Files
arc53--docsgpt/tests/parser/test_document_reader.py
wehub-resource-sync fed8b2eed7
Backend release / release (push) Waiting to run
Bandit Security Scan / bandit_scan (push) Waiting to run
Build and push multi-arch DocsGPT Docker image / build (linux/amd64, ubuntu-latest, amd64) (push) Waiting to run
Build and push multi-arch DocsGPT Docker image / build (linux/arm64, ubuntu-24.04-arm, arm64) (push) Waiting to run
Build and push multi-arch DocsGPT Docker image / manifest (push) Blocked by required conditions
Build and push DocsGPT FE Docker image for development / build (linux/amd64, ubuntu-latest, amd64) (push) Waiting to run
Build and push DocsGPT FE Docker image for development / build (linux/arm64, ubuntu-24.04-arm, arm64) (push) Waiting to run
Build and push DocsGPT FE Docker image for development / manifest (push) Blocked by required conditions
Python linting / ruff (push) Waiting to run
Run python tests with pytest / Run tests and count coverage (3.12) (push) Waiting to run
React Widget Build / build (push) Waiting to run
chore: import upstream snapshot with attribution
2026-07-13 13:28:29 +08:00

481 lines
19 KiB
Python

"""Unit tests for parse_document_bytes: output shapes, whitelist/size guards, params, and cleanup.
Docling-heavy paths are stubbed or skipped; these cover the shaping and the
untrusted-content safeguards (extension whitelist, byte cap, temp cleanup).
"""
from __future__ import annotations
from pathlib import Path
from typing import Any, Dict, List
import pytest
import application.parser.document_reader as dr
from application.parser.document_reader import (
bound_parse_payload,
parse_document_bytes,
truncate_text_head_tail,
)
# ---------------------------------------------------------------------------
# Guards: whitelist + size cap
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_unknown_extension_is_rejected():
out = parse_document_bytes(b"data", "evil.exe")
assert "error" in out and "unsupported file type" in out["error"]
def _make_zip(entries: Dict[str, bytes]) -> bytes:
import io
import zipfile
buf = io.BytesIO()
with zipfile.ZipFile(buf, "w", zipfile.ZIP_DEFLATED) as zf:
for name, data in entries.items():
zf.writestr(name, data)
return buf.getvalue()
@pytest.mark.unit
def test_zip_bomb_declared_size_over_cap_is_rejected(monkeypatch):
# A tiny highly-compressible archive whose decompressed size exceeds the cap
# must be rejected before any parser reads it (guards a zip-bomb OOM).
monkeypatch.setattr(dr.settings, "DOCUMENT_MAX_DECOMPRESSED_BYTES", 1000, raising=False)
data = _make_zip({"word/document.xml": b"A" * 50_000})
assert len(data) < 1000 # the on-disk archive is well under the byte cap
out = parse_document_bytes(data, "bomb.docx")
assert "error" in out and "too much data" in out["error"]
@pytest.mark.unit
def test_zip_too_many_entries_is_rejected(monkeypatch):
monkeypatch.setattr(dr.settings, "DOCUMENT_MAX_ARCHIVE_ENTRIES", 3, raising=False)
data = _make_zip({f"f{i}.xml": b"x" for i in range(10)})
out = parse_document_bytes(data, "many.xlsx")
assert "error" in out and "too many entries" in out["error"]
@pytest.mark.unit
def test_reject_zip_bomb_ignores_non_zip_formats():
