From 44af9adf79b6947a409faa465bcd96860d56fd40 Mon Sep 17 00:00:00 2001 From: Niels Dossche <7771979+nielsdos@users.noreply.github.com> Date: Wed, 8 Oct 2025 17:32:30 +0200 Subject: [PATCH 1/7] Drop LIBXML_HTML_ENABLED checks (#20083) It is possible to build libxml without HTML support, which would mean that PHP does not support the saveHtml() features and HTML parsing in general. It also adds some maintenance complexity. I'm not aware of any distro that does this and it shows: this has been broken since stubs have been introduced. So we can just drop it as clearly no one cares about this or we would've known about it already. It also simplifies downstream code because they can now rely on the HTML functionality to always be available. --- ext/dom/document.c | 4 ---- ext/dom/php_dom.c | 12 ------------ ext/dom/php_dom.h | 2 -- ext/dom/php_dom.stub.php | 2 -- ext/dom/php_dom_arginfo.h | 18 +++--------------- 5 files changed, 3 insertions(+), 35 deletions(-) diff --git a/ext/dom/document.c b/ext/dom/document.c index 6db729535d30..c56ec257cec3 100644 --- a/ext/dom/document.c +++ b/ext/dom/document.c @@ -2040,8 +2040,6 @@ PHP_METHOD(DOMDocument, relaxNGValidateSource) #endif -#ifdef LIBXML_HTML_ENABLED - static void dom_load_html(INTERNAL_FUNCTION_PARAMETERS, int mode) /* {{{ */ { char *source; @@ -2234,8 +2232,6 @@ PHP_METHOD(DOMDocument, saveHTML) } /* }}} end dom_document_save_html */ -#endif /* defined(LIBXML_HTML_ENABLED) */ - /* {{{ Register extended class used to create base node type */ static void dom_document_register_node_class(INTERNAL_FUNCTION_PARAMETERS, bool modern) { diff --git a/ext/dom/php_dom.c b/ext/dom/php_dom.c index 095d07e875ea..d360163ab5e5 100644 --- a/ext/dom/php_dom.c +++ b/ext/dom/php_dom.c @@ -1369,9 +1369,7 @@ PHP_MINFO_FUNCTION(dom) php_info_print_table_row(2, "DOM/XML", "enabled"); php_info_print_table_row(2, "DOM/XML API Version", DOM_API_VERSION); php_info_print_table_row(2, "libxml Version", LIBXML_DOTTED_VERSION); -#ifdef LIBXML_HTML_ENABLED php_info_print_table_row(2, "HTML Support", "enabled"); -#endif #ifdef LIBXML_XPATH_ENABLED php_info_print_table_row(2, "XPath Support", "enabled"); #endif @@ -2709,20 +2707,10 @@ xmlChar *php_dom_libxml_fix_file_path(xmlChar *path) xmlDocPtr php_dom_create_html_doc(void) { -#ifdef LIBXML_HTML_ENABLED xmlDocPtr lxml_doc = htmlNewDocNoDtD(NULL, NULL); if (EXPECTED(lxml_doc)) { lxml_doc->dict = xmlDictCreate(); } -#else - /* If HTML support is not enabled, then htmlNewDocNoDtD() is not available. - * This code mimics the behaviour. */ - xmlDocPtr lxml_doc = xmlNewDoc((const xmlChar *) "1.0"); - if (EXPECTED(lxml_doc)) { - lxml_doc->type = XML_HTML_DOCUMENT_NODE; - lxml_doc->dict = xmlDictCreate(); - } -#endif return lxml_doc; } diff --git a/ext/dom/php_dom.h b/ext/dom/php_dom.h index 34cc4af85c56..e44f74eadeb3 100644 --- a/ext/dom/php_dom.h +++ b/ext/dom/php_dom.h @@ -34,10 +34,8 @@ extern zend_module_entry dom_module_entry; #include #include #include -#ifdef LIBXML_HTML_ENABLED #include #include -#endif #ifdef LIBXML_XPATH_ENABLED #include #include diff --git a/ext/dom/php_dom.stub.php b/ext/dom/php_dom.stub.php index 7236e80b4d24..37a1bea62b62 100644 --- a/ext/dom/php_dom.stub.php +++ b/ext/dom/php_dom.stub.php @@ -1013,7 +1013,6 @@ public function registerNodeClass(string $baseClass, ?string $extendedClass): tr /** @tentative-return-type */ public function save(string $filename, int $options = 0): int|false {} -#ifdef LIBXML_HTML_ENABLED /** @tentative-return-type */ public function loadHTML(string $source, int $options = 0): bool {} @@ -1025,7 +1024,6 @@ public function saveHTML(?DOMNode $node = null): string|false {} /** @tentative-return-type */ public function saveHTMLFile(string $filename): int|false {} -#endif /** @tentative-return-type */ public function saveXML(?DOMNode $node = null, int $options = 0): string|false {} diff --git a/ext/dom/php_dom_arginfo.h b/ext/dom/php_dom_arginfo.h index 9b2e467d1c6a..1f3f9fd0a8a2 100644 --- a/ext/dom/php_dom_arginfo.h +++ b/ext/dom/php_dom_arginfo.h @@ -1,5 +1,5 @@ /* This is a generated file, edit the .stub.php file instead. - * Stub hash: 757889c0ca89cc8e9905ba465e0621fe89b6e716 */ + * Stub hash: e3495cb89e4466d9102abb10bf6461989b7c8ba9 */ ZEND_BEGIN_ARG_WITH_RETURN_OBJ_TYPE_MASK_EX(arginfo_dom_import_simplexml, 0, 1, DOMAttr|DOMElement, 0) ZEND_ARG_TYPE_INFO(0, node, IS_OBJECT, 0) @@ -404,16 +404,9 @@ ZEND_BEGIN_ARG_WITH_TENTATIVE_RETURN_TYPE_MASK_EX(arginfo_class_DOMDocument_save ZEND_ARG_TYPE_INFO_WITH_DEFAULT_VALUE(0, options, IS_LONG, 0, "0") ZEND_END_ARG_INFO() -#if defined(LIBXML_HTML_ENABLED) -ZEND_BEGIN_ARG_WITH_TENTATIVE_RETURN_TYPE_INFO_EX(arginfo_class_DOMDocument_loadHTML, 0, 1, _IS_BOOL, 0) - ZEND_ARG_TYPE_INFO(0, source, IS_STRING, 0) - ZEND_ARG_TYPE_INFO_WITH_DEFAULT_VALUE(0, options, IS_LONG, 0, "0") -ZEND_END_ARG_INFO() +#define arginfo_class_DOMDocument_loadHTML arginfo_class_DOMDocument_loadXML -ZEND_BEGIN_ARG_WITH_TENTATIVE_RETURN_TYPE_INFO_EX(arginfo_class_DOMDocument_loadHTMLFile, 0, 1, _IS_BOOL, 0) - ZEND_ARG_TYPE_INFO(0, filename, IS_STRING, 0) - ZEND_ARG_TYPE_INFO_WITH_DEFAULT_VALUE(0, options, IS_LONG, 0, "0") -ZEND_END_ARG_INFO() +#define arginfo_class_DOMDocument_loadHTMLFile arginfo_class_DOMDocument_load ZEND_BEGIN_ARG_WITH_TENTATIVE_RETURN_TYPE_MASK_EX(arginfo_class_DOMDocument_saveHTML, 0, 0, MAY_BE_STRING|MAY_BE_FALSE) ZEND_ARG_OBJ_INFO_WITH_DEFAULT_VALUE(0, node, DOMNode, 1, "null") @@ -422,7 +415,6 @@ ZEND_END_ARG_INFO() ZEND_BEGIN_ARG_WITH_TENTATIVE_RETURN_TYPE_MASK_EX(arginfo_class_DOMDocument_saveHTMLFile, 0, 1, MAY_BE_LONG|MAY_BE_FALSE) ZEND_ARG_TYPE_INFO(0, filename, IS_STRING, 0) ZEND_END_ARG_INFO() -#endif ZEND_BEGIN_ARG_WITH_TENTATIVE_RETURN_TYPE_MASK_EX(arginfo_class_DOMDocument_saveXML, 0, 0, MAY_BE_STRING|MAY_BE_FALSE) ZEND_ARG_OBJ_INFO_WITH_DEFAULT_VALUE(0, node, DOMNode, 1, "null") @@ -1228,12 +1220,10 @@ ZEND_METHOD(DOMDocument, loadXML); ZEND_METHOD(DOMDocument, normalizeDocument); ZEND_METHOD(DOMDocument, registerNodeClass); ZEND_METHOD(DOMDocument, save); -#if defined(LIBXML_HTML_ENABLED) ZEND_METHOD(DOMDocument, loadHTML); ZEND_METHOD(DOMDocument, loadHTMLFile); ZEND_METHOD(DOMDocument, saveHTML); ZEND_METHOD(DOMDocument, saveHTMLFile); -#endif ZEND_METHOD(DOMDocument, saveXML); #if defined(LIBXML_SCHEMAS_ENABLED) ZEND_METHOD(DOMDocument, schemaValidate); @@ -1496,12 +1486,10 @@ static const zend_function_entry class_DOMDocument_methods[] = { ZEND_ME(DOMDocument, normalizeDocument, arginfo_class_DOMDocument_normalizeDocument, ZEND_ACC_PUBLIC) ZEND_ME(DOMDocument, registerNodeClass, arginfo_class_DOMDocument_registerNodeClass, ZEND_ACC_PUBLIC) ZEND_ME(DOMDocument, save, arginfo_class_DOMDocument_save, ZEND_ACC_PUBLIC) -#if defined(LIBXML_HTML_ENABLED) ZEND_ME(DOMDocument, loadHTML, arginfo_class_DOMDocument_loadHTML, ZEND_ACC_PUBLIC) ZEND_ME(DOMDocument, loadHTMLFile, arginfo_class_DOMDocument_loadHTMLFile, ZEND_ACC_PUBLIC) ZEND_ME(DOMDocument, saveHTML, arginfo_class_DOMDocument_saveHTML, ZEND_ACC_PUBLIC) ZEND_ME(DOMDocument, saveHTMLFile, arginfo_class_DOMDocument_saveHTMLFile, ZEND_ACC_PUBLIC) -#endif