upstream/mercurial-mirror Files · contrib/fuzz/manifest.cc

dirstate: Remove the Rust abstraction DirstateMapMethods...

dirstate: Remove the Rust abstraction DirstateMapMethods This Rust trait used to exist in order to allow the DirstateMap class exposed to Python to be backed by either of two implementations: one similar to the Python implementation based on a "flat" `HashMap<HgPathBuf, DirstateEntry>`, and the newer one based on a tree of nodes matching the directory structure of tracked files. A boxed trait object was used with dynamic dispatch. With the flat implementation removed and only the tree one remaining, this abstraction is not useful anymore and the concrete type can be stored directly. It remains that the trait was implemented separately for `DirstateMap<'_>` (which takes a lifetime parameter) and `OwningDirstateMap` (whose job is to wrap the former and hide the lifetime parameter), with the latter impl only forwarding calls. This changeset also removes this forwarding. Instead, the methods formerly of the `DirstateMapMethods` trait are now inherent methods implemented for `OwningDirstateMap` (where they will actually be used) but in the module that defines `DirstateMap`. This unusual setup gives access to the private fields of `DirstateMap` from those methods. Differential Revision: https://phab.mercurial-scm.org/D11517

Augie Fackler - - Load All Authors

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      #include <Python.h>

      #include <assert.h>

      #include <stdlib.h>

      #include <unistd.h>

      #include "FuzzedDataProvider.h"

      #include "pyutil.h"

      #include <string>

      extern "C" {

      static PYCODETYPE *code;

      extern "C" int LLVMFuzzerInitialize(int *argc, char ***argv)

      {

      	contrib::initpy(*argv[0]);

      	code = (PYCODETYPE *)Py_CompileString(R"py(

      try:

        lm = parsers.lazymanifest(mdata)

        # iterate the whole thing, which causes the code to fully parse

        # every line in the manifest

        for e, _, _ in lm.iterentries():

            # also exercise __getitem__ et al

            lm[e]

            e in lm

            (e + 'nope') in lm

        lm[b'xyzzy'] = (b'\0' * nlen, 'x')

        # do an insert, text should change

        assert lm.text() != mdata, "insert should change text and didn't: %r %r" % (lm.text(), mdata)

        cloned = lm.filtercopy(lambda x: x != 'xyzzy')

        assert cloned.text() == mdata, 'cloned text should equal mdata'

        cloned.diff(lm)

        del lm[b'xyzzy']

        cloned.diff(lm)

        # should be back to the same

        assert lm.text() == mdata, "delete should have restored text but didn't: %r %r" % (lm.text(), mdata)

      except Exception as e:

        pass

        # uncomment this print if you're editing this Python code

        # to debug failures.

        # print e

      )py",

      	                                      "fuzzer", Py_file_input);

      	return 0;

      }

      int LLVMFuzzerTestOneInput(const uint8_t *Data, size_t Size)

      {

      	// Don't allow fuzzer inputs larger than 100k, since we'll just bog

      	// down and not accomplish much.

      	if (Size > 100000) {

      		return 0;

      	}

      	FuzzedDataProvider provider(Data, Size);

      	Py_ssize_t nodelength = provider.ConsumeBool() ? 20 : 32;

      	PyObject *nlen = PyLong_FromSsize_t(nodelength);

      	PyObject *mtext =

      	    PyBytes_FromStringAndSize((const char *)Data, (Py_ssize_t)Size);

      	PyObject *locals = PyDict_New();

      	PyDict_SetItemString(locals, "mdata", mtext);

      	PyDict_SetItemString(locals, "nlen", nlen);

      	PyObject *res = PyEval_EvalCode(code, contrib::pyglobals(), locals);

      	if (!res) {

      		PyErr_Print();

      	}

      	Py_XDECREF(res);

      	Py_DECREF(locals);

      	Py_DECREF(mtext);

      	return 0; // Non-zero return values are reserved for future use.

      }

      }

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				#include <Python.h>
				#include <assert.h>
				#include <stdlib.h>
				#include <unistd.h>

				#include "FuzzedDataProvider.h"
				#include "pyutil.h"

				#include <string>

				extern "C" {

				static PYCODETYPE *code;

				extern "C" int LLVMFuzzerInitialize(int argc, char **argv)
				{
				contrib::initpy(*argv[0]);
				code = (PYCODETYPE *)Py_CompileString(R"py(
				try:
				lm = parsers.lazymanifest(mdata)
				# iterate the whole thing, which causes the code to fully parse
				# every line in the manifest
				for e, _, _ in lm.iterentries():
				# also exercise __getitem__ et al
				lm[e]
				e in lm
				(e + 'nope') in lm
				lm[b'xyzzy'] = (b'\0' * nlen, 'x')
				# do an insert, text should change
				assert lm.text() != mdata, "insert should change text and didn't: %r %r" % (lm.text(), mdata)
				cloned = lm.filtercopy(lambda x: x != 'xyzzy')
				assert cloned.text() == mdata, 'cloned text should equal mdata'
				cloned.diff(lm)
				del lm[b'xyzzy']
				cloned.diff(lm)
				# should be back to the same
				assert lm.text() == mdata, "delete should have restored text but didn't: %r %r" % (lm.text(), mdata)
				except Exception as e:
				pass
				# uncomment this print if you're editing this Python code
				# to debug failures.
				# print e
				)py",
				"fuzzer", Py_file_input);
				return 0;
				}

				int LLVMFuzzerTestOneInput(const uint8_t *Data, size_t Size)
				{
				// Don't allow fuzzer inputs larger than 100k, since we'll just bog
				// down and not accomplish much.
				if (Size > 100000) {
				return 0;
				}
				FuzzedDataProvider provider(Data, Size);
				Py_ssize_t nodelength = provider.ConsumeBool() ? 20 : 32;
				PyObject *nlen = PyLong_FromSsize_t(nodelength);
				PyObject *mtext =
				PyBytes_FromStringAndSize((const char *)Data, (Py_ssize_t)Size);
				PyObject *locals = PyDict_New();
				PyDict_SetItemString(locals, "mdata", mtext);
				PyDict_SetItemString(locals, "nlen", nlen);
				PyObject *res = PyEval_EvalCode(code, contrib::pyglobals(), locals);
				if (!res) {
				PyErr_Print();
				}
				Py_XDECREF(res);
				Py_DECREF(locals);
				Py_DECREF(mtext);
				return 0; // Non-zero return values are reserved for future use.
				}
				}