# A non-zip extension (or a non-zip payload named .docx) is not gated here;
# the format parser surfaces its own error downstream.
assert dr._reject_zip_bomb(b"plain text", ".txt") is None
assert dr._reject_zip_bomb(b"not a zip", ".docx") is None
@pytest.mark.unit
def test_size_cap_rejects_oversize(monkeypatch):
monkeypatch.setattr(dr.settings, "DOCUMENT_PARSE_MAX_BYTES", 8, raising=False)
out = parse_document_bytes(b"P" * 64, "note.txt", output="text")
assert "error" in out and "too large" in out["error"]
@pytest.mark.unit
def test_bad_output_ocr_engine_rejected():
assert "unsupported output" in parse_document_bytes(b"x", "a.txt", output="nope")["error"]
assert "unsupported ocr" in parse_document_bytes(b"x", "a.txt", ocr="maybe")["error"]
assert "unsupported engine" in parse_document_bytes(b"x", "a.txt", engine="ghost")["error"]
# ---------------------------------------------------------------------------
# Plain-text path: .txt has no dedicated parser -> standard read
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_text_output_for_plain_text():
out = parse_document_bytes(b"hello world\n", "note.txt", output="text", include_tables=False)
assert out["output"] == "text"
assert out["content"] == "hello world\n"
assert out["truncated"] is False
@pytest.mark.unit
def test_markdown_output_default():
out = parse_document_bytes(b"# Title\n", "note.txt", include_tables=False)
assert out["output"] == "markdown"
assert "# Title" in out["content"]
@pytest.mark.unit
def test_max_chars_does_not_truncate_parse_output():
# max_chars now bounds only the VIEW (bound_parse_payload); parse returns the FULL text
# so the persisted artifact is the complete parse.
out = parse_document_bytes(("A" * 100).encode(), "note.txt", output="text", max_chars=10, include_tables=False)
assert out["content"] == "A" * 100
assert out["truncated"] is False
@pytest.mark.unit
def test_large_text_is_full_in_parse_output():
# The default head+tail window moved to bound_parse_payload; parse keeps the full text.
big = "A" * (dr._TEXT_MAX_BYTES * 3)
out = parse_document_bytes(big.encode(), "note.txt", output="text", include_tables=False)
assert out["content"] == big
assert out["truncated"] is False
# ---------------------------------------------------------------------------
# chunks output
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_chunks_output_returns_list():
out = parse_document_bytes(b"para one.\n\npara two.\n", "note.txt", output="chunks", include_tables=False)
assert out["output"] == "chunks"
assert isinstance(out["chunks"], list)
assert all(isinstance(c, str) for c in out["chunks"])
# ---------------------------------------------------------------------------
# engine selection: a mapped parser is chosen and run with the right text shape
# ---------------------------------------------------------------------------
class _FakeParser:
"""Records that it was used and returns a fixed string or list of strings."""
def __init__(self, result):
self._result = result
self.parser_config_set = True
self.inited = False
def init_parser(self):
self.inited = True
def parse_file(self, file: Path, errors: str = "ignore"):
return self._result
@pytest.mark.unit
def test_engine_picks_parser_and_coerces_list(monkeypatch):
fake = _FakeParser(["chunk A", "chunk B"])
monkeypatch.setattr(dr, "get_default_file_extractor", lambda ocr_enabled=None: {".pdf": fake})
out = parse_document_bytes(b"%PDF-1.4", "doc.pdf", output="text", engine="docling", include_tables=False)
assert out["content"] == "chunk A\n\nchunk B"
@pytest.mark.unit
def test_fast_engine_uses_legacy_parser(monkeypatch):
fake = _FakeParser("legacy text")
monkeypatch.setattr(dr, "_legacy_parser_for", lambda suffix: fake)
out = parse_document_bytes(b"%PDF-1.4", "doc.pdf", output="text", engine="fast", include_tables=False)
assert out["content"] == "legacy text"
# ---------------------------------------------------------------------------
# single Docling conversion: the default markdown+tables path must not re-convert
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_default_markdown_with_tables_converts_docling_once(monkeypatch):
"""Default read (markdown, engine=auto, include_tables) converts the doc with Docling once.
A Docling-backed parser already converts the whole document to produce its text;
collecting tables must reuse that single conversion instead of re-running
DocumentConverter. Counts conversions across both sites to prove no double pass.