ZEND_ME(DOMDocument, saveXML, arginfo_class_DOMDocument_saveXML, ZEND_ACC_PUBLIC) #if defined(LIBXML_SCHEMAS_ENABLED) ZEND_ME(DOMDocument, schemaValidate, arginfo_class_DOMDocument_schemaValidate, ZEND_ACC_PUBLIC) From 27035eb01e2d7fb44522240739b644975006dbc6 Mon Sep 17 00:00:00 2001 From: Niels Dossche <7771979+nielsdos@users.noreply.github.com> Date: Tue, 7 Oct 2025 21:16:22 +0200 Subject: [PATCH 2/7] Fix GH-20085: Assertion failure when combining lazy object get_properties exception with foreach loop In this test, we will loop once, and then replace the object with an instance that'll throw on property construction in Z_OBJPROP_P() in the ZEND_FE_FETCH_RW VM handler. Since at that point `pos >= fe_ht->nNumUsed`, we exit via `fe_fetch_w_exit` without checking for an exception, causing incorrect continuation of the code and an eventual assertion failure. To solve this, we perform an exception check at the end of the iteration. This should be sufficient to guarantee the exception is checked in time as failure of get_properties() via Z_OBJPROP_P() will always result in an empty hash table. This should also be more efficient than the alternative fix that checks for an exception right after Z_OBJPROP_P() as that would be executed at each iteration. Closes GH-20098. --- NEWS | 2 ++ Zend/tests/lazy_objects/gh20085.phpt | 25 +++++++++++++++++++++++++ Zend/zend_vm_def.h | 3 ++- Zend/zend_vm_execute.h | 3 ++- 4 files changed, 31 insertions(+), 2 deletions(-) create mode 100644 Zend/tests/lazy_objects/gh20085.phpt diff --git a/NEWS b/NEWS index cea3e9b1db1d..6d3f3b7d82d7 100644 --- a/NEWS +++ b/NEWS @@ -6,6 +6,8 @@ PHP NEWS . Fixed bug GH-19934 (CGI with auto_globals_jit=0 causes uouv). (ilutov) . Fixed bug GH-20073 (Assertion failure in WeakMap offset operations on reference). (nielsdos) + . Fixed bug GH-20085 (Assertion failure when combining lazy object + get_properties exception with foreach loop). (nielsdos) 09 Oct 2025, PHP 8.4.14 diff --git a/Zend/tests/lazy_objects/gh20085.phpt b/Zend/tests/lazy_objects/gh20085.phpt new file mode 100644 index 000000000000..5624f71ea8b4 --- /dev/null +++ b/Zend/tests/lazy_objects/gh20085.phpt @@ -0,0 +1,25 @@ +--TEST-- +GH-20085 (Assertion failure when combining lazy object get_properties exception with foreach loop) +--FILE-- +a = 1; + } +} +$obj = new C; +$reflector = new ReflectionClass(C::class); +foreach ($obj as &$value) { + $obj = $reflector->newLazyGhost(function ($obj) { + throw new Error; + }); +} +echo !obj; +?> +--EXPECTF-- +Fatal error: Uncaught Error in %s:%d +Stack trace: +#0 %s(%d): {closure:%s:%d}(Object(C)) +#1 {main} + thrown in %s on line %d diff --git a/Zend/zend_vm_def.h b/Zend/zend_vm_def.h index c40dd4cc8edf..039d9679848e 100644 --- a/Zend/zend_vm_def.h +++ b/Zend/zend_vm_def.h @@ -7275,7 +7275,7 @@ ZEND_VM_HANDLER(126, ZEND_FE_FETCH_RW, VAR, ANY, JMP_ADDR) while (1) { if (UNEXPECTED(pos >= fe_ht->nNumUsed)) { /* reached end of iteration */ - ZEND_VM_C_GOTO(fe_fetch_w_exit); + ZEND_VM_C_GOTO(fe_fetch_w_exit_exc); } pos++; value = &p->val; @@ -7371,6 +7371,7 @@ ZEND_VM_HANDLER(126, ZEND_FE_FETCH_RW, VAR, ANY, JMP_ADDR) } } else { zend_error(E_WARNING, "foreach() argument must be of type array|object, %s given", zend_zval_value_name(array)); +ZEND_VM_C_LABEL(fe_fetch_w_exit_exc): if (UNEXPECTED(EG(exception))) { UNDEF_RESULT(); HANDLE_EXCEPTION(); diff --git a/Zend/zend_vm_execute.h b/Zend/zend_vm_execute.h index a9f33224d82a..d6ee850839ae 100644 --- a/Zend/zend_vm_execute.h +++ b/Zend/zend_vm_execute.h @@ -23173,7 +23173,7 @@ static ZEND_OPCODE_HANDLER_RET ZEND_FASTCALL ZEND_FE_FETCH_RW_SPEC_VAR_HANDLER(Z while (1) { if (UNEXPECTED(pos >= fe_ht->nNumUsed)) { /* reached end of iteration */ - goto fe_fetch_w_exit; + goto fe_fetch_w_exit_exc; } pos++; value = &p->val; @@ -23269,6 +23269,7 @@ static ZEND_OPCODE_HANDLER_RET ZEND_FASTCALL ZEND_FE_FETCH_RW_SPEC_VAR_HANDLER(Z } } else { zend_error(E_WARNING, "foreach() argument must be of type array|object, %s given", zend_zval_value_name(array)); +fe_fetch_w_exit_exc: if (UNEXPECTED(EG(exception))) { UNDEF_RESULT(); HANDLE_EXCEPTION(); From aaed3ccb4791ea51fe36cb621ddce31c1716f0b9 Mon Sep 17 00:00:00 2001 From: Niels Dossche <7771979+nielsdos@users.noreply.github.com> Date: Wed, 8 Oct 2025 17:37:24 +0200 Subject: [PATCH 3/7] Allow by-ref assign to WeakMap even if object is not yet in the map (#20097) Previously this failed as the read_dimension which is invoked by ref-assign does not contain the logic to add the key, so it was required to first write the value using a normal assignment and then thereafter use the reference assignment. This solves it by adding the necessary logic to assign references directly. --- NEWS | 2 ++ UPGRADING | 4 ++++ .../weakmap_by_ref_dimension_assign.phpt | 13 +++++++++++ Zend/zend_weakrefs.c | 23 ++++++++++++------- 4 files changed, 34 insertions(+), 8 deletions(-) create mode 100644 Zend/tests/weakrefs/weakmap_by_ref_dimension_assign.phpt diff --git a/NEWS b/NEWS index 1634189bde10..38d3bde8a746 100644 --- a/NEWS +++ b/NEWS @@ -5,6 +5,8 @@ PHP NEWS - Core: . Added first-class callable cache to share instances for the duration of the request. (ilutov) + . It is now possible to use reference assign on WeakMap without the key + needing to be present beforehand. (nielsdos) - Intl: . Added IntlNumberRangeFormatter class to format an interval of two numbers diff --git a/UPGRADING b/UPGRADING index 51a057003b54..6873c276a096 100644 --- a/UPGRADING +++ b/UPGRADING @@ -23,6 +23,10 @@ PHP 8.6 UPGRADE NOTES 2. New Features ======================================== +- Core: + . It is now possible to use reference assign on WeakMap without the key + needing to be present beforehand. + - Intl: . Added IntlNumberRangeFormatter class to format an interval of two numbers with a given skeleton, locale, IntlNumberRangeFormatter::COLLAPSE_AUTO, IntlNumberRangeFormatter::COLLAPSE_NONE, IntlNumberRangeFormatter::COLLAPSE_UNIT, IntlNumberRangeFormatter::COLLAPSE_ALL collapse and IntlNumberRangeFormatter::IDENTITY_FALLBACK_SINGLE_VALUE, IntlNumberRangeFormatter::IDENTITY_FALLBACK_APPROXIMATELY_OR_SINGLE_VALUE, IntlNumberRangeFormatter::IDENTITY_FALLBACK_APPROXIMATELY and diff --git a/Zend/tests/weakrefs/weakmap_by_ref_dimension_assign.phpt b/Zend/tests/weakrefs/weakmap_by_ref_dimension_assign.phpt new file mode 100644 index 000000000000..6444de7eea6b --- /dev/null +++ b/Zend/tests/weakrefs/weakmap_by_ref_dimension_assign.phpt @@ -0,0 +1,13 @@ +--TEST-- +By-ref assign of WeakMap dimension +--FILE-- + +--EXPECT-- +int(1) diff --git a/Zend/zend_weakrefs.c b/Zend/zend_weakrefs.c index 518d2d8eb9ee..83a28808811d 100644 --- a/Zend/zend_weakrefs.c +++ b/Zend/zend_weakrefs.c @@ -370,18 +370,25 @@ static zval *zend_weakmap_read_dimension(zend_object *object, zval *offset, int zend_weakmap *wm = zend_weakmap_from(object); zend_object *obj_addr = Z_OBJ_P(offset); zval *zv = zend_hash_index_find(&wm->ht, zend_object_to_weakref_key(obj_addr)); - if (zv == NULL) { - if (type != BP_VAR_IS) { - zend_throw_error(NULL, - "Object %s#%d not contained in WeakMap", ZSTR_VAL(obj_addr->ce->name), obj_addr->handle); + if (type == BP_VAR_W || type == BP_VAR_RW) { + if (zv == NULL) { + zval value; + zend_weakref_register(obj_addr, ZEND_WEAKREF_ENCODE(&wm->ht, ZEND_WEAKREF_TAG_MAP)); + ZVAL_NULL(&value); + zv = zend_hash_index_add_new(&wm->ht, zend_object_to_weakref_key(obj_addr), &value); + } + ZVAL_MAKE_REF(zv); + } else { + if (zv == NULL) { + if (type != BP_VAR_IS) { + zend_throw_error(NULL, + "Object %s#%d not contained in WeakMap", ZSTR_VAL(obj_addr->ce->name), obj_addr->handle); + return NULL; + } return NULL; } - return NULL; } - if (type == BP_VAR_W || type == BP_VAR_RW) { - ZVAL_MAKE_REF(zv); - } return zv; } From c5fa7696e64455a8b23f00985a3bad61ebc062e7 Mon Sep 17 00:00:00 2001 From: Niels Dossche <7771979+nielsdos@users.noreply.github.com> Date: Wed, 8 Oct 2025 09:31:00 +0200 Subject: [PATCH 4/7] Fix Randomizer::__serialize() wrt INDIRECTs First follow-up to GH-20102. INDIRECTs must never get exposed to userland. The simple solution is to duplicate the properties array. Closes GH-20103. --- NEWS | 3 +++ ext/random/randomizer.c | 3 +-- .../methods/__serialize_indirects.phpt | 18 ++++++++++++++++++ 3 files changed, 22 insertions(+), 2 deletions(-) create mode 100644 ext/random/tests/03_randomizer/methods/__serialize_indirects.phpt diff --git a/NEWS b/NEWS index b2b8aaacf152..12ccb411bb51 100644 --- a/NEWS +++ b/NEWS @@ -7,6 +7,9 @@ PHP NEWS . Fixed bug GH-20073 (Assertion failure in WeakMap offset operations on reference). (nielsdos) +- Random: + . Fix Randomizer::__serialize() w.r.t. INDIRECTs. (nielsdos) + 23 Oct 2025, PHP 8.3.27 - Core: diff --git a/ext/random/randomizer.c b/ext/random/randomizer.c index fe9ad5fc35a9..6254fe27c9c5 100644 --- a/ext/random/randomizer.c +++ b/ext/random/randomizer.c @@ -468,8 +468,7 @@ PHP_METHOD(Random_Randomizer, __serialize) ZEND_PARSE_PARAMETERS_NONE(); array_init(return_value); - ZVAL_ARR(&t, zend_std_get_properties(&randomizer->std)); - Z_TRY_ADDREF(t); + ZVAL_ARR(&t, zend_array_dup(zend_std_get_properties(&randomizer->std))); zend_hash_next_index_insert(Z_ARRVAL_P(return_value), &t); } /* }}} */ diff --git a/ext/random/tests/03_randomizer/methods/__serialize_indirects.phpt b/ext/random/tests/03_randomizer/methods/__serialize_indirects.phpt new file mode 100644 index 000000000000..1207e18dd829 --- /dev/null +++ b/ext/random/tests/03_randomizer/methods/__serialize_indirects.phpt @@ -0,0 +1,18 @@ +--TEST-- +Random: Engine: __serialize() must not expose INDIRECTs +--FILE-- +__serialize()); + +?> +--EXPECT-- +array(1) { + [0]=> + array(1) { + ["engine"]=> + object(Random\Engine\Secure)#2 (0) { + } + } +} From 0458b3c8db791ebc569a5bf30111c6396a5266cc Mon Sep 17 00:00:00 2001 From: Niels Dossche <7771979+nielsdos@users.noreply.github.com> Date: Wed, 8 Oct 2025 17:28:37 +0200 Subject: [PATCH 5/7] Fix GH-20101: SplHeap/SplPriorityQueue serialization exposes INDIRECTs Exposing INDIRECTs to userland is not allowed and can lead to all sorts of wrong behaviour. In this case it lead to UAF bugs. Solve it by duplicating the properties table, which de-indirects the elements and also decouples it for future modifications. Closes GH-20102. --- NEWS | 3 ++ ext/spl/spl_heap.c | 35 ++++--------- .../SplHeap_serialize_indexed_format.phpt | 4 +- ext/spl/tests/gh20101.phpt | 49 +++++++++++++++++++ 4 files changed, 63 insertions(+), 28 deletions(-) create mode 100644 ext/spl/tests/gh20101.phpt diff --git a/NEWS b/NEWS index 93b2616f71f5..4b09eacae5da 100644 --- a/NEWS +++ b/NEWS @@ -2,6 +2,9 @@ PHP NEWS ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||| ?? ??? ????, PHP 8.5.0RC3 +- SPL: + . Fixed bug GH-20101 (SplHeap/SplPriorityQueue serialization + exposes INDIRECTs). (nielsdos) 09 Oct 2025, PHP 8.5.0RC2 diff --git a/ext/spl/spl_heap.c b/ext/spl/spl_heap.c index 19e86b0d80b7..254fbde7b3ff 100644 --- a/ext/spl/spl_heap.c +++ b/ext/spl/spl_heap.c @@ -1167,7 +1167,7 @@ static zend_result spl_heap_unserialize_internal_state(HashTable *state_ht, spl_ return SUCCESS; } -PHP_METHOD(SplPriorityQueue, __serialize) +static void spl_heap_serialize_internal(INTERNAL_FUNCTION_PARAMETERS, bool is_pqueue) { spl_heap_object *intern = Z_SPLHEAP_P(ZEND_THIS); zval props, state; @@ -1185,14 +1185,18 @@ PHP_METHOD(SplPriorityQueue, __serialize) array_init(return_value); - ZVAL_ARR(&props, zend_std_get_properties(&intern->std)); - Z_TRY_ADDREF(props); + ZVAL_ARR(&props, zend_array_dup(zend_std_get_properties(&intern->std))); zend_hash_next_index_insert(Z_ARRVAL_P(return_value), &props); - spl_heap_serialize_internal_state(&state, intern, true); + spl_heap_serialize_internal_state(&state, intern, is_pqueue); zend_hash_next_index_insert(Z_ARRVAL_P(return_value), &state); } +PHP_METHOD(SplPriorityQueue, __serialize) +{ + spl_heap_serialize_internal(INTERNAL_FUNCTION_PARAM_PASSTHRU, true); +} + PHP_METHOD(SplPriorityQueue, __unserialize) { HashTable *data; @@ -1241,28 +1245,7 @@ PHP_METHOD(SplPriorityQueue, __unserialize) PHP_METHOD(SplHeap, __serialize) { - spl_heap_object *intern = Z_SPLHEAP_P(ZEND_THIS); - zval props, state; - - ZEND_PARSE_PARAMETERS_NONE(); - - if (UNEXPECTED(spl_heap_consistency_validations(intern, false) != SUCCESS)) { - RETURN_THROWS(); - } - - if (intern->heap->flags & SPL_HEAP_WRITE_LOCKED) { - zend_throw_exception(spl_ce_RuntimeException, "Cannot serialize heap while it is being modified.", 0); - RETURN_THROWS(); - } - - array_init(return_value); - - ZVAL_ARR(&props, zend_std_get_properties(&intern->std)); - Z_TRY_ADDREF(props); - zend_hash_next_index_insert(Z_ARRVAL_P(return_value), &props); - - spl_heap_serialize_internal_state(&state, intern, false); - zend_hash_next_index_insert(Z_ARRVAL_P(return_value), &state); + spl_heap_serialize_internal(INTERNAL_FUNCTION_PARAM_PASSTHRU, false); } PHP_METHOD(SplHeap, __unserialize) diff --git a/ext/spl/tests/SplHeap_serialize_indexed_format.phpt b/ext/spl/tests/SplHeap_serialize_indexed_format.phpt index c201feb5716f..21ea74c6bff9 100644 --- a/ext/spl/tests/SplHeap_serialize_indexed_format.phpt +++ b/ext/spl/tests/SplHeap_serialize_indexed_format.phpt @@ -74,9 +74,9 @@ array(2) { [0]=> array(2) { ["flags"]=> - UNKNOWN:0 + string(13) "user_property" ["heap_elements"]=> - UNKNOWN:0 + string(13) "user_property" } [1]=> array(2) { diff --git a/ext/spl/tests/gh20101.phpt b/ext/spl/tests/gh20101.phpt new file mode 100644 index 000000000000..ad2399d76c8e --- /dev/null +++ b/ext/spl/tests/gh20101.phpt @@ -0,0 +1,49 @@ +--TEST-- +GH-20101 (SplHeap/SplPriorityQueue serialization exposes INDIRECTs) +--FILE-- +__serialize(); +var_dump($data); + +class CustomPriorityQueue extends SplPriorityQueue { + public $field = 0; +} +$pqueue = new CustomPriorityQueue(); +$data = $pqueue->__serialize(); +var_dump($data); +?