upstream/mercurial-mirror Files · contrib/python-zstandard/zstd.c

dummysmtpd: don't die on client connection errors...

dummysmtpd: don't die on client connection errors The connection refused error in test-patchbomb-tls.t[1] is sporadic, but one of the more often seen errors on Windows. I added enough logging to a file and dumped it out at the end to make the following observations: - The listening socket is successfully created and bound to the port, and the "listening at..." message is always logged. - Generally, the following is the entire log output, with the "accepted ..." message having been added after `sslutil.wrapserversocket`: listening at localhost:$HGPORT $LOCALIP ssl error accepted connect accepted connect $LOCALIP from=quux to=foo, bar $LOCALIP ssl error - In the cases that fail, asyncore.loop() in the run() method is exiting, but not with an exception. - In the cases that fail, the following is logged right after "listening ...": Traceback (most recent call last): File "c:\\Python27\\lib\\asyncore.py", line 83, in read obj.handle_read_event() File "c:\\Python27\\lib\\asyncore.py", line 443, in handle_read_event self.handle_accept() File "../tests/dummysmtpd.py", line 80, in handle_accept conn = sslutil.wrapserversocket(conn, ui, certfile=self._certfile) File "..\\mercurial\\sslutil.py", line 570, in wrapserversocket return sslcontext.wrap_socket(sock, server_side=True) File "c:\\Python27\\lib\\ssl.py", line 363, in wrap_socket _context=self) File "c:\\Python27\\lib\\ssl.py", line 611, in __init__ self.do_handshake() File "c:\\Python27\\lib\\ssl.py", line 840, in do_handshake self._sslobj.do_handshake() error: [Errno 10054] $ECONNRESET$ - If the base class handler is overridden completely, the the first "ssl error" line is replaced by the stacktrace, but the other lines are unchanged. The client behaves no differently, whether or not the server stacktraced. In general, `./run-tests.py --local -j9 -t9000 test-patchbomb-tls.t --runs-per-test 20` would show the issue after a run or two. With this change, `./run-tests.py --local -j9 -t9000 test-patchbomb-tls.t --loop` ran 800 times without a hiccup. This makes me wonder if the other connection refused messages that bubble up on occasion are caused by a similar issue. It seems a bit drastic to kill the whole server on account of a single communication failure with a client. # no-check-commit because of handle_error() [1] https://buildbot.mercurial-scm.org/builders/Win7%20x86_64%20hg%20tests/builds/421/steps/run-tests.py%20%28python%202.7.13%29/logs/stdio

Gregory Szorc - - Load All Authors

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      /**

       * Copyright (c) 2016-present, Gregory Szorc

       * All rights reserved.

       *

       * This software may be modified and distributed under the terms

       * of the BSD license. See the LICENSE file for details.

       */

      /* A Python C extension for Zstandard. */

      #if defined(_WIN32)

      #define WIN32_LEAN_AND_MEAN

      #include <Windows.h>

      #elif defined(__APPLE__) || defined(__OpenBSD__) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__DragonFly__)

      #include <sys/types.h>

      #include <sys/sysctl.h>

      #endif

      #include "python-zstandard.h"

      PyObject *ZstdError;

      PyDoc_STRVAR(estimate_compression_context_size__doc__,

      "estimate_compression_context_size(compression_parameters)\n"

      "\n"

      "Give the amount of memory allocated for a compression context given a\n"

      "CompressionParameters instance");

      PyDoc_STRVAR(estimate_decompression_context_size__doc__,

      "estimate_decompression_context_size()\n"

      "\n"

      "Estimate the amount of memory allocated to a decompression context.\n"

      );

      static PyObject* estimate_decompression_context_size(PyObject* self) {

      	return PyLong_FromSize_t(ZSTD_estimateDCtxSize());

      }

      PyDoc_STRVAR(get_compression_parameters__doc__,

      "get_compression_parameters(compression_level[, source_size[, dict_size]])\n"

      "\n"

      "Obtains a ``CompressionParameters`` instance from a compression level and\n"

      "optional input size and dictionary size");

      PyDoc_STRVAR(get_frame_parameters__doc__,

      "get_frame_parameters(data)\n"

      "\n"

      "Obtains a ``FrameParameters`` instance by parsing data.\n");

      PyDoc_STRVAR(train_dictionary__doc__,

      "train_dictionary(dict_size, samples)\n"

      "\n"

      "Train a dictionary from sample data.\n"

      "\n"

      "A compression dictionary of size ``dict_size`` will be created from the\n"

      "iterable of samples provided by ``samples``.\n"

      "\n"

      "The raw dictionary content will be returned\n");

      PyDoc_STRVAR(train_cover_dictionary__doc__,

      "train_cover_dictionary(dict_size, samples, k=None, d=None, notifications=0, dict_id=0, level=0)\n"