"""
import sys
import types
from application.parser.file.docling_parser import DoclingParser
counter = {"instances": 0, "converts": 0}
class _FakeTable:
def export_to_dataframe(self):
raise RuntimeError("no dataframe") # force the markdown fallback path
def export_to_markdown(self):
return "| h |\n| - |\n| v |"
class _FakeDoc:
tables = [_FakeTable()]
pages = {"1": {}}
def export_to_markdown(self):
return "# single-pass content"
def export_to_dict(self):
return {"texts": [{}], "tables": [{}], "pages": {"1": {}}}
class _FakeResult:
document = _FakeDoc()
class _CountingConverter:
def __init__(self, *args, **kwargs):
counter["instances"] += 1
def convert(self, *args, **kwargs):
counter["converts"] += 1
return _FakeResult()
fake_docling = types.ModuleType("docling")
fake_dc_module = types.ModuleType("docling.document_converter")
fake_dc_module.DocumentConverter = _CountingConverter
fake_docling.document_converter = fake_dc_module
monkeypatch.setitem(sys.modules, "docling", fake_docling)
monkeypatch.setitem(sys.modules, "docling.document_converter", fake_dc_module)
class _FakeDoclingParser(DoclingParser):
"""Docling-backed parser exposing its configured converter + export for reuse.
The collapse path converts ONCE via ``self._converter`` and exports content via
``_export_content`` (the configured pipeline/OCR), so both content and tables
come from a single conversion.
"""
def __init__(self):
super().__init__()
self._parser_config = {"ready": True} # makes parser_config_set True
self._converter = _CountingConverter() # single configured conversion
def _export_content(self, document):
return "# single-pass content"
def parse_file(self, file, errors="ignore"):
# Only reached if the collapse path fails; the test asserts it doesn't.
return "# parse-file content"
monkeypatch.setattr(dr, "get_default_file_extractor", lambda ocr_enabled=None: {".pdf": _FakeDoclingParser()})
# Defaults: output=markdown, engine=auto, include_tables=True -> the double-parse path.
out = parse_document_bytes(b"%PDF-1.4", "doc.pdf")
assert out["output"] == "markdown"
# Content comes from the CONFIGURED parser's export (matches the legacy single
# parse), not a vanilla converter; the collapse path was taken, not the fallback.
assert "single-pass content" in out["content"]
assert "parse-file content" not in out["content"]
assert out["tables"] == [{"markdown": "| h |\n| - |\n| v |"}]
assert counter["converts"] == 1 # was 2 before the fix (content pass + tables pass)
assert counter["instances"] == 1
# ---------------------------------------------------------------------------
# pages: page-range slice on a form-feed delimited blob
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_pages_slices_form_feed_blob(monkeypatch):
fake = _FakeParser("page1\fpage2\fpage3")
monkeypatch.setattr(dr, "get_default_file_extractor", lambda ocr_enabled=None: {".pdf": fake})
out = parse_document_bytes(b"%PDF", "doc.pdf", output="text", pages="2", engine="docling", include_tables=False)
assert out["content"] == "page2"
@pytest.mark.unit
def test_page_ranges_are_bounded_before_materializing(monkeypatch):
"""Clamp hostile ranges to real pages while preserving selection semantics."""
real_range = range
range_calls: List[tuple[int, int]] = []
def _guarded_range(start: int, stop: int) -> range:
range_calls.append((start, stop))
if stop - start > 100:
raise AssertionError("attempted to materialize an unbounded page range")
return real_range(start, stop)
monkeypatch.setattr(dr, "range", _guarded_range, raising=False)
selected = dr._selected_page_indices("1-1000000000,1-1000000000", total=3)
assert selected == [0, 1, 2, 0, 1, 2]
assert range_calls == [(0, 3), (0, 3)]
@pytest.mark.unit
def test_page_range_expansion_has_an_absolute_cap(monkeypatch):
"""An attacker-controlled page count cannot turn a range into millions of ints."""