> +--EXPECT-- +array(2) { + [0]=> + array(1) { + ["field"]=> + int(0) + } + [1]=> + array(2) { + ["flags"]=> + int(0) + ["heap_elements"]=> + array(0) { + } + } +} +array(2) { + [0]=> + array(1) { + ["field"]=> + int(0) + } + [1]=> + array(2) { + ["flags"]=> + int(1) + ["heap_elements"]=> + array(0) { + } + } +} From a07d257790d23295dcbff52be29f822ee5c3a6f1 Mon Sep 17 00:00:00 2001 From: Niels Dossche <7771979+nielsdos@users.noreply.github.com> Date: Wed, 8 Oct 2025 18:56:19 +0200 Subject: [PATCH 6/7] Regenerate zend_vm_execute.h --- Zend/zend_vm_execute.h | 3 ++- 1 file changed, 2 insertions(+), 1 deletion(-) diff --git a/Zend/zend_vm_execute.h b/Zend/zend_vm_execute.h index bc0291692b07..da8e40ec2401 100644 --- a/Zend/zend_vm_execute.h +++ b/Zend/zend_vm_execute.h @@ -78853,7 +78853,7 @@ static ZEND_OPCODE_HANDLER_RET ZEND_OPCODE_HANDLER_CCONV ZEND_FE_FETCH_RW_SPEC_V while (1) { if (UNEXPECTED(pos >= fe_ht->nNumUsed)) { /* reached end of iteration */ - goto fe_fetch_w_exit; + goto fe_fetch_w_exit_exc; } pos++; value = &p->val; @@ -78949,6 +78949,7 @@ static ZEND_OPCODE_HANDLER_RET ZEND_OPCODE_HANDLER_CCONV ZEND_FE_FETCH_RW_SPEC_V } } else { zend_error(E_WARNING, "foreach() argument must be of type array|object, %s given", zend_zval_value_name(array)); +fe_fetch_w_exit_exc: if (UNEXPECTED(EG(exception))) { UNDEF_RESULT(); HANDLE_EXCEPTION(); From 50b3222d45b21e0c0f4ea84d78aec59843e3fcc4 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Tim=20D=C3=BCsterhus?= Date: Wed, 8 Oct 2025 21:04:18 +0200 Subject: [PATCH 7/7] hash: Upgrade xxHash to 0.8.2 (#20064) --- NEWS | 3 + UPGRADING | 3 + ext/hash/xxhash/xxhash.h | 2929 ++++++++++++++++++++++++++------------ 3 files changed, 2052 insertions(+), 883 deletions(-) diff --git a/NEWS b/NEWS index 38d3bde8a746..ab372893ce66 100644 --- a/NEWS +++ b/NEWS @@ -8,6 +8,9 @@ PHP NEWS . It is now possible to use reference assign on WeakMap without the key needing to be present beforehand. (nielsdos) +- Hash: + . Upgrade xxHash to 0.8.2. (timwolla) + - Intl: . Added IntlNumberRangeFormatter class to format an interval of two numbers with a given skeleton, locale, collapse type and identity fallback. diff --git a/UPGRADING b/UPGRADING index 6873c276a096..b9095380ed53 100644 --- a/UPGRADING +++ b/UPGRADING @@ -60,6 +60,9 @@ PHP 8.6 UPGRADE NOTES 9. Other Changes to Extensions ======================================== +- Hash: + . The bundled version of xxHash was upgraded to 0.8.2. + ======================================== 10. New Global Constants ======================================== diff --git a/ext/hash/xxhash/xxhash.h b/ext/hash/xxhash/xxhash.h index 259371a3addd..a18e8c762daa 100644 --- a/ext/hash/xxhash/xxhash.h +++ b/ext/hash/xxhash/xxhash.h @@ -1,7 +1,7 @@ /* * xxHash - Extremely Fast Hash algorithm * Header File - * Copyright (C) 2012-2020 Yann Collet + * Copyright (C) 2012-2021 Yann Collet * * BSD 2-Clause License (https://www.opensource.org/licenses/bsd-license.php) * @@ -32,49 +32,142 @@ * - xxHash homepage: https://www.xxhash.com * - xxHash source repository: https://github.com/Cyan4973/xxHash */ + /*! * @mainpage xxHash * + * xxHash is an extremely fast non-cryptographic hash algorithm, working at RAM speed + * limits. + * + * It is proposed in four flavors, in three families: + * 1. @ref XXH32_family + * - Classic 32-bit hash function. Simple, compact, and runs on almost all + * 32-bit and 64-bit systems. + * 2. @ref XXH64_family + * - Classic 64-bit adaptation