      "\n"

      "Train a dictionary from sample data using the COVER algorithm.\n"

      "\n"

      "This behaves like ``train_dictionary()`` except a different algorithm is\n"

      "used to create the dictionary. The algorithm has 2 parameters: ``k`` and\n"

      "``d``. These control the *segment size* and *dmer size*. A reasonable range\n"

      "for ``k`` is ``[16, 2048+]``. A reasonable range for ``d`` is ``[6, 16]``.\n"

      "``d`` must be less than or equal to ``k``.\n"

      );

      static char zstd_doc[] = "Interface to zstandard";

      static PyMethodDef zstd_methods[] = {

      	/* TODO remove since it is a method on CompressionParameters. */

      	{ "estimate_compression_context_size", (PyCFunction)estimate_compression_context_size,

      	METH_VARARGS, estimate_compression_context_size__doc__ },

      	{ "estimate_decompression_context_size", (PyCFunction)estimate_decompression_context_size,

      	METH_NOARGS, estimate_decompression_context_size__doc__ },

      	{ "get_compression_parameters", (PyCFunction)get_compression_parameters,

      	METH_VARARGS, get_compression_parameters__doc__ },

      	{ "get_frame_parameters", (PyCFunction)get_frame_parameters,

      	METH_VARARGS, get_frame_parameters__doc__ },

      	{ "train_dictionary", (PyCFunction)train_dictionary,

      	METH_VARARGS | METH_KEYWORDS, train_dictionary__doc__ },

      	{ "train_cover_dictionary", (PyCFunction)train_cover_dictionary,

      	METH_VARARGS | METH_KEYWORDS, train_cover_dictionary__doc__ },

      	{ NULL, NULL }

      };

      void bufferutil_module_init(PyObject* mod);

      void compressobj_module_init(PyObject* mod);

      void compressor_module_init(PyObject* mod);

      void compressionparams_module_init(PyObject* mod);

      void constants_module_init(PyObject* mod);

      void compressiondict_module_init(PyObject* mod);

      void compressionwriter_module_init(PyObject* mod);

      void compressoriterator_module_init(PyObject* mod);

      void decompressor_module_init(PyObject* mod);

      void decompressobj_module_init(PyObject* mod);

      void decompressionwriter_module_init(PyObject* mod);

      void decompressoriterator_module_init(PyObject* mod);

      void frameparams_module_init(PyObject* mod);

      void zstd_module_init(PyObject* m) {

      	/* python-zstandard relies on unstable zstd C API features. This means

      	   that changes in zstd may break expectations in python-zstandard.

      	   python-zstandard is distributed with a copy of the zstd sources.

      	   python-zstandard is only guaranteed to work with the bundled version

      	   of zstd.

      	   However, downstream redistributors or packagers may unbundle zstd

      	   from python-zstandard. This can result in a mismatch between zstd

      	   versions and API semantics. This essentially "voids the warranty"

      	   of python-zstandard and may cause undefined behavior.

      	   We detect this mismatch here and refuse to load the module if this

      	   scenario is detected.

      	*/

      	if (ZSTD_VERSION_NUMBER != 10103 || ZSTD_versionNumber() != 10103) {

      		PyErr_SetString(PyExc_ImportError, "zstd C API mismatch; Python bindings not compiled against expected zstd version");

      		return;

      	}

      	bufferutil_module_init(m);

      	compressionparams_module_init(m);

      	compressiondict_module_init(m);

      	compressobj_module_init(m);

      	compressor_module_init(m);

      	compressionwriter_module_init(m);

      	compressoriterator_module_init(m);

      	constants_module_init(m);

      	decompressor_module_init(m);

      	decompressobj_module_init(m);

      	decompressionwriter_module_init(m);

      	decompressoriterator_module_init(m);

      	frameparams_module_init(m);

      }

      #if PY_MAJOR_VERSION >= 3

      static struct PyModuleDef zstd_module = {

      	PyModuleDef_HEAD_INIT,

      	"zstd",

      	zstd_doc,

      	-1,

      	zstd_methods

      };

      PyMODINIT_FUNC PyInit_zstd(void) {

      	PyObject *m = PyModule_Create(&zstd_module);

      	if (m) {

      		zstd_module_init(m);

      		if (PyErr_Occurred()) {

      			Py_DECREF(m);

      			m = NULL;

      		}

      	}

      	return m;

      }

      #else

      PyMODINIT_FUNC initzstd(void) {

      	PyObject *m = Py_InitModule3("zstd", zstd_methods, zstd_doc);

      	if (m) {

      		zstd_module_init(m);

      	}

      }

      #endif

      /* Attempt to resolve the number of CPUs in the system. */

      int cpu_count() {

      	int count = 0;

