collecting-volatile-evidence-from-compromised-host
Collect volatile forensic evidence from a compromised system following order of volatility, preserving memory, network connections, processes, and system state before they are lost.
What this skill does
# Collecting Volatile Evidence from Compromised Hosts ## When to Use - Security incident confirmed and compromised host identified - Before system isolation, shutdown, or remediation begins - Memory-resident malware suspected (fileless attacks) - Need to capture network connections, running processes, and system state - Legal proceedings may require forensic evidence preservation - Incident requires root cause analysis with volatile data ## Prerequisites - Forensic collection toolkit on USB or network share (trusted tools) - WinPmem/LiME for memory acquisition - Write-blocker or forensic workstation for disk imaging - Chain of custody documentation forms - Secure evidence storage with integrity verification - Authorization to collect evidence (legal/HR approval for insider cases) ## Workflow ### Step 1: Prepare Collection Environment ```bash # Mount forensic USB toolkit (do NOT install tools on compromised system) # Verify toolkit integrity sha256sum /mnt/forensic_usb/tools/* > /tmp/toolkit_hashes.txt diff /mnt/forensic_usb/tools/known_good_hashes.txt /tmp/toolkit_hashes.txt # Create evidence output directory with timestamps EVIDENCE_DIR="/mnt/evidence/$(hostname)_$(date +%Y%m%d_%H%M%S)" mkdir -p "$EVIDENCE_DIR" echo "Collection started: $(date -u)" > "$EVIDENCE_DIR/collection_log.txt" echo "Collector: $(whoami)" >> "$EVIDENCE_DIR/collection_log.txt" echo "System: $(hostname)" >> "$EVIDENCE_DIR/collection_log.txt" ``` ### Step 2: Capture System Memory (Highest Volatility) ```bash # Windows - WinPmem memory acquisition winpmem_mini_x64.exe "$EVIDENCE_DIR\memdump_$(hostname).raw" # Linux - LiME kernel module for memory acquisition insmod /mnt/forensic_usb/lime.ko "path=$EVIDENCE_DIR/memdump_$(hostname).lime format=lime" # Linux - Alternative using /proc/kcore dd if=/proc/kcore of="$EVIDENCE_DIR/kcore_dump.raw" bs=1M # macOS - osxpmem osxpmem -o "$EVIDENCE_DIR/memdump_$(hostname).aff4" # Hash the memory dump immediately sha256sum "$EVIDENCE_DIR/memdump_"* > "$EVIDENCE_DIR/memory_hash.sha256" ``` ### Step 3: Capture Network State ```bash # Active network connections # Windows netstat -anob > "$EVIDENCE_DIR/netstat_connections.txt" 2>&1 Get-NetTCPConnection | Export-Csv "$EVIDENCE_DIR/tcp_connections.csv" -NoTypeInformation Get-NetUDPEndpoint | Export-Csv "$EVIDENCE_DIR/udp_endpoints.csv" -NoTypeInformation # Linux ss -tulnp > "$EVIDENCE_DIR/socket_stats.txt" netstat -anp > "$EVIDENCE_DIR/netstat_all.txt" 2>/dev/null cat /proc/net/tcp > "$EVIDENCE_DIR/proc_net_tcp.txt" cat /proc/net/udp > "$EVIDENCE_DIR/proc_net_udp.txt" # ARP cache arp -a > "$EVIDENCE_DIR/arp_cache.txt" # Routing table route print > "$EVIDENCE_DIR/routing_table.txt" # Windows ip route show > "$EVIDENCE_DIR/routing_table.txt" # Linux # DNS cache ipconfig /displaydns > "$EVIDENCE_DIR/dns_cache.txt" # Windows # Linux: varies by resolver, check systemd-resolve or nscd systemd-resolve --statistics > "$EVIDENCE_DIR/dns_stats.txt" 2>/dev/null # Active firewall rules netsh advfirewall show allprofiles > "$EVIDENCE_DIR/firewall_rules.txt" # Windows iptables -L -n -v > "$EVIDENCE_DIR/iptables_rules.txt" # Linux ``` ### Step 4: Capture Running Processes ```bash # Windows - Detailed process list tasklist /V /FO CSV > "$EVIDENCE_DIR/process_list_verbose.csv" wmic process list full > "$EVIDENCE_DIR/wmic_process_full.txt" Get-Process | Select-Object Id,ProcessName,Path,StartTime,CPU,WorkingSet | Export-Csv "$EVIDENCE_DIR/ps_processes.csv" -NoTypeInformation # Windows - Process with command line and parent wmic process get ProcessId,Name,CommandLine,ParentProcessId,ExecutablePath /FORMAT:CSV > \ "$EVIDENCE_DIR/process_commandlines.csv" # Linux - Full process tree ps auxwwf > "$EVIDENCE_DIR/process_tree.txt" ps -eo pid,ppid,user,args --forest > "$EVIDENCE_DIR/process_forest.txt" cat /proc/*/cmdline 2>/dev/null | tr '\0' ' ' > "$EVIDENCE_DIR/proc_cmdline_all.txt" # Process modules/DLLs loaded # Windows listdlls.exe -accepteula > "$EVIDENCE_DIR/loaded_dlls.txt" # Linux for pid in $(ls /proc/ | grep -E '^[0-9]+$'); do echo "=== PID $pid ===" >> "$EVIDENCE_DIR/proc_maps.txt" cat "/proc/$pid/maps" 2>/dev/null >> "$EVIDENCE_DIR/proc_maps.txt" done # Open file handles handle.exe -accepteula > "$EVIDENCE_DIR/open_handles.txt" # Windows (Sysinternals) lsof > "$EVIDENCE_DIR/open_files.txt" # Linux ``` ### Step 5: Capture Logged-in Users and Sessions ```bash # Windows query user > "$EVIDENCE_DIR/logged_in_users.txt" query session > "$EVIDENCE_DIR/active_sessions.txt" net session > "$EVIDENCE_DIR/net_sessions.txt" 2>&1 net use > "$EVIDENCE_DIR/mapped_drives.txt" 2>&1 # Linux who > "$EVIDENCE_DIR/who_output.txt" w > "$EVIDENCE_DIR/w_output.txt" last -50 > "$EVIDENCE_DIR/last_logins.txt" lastlog > "$EVIDENCE_DIR/lastlog.txt" cat /var/log/auth.log | tail -200 > "$EVIDENCE_DIR/recent_auth.txt" 2>/dev/null ``` ### Step 6: Capture System Configuration State ```bash # System time (critical for timeline) date -u > "$EVIDENCE_DIR/system_time_utc.txt" w32tm /query /status > "$EVIDENCE_DIR/ntp_status.txt" # Windows ntpq -p > "$EVIDENCE_DIR/ntp_status.txt" # Linux # Environment variables set > "$EVIDENCE_DIR/environment_vars.txt" # Windows env > "$EVIDENCE_DIR/environment_vars.txt" # Linux # Scheduled tasks / Cron jobs schtasks /query /fo CSV /v > "$EVIDENCE_DIR/scheduled_tasks.csv" # Windows crontab -l > "$EVIDENCE_DIR/crontab_current.txt" 2>/dev/null # Linux ls -la /etc/cron.* > "$EVIDENCE_DIR/cron_dirs.txt" 2>/dev/null # Services sc queryex type=service state=all > "$EVIDENCE_DIR/services_all.txt" # Windows systemctl list-units --type=service --all > "$EVIDENCE_DIR/systemd_services.txt" # Linux # Windows Registry - key autostart locations reg export "HKLM\SOFTWARE\Microsoft\Windows\CurrentVersion\Run" "$EVIDENCE_DIR/reg_run_hklm.reg" /y reg export "HKCU\SOFTWARE\Microsoft\Windows\CurrentVersion\Run" "$EVIDENCE_DIR/reg_run_hkcu.reg" /y reg export "HKLM\SYSTEM\CurrentControlSet\Services" "$EVIDENCE_DIR/reg_services.reg" /y ``` ### Step 7: Hash All Evidence and Document Chain of Custody ```bash # Generate SHA256 hashes for all collected evidence cd "$EVIDENCE_DIR" sha256sum * > evidence_manifest.sha256 # Create chain of custody record cat > "$EVIDENCE_DIR/chain_of_custody.txt" << EOF CHAIN OF CUSTODY RECORD ======================== Case ID: IR-YYYY-NNN Collection Date: $(date -u) Collected By: $(whoami) System: $(hostname) System IP: $(hostname -I 2>/dev/null || ipconfig | grep IPv4) Collection Method: Live forensic collection via trusted USB toolkit Evidence Items: $(ls -la "$EVIDENCE_DIR/" | grep -v chain_of_custody) SHA256 Manifest: evidence_manifest.sha256 Transfer: [TO BE COMPLETED] Storage Location: [TO BE COMPLETED] EOF ``` ## Key Concepts | Concept | Description | |---------|-------------| | Order of Volatility | RFC 3227 - Collect most volatile data first: registers > cache > memory > disk | | Live Forensics | Collecting evidence from a running system before shutdown | | Chain of Custody | Documentation tracking evidence handling from collection to court | | Forensic Soundness | Ensuring evidence collection doesn't alter the original evidence | | Trusted Tools | Using verified tools from external media, not from the compromised system | | Evidence Integrity | SHA256 hashing of all evidence immediately after collection | | Locard's Exchange Principle | Every contact leaves a trace - minimize investigator artifacts | ## Tools & Systems | Tool | Purpose | |------|---------| | WinPmem | Windows memory acquisition | | LiME (Linux Memory Extractor) | Linux kernel memory acquisition | | Sysinternals Suite | Process, handle, and DLL analysis (Windows) | | Velociraptor | Remote forensic collection at scale | | KAPE (Kroll Artifact Parser) | Automated artifact collection on Windows | | CyLR | Cross-platform live response collection | | GRR Rapid Response | Remote live forensics framework | ## Common Scenarios 1. **Fileless Malware Attack**: PowerShell-based attack w
Related in General
