match strips the path
2247        assert_eq!(h("mongo"), &["Db"]);
2248        assert_eq!(h("cqlsh"), &["Db"]);
2249        // a candor engine is Fs/Env — spec-SUPPLIED by §7 item 12, not curation
2250        assert_eq!(h("candor-scan"), &["Env", "Fs"]);
2251        assert_eq!(h("candor-run.sh"), &["Env", "Fs"]);
2252        // an unrecognised head adds nothing — the bare Exec cliff stands (never guess). `make`/`npm`
2253        // run the project's own code; `git`/`rsync` are multi-modal (local vs remote) — all keep the
2254        // cliff rather than fabricate an effect for the common case.
2255        assert_eq!(h("some-unknown-tool"), &[] as &[&str]);
2256        assert_eq!(h("make"), &[] as &[&str]);
2257        assert_eq!(h("npm"), &[] as &[&str]);
2258        assert_eq!(h("git"), &[] as &[&str]);
2259        assert_eq!(h("rsync"), &[] as &[&str]);
2260        // a builder MODIFIER (`.arg`/`.env`) names no program — its literal must NOT refine (a
2261        // whole-crate-Exec crate classifies every method; `.env("psql",..)` must not fabricate Db).
2262        assert!(is_cmd_builder_method("env") && is_cmd_builder_method("arg") && is_cmd_builder_method("current_dir"));
2263        assert!(!is_cmd_builder_method("new")); // Command::new NAMES the program
2264        assert!(!is_cmd_builder_method("cmd")); // duct::cmd NAMES the program
2265        // The gate that ADMITS a literal to classify_command_head is an ALLOWLIST of program-NAMING
2266        // methods, not the builder denylist. Inversion matters: a whole-crate-Exec crate (portable_pty)
2267        // classifies EVERY method as Exec, so a getter like `cmd.get_env("psql")` — absent from the
2268        // builder denylist — would have leaked "psql" to the head and FABRICATED Db. Only `new`/`cmd`
2269        // name a program, so only they may refine.
2270        assert!(is_cmd_naming_method("new") && is_cmd_naming_method("cmd"));
2271        assert!(!is_cmd_naming_method("get_env")); // a GETTER, not a namer — the leak this closes
2272        assert!(!is_cmd_naming_method("arg") && !is_cmd_naming_method("env") && !is_cmd_naming_method("current_dir"));
2273    }
2274
2275    #[test]
2276    fn net_establishing_allowlist() {
2277        // sweep [3]/[7]: the masking guard's establishing-verb allowlist — host-bearing connect/request
2278        // verbs establish (a runtime host there is invisible); USE-verbs on a connected socket do NOT.
2279        assert!(is_net_establishing("connect") && is_net_establishing("connect_timeout"));
2280        assert!(is_net_establishing("get") && is_net_establishing("post") && is_net_establishing("request"));
2281        assert!(is_net_establishing("send_to") && is_net_establishing("to_socket_addrs"));
2282        // use-verbs (host fixed at connect) must NOT be establishing — else `connect("h").write()` flags.
2283        assert!(!is_net_establishing("write") && !is_net_establishing("read") && !is_net_establishing("send"));
2284        assert!(!is_net_establishing("flush") && !is_net_establishing("recv") && !is_net_establishing("peek"));
2285    }
2286
2287    #[test]
2288    fn fs_path_arg_allowlist() {
2289        // The Fs masking guard's path-naming-fn allowlist — free fns / constructors take the path as a
2290        // string arg (a runtime path there is invisible to the gate). Stat methods (path on the receiver)
2291        // and handle ops carry no path arg and must NOT flag — but they're caught by the caller's
2292        // `!is_method` gate; the allowlist itself just enumerates the path-NAMING leaves.
2293        assert!(is_fs_path_arg("write") && is_fs_path_arg("read") && is_fs_path_arg("read_to_string"));
2294        assert!(is_fs_path_arg("open") && is_fs_path_arg("create") && is_fs_path_arg("create_new"));
2295        assert!(is_fs_path_arg("remove_file") && is_fs_path_arg("rename") && is_fs_path_arg("copy"));
2296        assert!(is_fs_path_arg("create_dir_all") && is_fs_path_arg("canonicalize") && is_fs_path_arg("metadata"));
2297        // handle ops / pure builders take NO path arg — never path-naming.
2298        assert!(!is_fs_path_arg("write_all") && !is_fs_path_arg("flush") && !is_fs_path_arg("read_exact"));
2299        assert!(!is_fs_path_arg("new") && !is_fs_path_arg("sync_all") && !is_fs_path_arg("set_len"));
2300    }
2301
2302    #[test]
2303    fn db_query_arg_allowlist() {
2304        // The Db masking guard's query-bearing-verb allowlist — these take the raw SQL as a string arg
2305        // (a runtime query there is invisible to the gate). Build-then-execute terminals and non-query
2306        // ops carry no SQL string and must NOT flag.
2307        assert!(is_db_query_arg("execute") && is_db_query_arg("query") && is_db_query_arg("query_one"));
2308        assert!(is_db_query_arg("prepare") && is_db_query_arg("batch_execute") && is_db_query_arg("execute_batch"));
2309        assert!(is_db_query_arg("query_row") && is_db_query_arg("query_map") && is_db_query_arg("exec"));
2310        // build-then-execute terminals (query built structurally, no SQL string) must NOT flag.
2311        assert!(!is_db_query_arg("fetch_all") && !is_db_query_arg("load") && !is_db_query_arg("first"));
2312        assert!(!is_db_query_arg("all") && !is_db_query_arg("one") && !is_db_query_arg("stream"));
2313        // connection / lifecycle ops take no SQL — must NOT flag.
2314        assert!(!is_db_query_arg("connect") && !is_db_query_arg("open") && !is_db_query_arg("begin"));
2315        assert!(!is_db_query_arg("commit") && !is_db_query_arg("ping") && !is_db_query_arg("get_conn"));
2316    }
2317}