real_range = range
range_calls: List[tuple[int, int]] = []
def _guarded_range(start: int, stop: int) -> range:
range_calls.append((start, stop))
if stop - start > dr._MAX_PAGE_SELECTIONS:
raise AssertionError("attempted to expand beyond the page-selection cap")
return real_range(start, stop)
monkeypatch.setattr(dr, "range", _guarded_range, raising=False)
selected = dr._selected_page_indices("1-1000000000", total=25_000_000)
assert len(selected) == dr._MAX_PAGE_SELECTIONS
assert selected[0] == 0
assert selected[-1] == dr._MAX_PAGE_SELECTIONS - 1
assert range_calls == [(0, dr._MAX_PAGE_SELECTIONS)]
@pytest.mark.unit
def test_page_slicing_never_split_materializes_all_pages():
"""Form-feed slicing walks boundaries without allocating one string per page."""
class _NoSplitText(str):
def split(self, *_args, **_kwargs):
raise AssertionError("page slicing must not call str.split")
text = _NoSplitText("page1\fpage2\fpage3")
assert dr._apply_pages(text, "3,1,3") == "page3\fpage1\fpage3"
@pytest.mark.unit
def test_duplicate_page_selection_cannot_amplify_source_text():
"""Repeated selectors remain bounded to the source text's resident size."""
text = ("x" * 100) + "\fy"
selected = dr._apply_pages(text, [1] * (dr._MAX_PAGE_SELECTIONS * 2))
assert len(selected) <= len(text)
# ---------------------------------------------------------------------------
# structured output (Docling stubbed)
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_structured_output_shapes_via_docling(monkeypatch):
def _fake_structured(path, *, ocr_enabled, include_tables):
return {
"markdown": "# Statement",
"structured": {"texts": [{}], "tables": [{}], "pages": {"1": {}}},
"tables": [{"columns": ["a"], "rows": [["1"]]}],
"page_count": 1,
}
monkeypatch.setattr(dr, "_docling_structured", _fake_structured)
out = parse_document_bytes(b"%PDF", "doc.pdf", output="structured")
assert out["output"] == "structured"
assert out["content"].startswith("# Statement")
assert out["structured"]["texts"]
assert out["summary"] == {"texts": 1, "tables": 1, "pages": 1}
assert out["page_count"] == 1
assert out["tables"] == [{"columns": ["a"], "rows": [["1"]]}]
@pytest.mark.unit
def test_structured_output_missing_docling_is_clean_error(monkeypatch):
def _boom(path, *, ocr_enabled, include_tables):
raise ImportError("No module named 'docling'")
monkeypatch.setattr(dr, "_docling_structured", _boom)
out = parse_document_bytes(b"%PDF", "doc.pdf", output="structured")
assert "error" in out and "structured parsing requires Docling" in out["error"]
# ---------------------------------------------------------------------------
# table bounding
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_table_rows_and_cells_are_bounded():
big_cell = "y" * (dr._MAX_CELL_CHARS * 3)
table: Dict[str, Any] = {"columns": ["a", "b"], "rows": [[str(i), big_cell] for i in range(dr._MAX_TABLE_ROWS * 4)]}
compact = dr._compact_table(table)
assert len(compact["rows"]) == dr._MAX_TABLE_ROWS
assert compact["rows_truncated"] is True
assert compact["total_rows"] == dr._MAX_TABLE_ROWS * 4
assert compact["rows"][0][1].endswith("...[truncated]")
# ---------------------------------------------------------------------------
# temp cleanup: the staged temp file is removed even on parser failure
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_temp_file_cleaned_up_on_success(monkeypatch):
seen: List[Path] = []
real_mkdtemp = dr.tempfile.mkdtemp
def _tracking_mkdtemp(*a, **k):
d = real_mkdtemp(*a, **k)
seen.append(Path(d))
return d
monkeypatch.setattr(dr.tempfile, "mkdtemp", _tracking_mkdtemp)