modeling-omnistudio-epc-catalog
IncludedSalesforce Industries CME EPC product-modeling skill for Product2-based catalog creation. Use when creating EPC products, configuring product attributes, building offer bundles with Product Child Items, or reviewing EPC DataPack JSON metadata for product catalog changes. TRIGGER when: user creates or updates Product2 EPC records, AttributeAssignment payloads, AttributeMetadata/AttributeDefaultValues, Offer bundles, or ProductChildItem relationships. DO NOT TRIGGER when: designing OmniScripts/FlexCards/Integration Procedures (use building-omnistudio-omniscript, building-omnistudio-flexcard, or building-omnistudio-integration-procedure), implementing Apex business logic (use generating-apex), or troubleshooting deployment pipelines (use deploying-metadata).
relationship-science-coach
IncludedUse this skill for direct, practical adult relationship coaching: couples conflict, repair, trust, marriage, dating, flirting, attachment patterns, emotional connection, sex, desire differences, eroticism, kink negotiation, affection, love languages, breakups, and long-term passion. Draw on Gottman, EFT and Hold Me Tight, attachment science, modern sex research, Perel, Nagoski, Kerner, Schnarch, Love and Stosny, and flexible love-language tools. Be concrete and low-hedge. Redirect only for imminent danger, abuse, coercive control, minors, non-consent, self-harm, stalking, or medical/legal/psychiatric decisions.
building-sf-integrations
IncludedSalesforce integration architecture and runtime plumbing with 120-point scoring. Use this skill to set up Named Credentials, External Credentials, External Services, REST/SOAP callout patterns, Platform Events, and Change Data Capture. TRIGGER when: user sets up Named Credentials, External Services, REST/SOAP callouts, Platform Events, CDC, or touches .namedCredential-meta.xml files. DO NOT TRIGGER when: Connected App/OAuth config (use configuring-connected-apps), Apex-only logic (use generating-apex), or data import/export (use handling-sf-data).
venue-templates
IncludedAccess comprehensive LaTeX templates, formatting requirements, and submission guidelines for major scientific publication venues (Nature, Science, PLOS, IEEE, ACM), academic conferences (NeurIPS, ICML, CVPR, CHI), research posters, and grant proposals (NSF, NIH, DOE, DARPA). This skill should be used when preparing manuscripts for journal submission, conference papers, research posters, or grant proposals and need venue-specific formatting requirements and templates.
let-fate-decide
IncludedDraws the 12 Houses of the Zodiac Tarot spread to inject entropy into planning when prompts are vague, ambiguous, or casually delegated. Interprets the spread to guide next steps. Use when the user says 'let fate decide', 'YOLO', 'whatever', 'idk', or other nonchalant phrases, makes Yu-Gi-Oh references, or when you are about to arbitrarily pick between multiple reasonable approaches. Prefer over ask-questions-if-underspecified when the user's tone is casual or playful rather than precision-seeking.
net-ops
IncludedCross-platform network troubleshooting (Windows, macOS, Linux) via local or remote shell. Use for: DNS broken, can't resolve hostnames, nslookup/dig works but apps fail, NRPT, WFP, scutil, /etc/resolver, systemd-resolved, /etc/resolv.conf, NetworkManager, VPN DNS leak residue (ProtonVPN/Mullvad/WireGuard/AnyConnect), AV/firewall blocking DNS or DoH, Tailscale DNS interaction, intermittent connectivity, remote diagnostics over SSH.