      #if defined(_WIN32)

      	SYSTEM_INFO si;

      	si.dwNumberOfProcessors = 0;

      	GetSystemInfo(&si);

      	count = si.dwNumberOfProcessors;

      #elif defined(__APPLE__)

      	int num;

      	size_t size = sizeof(int);

      	if (0 == sysctlbyname("hw.logicalcpu", &num, &size, NULL, 0)) {

      		count = num;

      	}

      #elif defined(__linux__)

      	count = sysconf(_SC_NPROCESSORS_ONLN);

      #elif defined(__OpenBSD__) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__DragonFly__)

      	int mib[2];

      	size_t len = sizeof(count);

      	mib[0] = CTL_HW;

      	mib[1] = HW_NCPU;

      	if (0 != sysctl(mib, 2, &count, &len, NULL, 0)) {

      		count = 0;

      	}

      #elif defined(__hpux)

      	count = mpctl(MPC_GETNUMSPUS, NULL, NULL);

      #endif

      	return count;

      }

      size_t roundpow2(size_t i) {

      	i--;

      	i |= i >> 1;

      	i |= i >> 2;

      	i |= i >> 4;

      	i |= i >> 8;

      	i |= i >> 16;

      	i++;

      	return i;

      }

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				/**
				* Copyright (c) 2016-present, Gregory Szorc
				* All rights reserved.
				*
				* This software may be modified and distributed under the terms
				* of the BSD license. See the LICENSE file for details.
				*/

				/* A Python C extension for Zstandard. */

				#if defined(_WIN32)
				#define WIN32_LEAN_AND_MEAN
				#include <Windows.h>
				#elif defined(__APPLE__) \|\| defined(__OpenBSD__) \|\| defined(__FreeBSD__) \|\| defined(__NetBSD__) \|\| defined(__DragonFly__)
				#include <sys/types.h>
				#include <sys/sysctl.h>
				#endif

				#include "python-zstandard.h"

				PyObject *ZstdError;

				PyDoc_STRVAR(estimate_compression_context_size__doc__,
				"estimate_compression_context_size(compression_parameters)\n"
				"\n"
				"Give the amount of memory allocated for a compression context given a\n"
				"CompressionParameters instance");

				PyDoc_STRVAR(estimate_decompression_context_size__doc__,
				"estimate_decompression_context_size()\n"
				"\n"
				"Estimate the amount of memory allocated to a decompression context.\n"
				);

				static PyObject* estimate_decompression_context_size(PyObject* self) {
				return PyLong_FromSize_t(ZSTD_estimateDCtxSize());
				}

				PyDoc_STRVAR(get_compression_parameters__doc__,
				"get_compression_parameters(compression_level[, source_size[, dict_size]])\n"
				"\n"
				"Obtains a ``CompressionParameters`` instance from a compression level and\n"
				"optional input size and dictionary size");

				PyDoc_STRVAR(get_frame_parameters__doc__,
				"get_frame_parameters(data)\n"
				"\n"
				"Obtains a ``FrameParameters`` instance by parsing data.\n");

				PyDoc_STRVAR(train_dictionary__doc__,
				"train_dictionary(dict_size, samples)\n"
				"\n"
				"Train a dictionary from sample data.\n"
				"\n"
				"A compression dictionary of size ``dict_size`` will be created from the\n"
				"iterable of samples provided by ``samples``.\n"
				"\n"
				"The raw dictionary content will be returned\n");

				PyDoc_STRVAR(train_cover_dictionary__doc__,
				"train_cover_dictionary(dict_size, samples, k=None, d=None, notifications=0, dict_id=0, level=0)\n"
				"\n"
				"Train a dictionary from sample data using the COVER algorithm.\n"
				"\n"
				"This behaves like ``train_dictionary()`` except a different algorithm is\n"
				"used to create the dictionary. The algorithm has 2 parameters: ``k`` and\n"
				"``d``. These control the segment size and dmer size. A reasonable range\n"
				"for ``k`` is ``[16, 2048+]``. A reasonable range for ``d`` is ``[6, 16]``.\n"
				"``d`` must be less than or equal to ``k``.\n"
				);

				static char zstd_doc[] = "Interface to zstandard";