parse_document_bytes(b"hi", "note.txt", output="text", include_tables=False)
assert seen and not seen[0].exists()
@pytest.mark.unit
def test_temp_file_cleaned_up_on_parser_error(monkeypatch):
seen: List[Path] = []
real_mkdtemp = dr.tempfile.mkdtemp
def _tracking_mkdtemp(*a, **k):
d = real_mkdtemp(*a, **k)
seen.append(Path(d))
return d
monkeypatch.setattr(dr.tempfile, "mkdtemp", _tracking_mkdtemp)
fake = _FakeParser("x")
fake.parse_file = lambda *a, **k: (_ for _ in ()).throw(RuntimeError("boom"))
monkeypatch.setattr(dr, "get_default_file_extractor", lambda ocr_enabled=None: {".pdf": fake})
out = parse_document_bytes(b"%PDF", "doc.pdf", output="text", engine="docling", include_tables=False)
assert "error" in out and "parsing failed" in out["error"]
assert seen and not seen[0].exists()
# ---------------------------------------------------------------------------
# ocr resolution
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_ocr_resolution(monkeypatch):
monkeypatch.setattr(dr.settings, "DOCLING_OCR_ENABLED", True, raising=False)
assert dr._resolve_ocr_enabled("off") is False
assert dr._resolve_ocr_enabled("on") is True
assert dr._resolve_ocr_enabled("auto") is True
monkeypatch.setattr(dr.settings, "DOCLING_OCR_ENABLED", False, raising=False)
assert dr._resolve_ocr_enabled("auto") is False
@pytest.mark.unit
def test_truncate_head_tail_keeps_both_ends():
text = "HEAD" + ("x" * 200) + "TAIL"
out = truncate_text_head_tail(text, 40)
assert "HEAD" in out and "TAIL" in out and "...[truncated" in out
# ---------------------------------------------------------------------------
# bound_parse_payload: every shape stays bounded for the Redis result backend
# ---------------------------------------------------------------------------
@pytest.mark.unit
def test_bound_parse_payload_bounds_content_and_chunks():
huge = "Z" * (dr._TEXT_MAX_BYTES * 3)
chunks = [huge for _ in range(dr._MAX_CHUNKS_RETURNED * 2)]
out = bound_parse_payload({"output": "chunks", "content": huge, "chunks": chunks})
assert len(out["content"].encode("utf-8")) <= dr._TEXT_MAX_BYTES + 64
assert len(out["chunks"]) == dr._MAX_CHUNKS_RETURNED
assert out["chunks_truncated"] is True
assert out["total_chunks"] == dr._MAX_CHUNKS_RETURNED * 2
assert all("...[truncated" in c for c in out["chunks"])
@pytest.mark.unit
def test_bound_parse_payload_keeps_structured_for_validation():
structured = {"texts": [{}], "tables": [{}]}
out = bound_parse_payload({"output": "structured", "content": "# ok", "structured": structured})
# structured must survive so the tool's json_schema validation can run on it.
assert out["structured"] == structured
@pytest.mark.unit
def test_bound_parse_payload_max_chars_bounds_view_only():
# max_chars caps the returned view; the parse itself is unaffected (see parse tests above).
content = "A" * 100
out = bound_parse_payload({"output": "text", "content": content}, max_chars=10)
assert out["content"] == "A" * 10
assert out["truncated"] is True
@pytest.mark.unit
def test_bound_parse_payload_default_window_when_no_max_chars():
big = "A" * (dr._TEXT_MAX_BYTES * 3)
out = bound_parse_payload({"output": "text", "content": big})
assert "...[truncated" in out["content"]
assert len(out["content"].encode("utf-8")) <= dr._TEXT_MAX_BYTES + 64
assert out["truncated"] is True
@pytest.mark.unit
def test_bound_parse_payload_small_content_not_flagged():
out = bound_parse_payload({"output": "text", "content": "hi"}, max_chars=10)
assert out["content"] == "hi"
assert out["truncated"] is False