				static PyMethodDef zstd_methods[] = {
				/* TODO remove since it is a method on CompressionParameters. */
				{ "estimate_compression_context_size", (PyCFunction)estimate_compression_context_size,
				METH_VARARGS, estimate_compression_context_size__doc__ },
				{ "estimate_decompression_context_size", (PyCFunction)estimate_decompression_context_size,
				METH_NOARGS, estimate_decompression_context_size__doc__ },
				{ "get_compression_parameters", (PyCFunction)get_compression_parameters,
				METH_VARARGS, get_compression_parameters__doc__ },
				{ "get_frame_parameters", (PyCFunction)get_frame_parameters,
				METH_VARARGS, get_frame_parameters__doc__ },
				{ "train_dictionary", (PyCFunction)train_dictionary,
				METH_VARARGS \| METH_KEYWORDS, train_dictionary__doc__ },
				{ "train_cover_dictionary", (PyCFunction)train_cover_dictionary,
				METH_VARARGS \| METH_KEYWORDS, train_cover_dictionary__doc__ },
				{ NULL, NULL }
				};

				void bufferutil_module_init(PyObject* mod);
				void compressobj_module_init(PyObject* mod);
				void compressor_module_init(PyObject* mod);
				void compressionparams_module_init(PyObject* mod);
				void constants_module_init(PyObject* mod);
				void compressiondict_module_init(PyObject* mod);
				void compressionwriter_module_init(PyObject* mod);
				void compressoriterator_module_init(PyObject* mod);
				void decompressor_module_init(PyObject* mod);
				void decompressobj_module_init(PyObject* mod);
				void decompressionwriter_module_init(PyObject* mod);
				void decompressoriterator_module_init(PyObject* mod);
				void frameparams_module_init(PyObject* mod);

				void zstd_module_init(PyObject* m) {
				/* python-zstandard relies on unstable zstd C API features. This means
				that changes in zstd may break expectations in python-zstandard.

				python-zstandard is distributed with a copy of the zstd sources.
				python-zstandard is only guaranteed to work with the bundled version
				of zstd.

				However, downstream redistributors or packagers may unbundle zstd
				from python-zstandard. This can result in a mismatch between zstd
				versions and API semantics. This essentially "voids the warranty"
				of python-zstandard and may cause undefined behavior.

				We detect this mismatch here and refuse to load the module if this
				scenario is detected.
				*/
				if (ZSTD_VERSION_NUMBER != 10103 \|\| ZSTD_versionNumber() != 10103) {
				PyErr_SetString(PyExc_ImportError, "zstd C API mismatch; Python bindings not compiled against expected zstd version");
				return;
				}

				bufferutil_module_init(m);
				compressionparams_module_init(m);
				compressiondict_module_init(m);
				compressobj_module_init(m);
				compressor_module_init(m);
				compressionwriter_module_init(m);
				compressoriterator_module_init(m);
				constants_module_init(m);
				decompressor_module_init(m);
				decompressobj_module_init(m);
				decompressionwriter_module_init(m);
				decompressoriterator_module_init(m);
				frameparams_module_init(m);
				}

				#if PY_MAJOR_VERSION >= 3
				static struct PyModuleDef zstd_module = {
				PyModuleDef_HEAD_INIT,
				"zstd",
				zstd_doc,
				-1,
				zstd_methods
				};

				PyMODINIT_FUNC PyInit_zstd(void) {
				PyObject *m = PyModule_Create(&zstd_module);
				if (m) {
				zstd_module_init(m);
				if (PyErr_Occurred()) {
				Py_DECREF(m);
				m = NULL;
				}
				}
				return m;
				}
				#else
				PyMODINIT_FUNC initzstd(void) {
				PyObject *m = Py_InitModule3("zstd", zstd_methods, zstd_doc);
				if (m) {
				zstd_module_init(m);
				}
				}
				#endif

				/* Attempt to resolve the number of CPUs in the system. */
				int cpu_count() {
				int count = 0;

				#if defined(_WIN32)
				SYSTEM_INFO si;
				si.dwNumberOfProcessors = 0;
				GetSystemInfo(&si);
				count = si.dwNumberOfProcessors;
				#elif defined(__APPLE__)
				int num;
				size_t size = sizeof(int);

				if (0 == sysctlbyname("hw.logicalcpu", &num, &size, NULL, 0)) {
				count = num;
				}
				#elif defined(__linux__)
				count = sysconf(_SC_NPROCESSORS_ONLN);
				#elif defined(__OpenBSD__) \|\| defined(__FreeBSD__) \|\| defined(__NetBSD__) \|\| defined(__DragonFly__)
				int mib[2];
				size_t len = sizeof(count);
				mib[0] = CTL_HW;
				mib[1] = HW_NCPU;
				if (0 != sysctl(mib, 2, &count, &len, NULL, 0)) {
				count = 0;
				}
				#elif defined(__hpux)
				count = mpctl(MPC_GETNUMSPUS, NULL, NULL);
				#endif

				return count;
				}

				size_t roundpow2(size_t i) {
				i--;
				i \|= i >> 1;
				i \|= i >> 2;
				i \|= i >> 4;
				i \|= i >> 8;
				i \|= i >> 16;
				i++;

				return i;
				}