of XXH32. Just as simple, and runs well on most + * 64-bit systems (but _not_ 32-bit systems). + * 3. @ref XXH3_family + * - Modern 64-bit and 128-bit hash function family which features improved + * strength and performance across the board, especially on smaller data. + * It benefits greatly from SIMD and 64-bit without requiring it. + * + * Benchmarks + * --- + * The reference system uses an Intel i7-9700K CPU, and runs Ubuntu x64 20.04. + * The open source benchmark program is compiled with clang v10.0 using -O3 flag. + * + * | Hash Name | ISA ext | Width | Large Data Speed | Small Data Velocity | + * | -------------------- | ------- | ----: | ---------------: | ------------------: | + * | XXH3_64bits() | @b AVX2 | 64 | 59.4 GB/s | 133.1 | + * | MeowHash | AES-NI | 128 | 58.2 GB/s | 52.5 | + * | XXH3_128bits() | @b AVX2 | 128 | 57.9 GB/s | 118.1 | + * | CLHash | PCLMUL | 64 | 37.1 GB/s | 58.1 | + * | XXH3_64bits() | @b SSE2 | 64 | 31.5 GB/s | 133.1 | + * | XXH3_128bits() | @b SSE2 | 128 | 29.6 GB/s | 118.1 | + * | RAM sequential read | | N/A | 28.0 GB/s | N/A | + * | ahash | AES-NI | 64 | 22.5 GB/s | 107.2 | + * | City64 | | 64 | 22.0 GB/s | 76.6 | + * | T1ha2 | | 64 | 22.0 GB/s | 99.0 | + * | City128 | | 128 | 21.7 GB/s | 57.7 | + * | FarmHash | AES-NI | 64 | 21.3 GB/s | 71.9 | + * | XXH64() | | 64 | 19.4 GB/s | 71.0 | + * | SpookyHash | | 64 | 19.3 GB/s | 53.2 | + * | Mum | | 64 | 18.0 GB/s | 67.0 | + * | CRC32C | SSE4.2 | 32 | 13.0 GB/s | 57.9 | + * | XXH32() | | 32 | 9.7 GB/s | 71.9 | + * | City32 | | 32 | 9.1 GB/s | 66.0 | + * | Blake3* | @b AVX2 | 256 | 4.4 GB/s | 8.1 | + * | Murmur3 | | 32 | 3.9 GB/s | 56.1 | + * | SipHash* | | 64 | 3.0 GB/s | 43.2 | + * | Blake3* | @b SSE2 | 256 | 2.4 GB/s | 8.1 | + * | HighwayHash | | 64 | 1.4 GB/s | 6.0 | + * | FNV64 | | 64 | 1.2 GB/s | 62.7 | + * | Blake2* | | 256 | 1.1 GB/s | 5.1 | + * | SHA1* | | 160 | 0.8 GB/s | 5.6 | + * | MD5* | | 128 | 0.6 GB/s | 7.8 | + * @note + * - Hashes which require a specific ISA extension are noted. SSE2 is also noted, + * even though it is mandatory on x64. + * - Hashes with an asterisk are cryptographic. Note that MD5 is non-cryptographic + * by modern standards. + * - Small data velocity is a rough average of algorithm's efficiency for small + * data. For more accurate information, see the wiki. + * - More benchmarks and strength tests are found on the wiki: + * https://github.com/Cyan4973/xxHash/wiki + * + * Usage + * ------ + * All xxHash variants use a similar API. Changing the algorithm is a trivial + * substitution. + * + * @pre + * For functions which take an input and length parameter, the following + * requirements are assumed: + * - The range from [`input`, `input + length`) is valid, readable memory. + * - The only exception is if the `length` is `0`, `input` may be `NULL`. + * - For C++, the objects must have the *TriviallyCopyable* property, as the + * functions access bytes directly as if it was an array of `unsigned char`. + * + * @anchor single_shot_example + * **Single Shot** + * + * These functions are stateless functions which hash a contiguous block of memory, + * immediately returning the result. They are the easiest and usually the fastest + * option. + * + * XXH32(), XXH64(), XXH3_64bits(), XXH3_128bits() + * + * @code{.c} + * #include + * #include "xxhash.h" + * + * // Example for a function which hashes a null terminated string with XXH32(). + * XXH32_hash_t hash_string(const char* string, XXH32_hash_t seed) + * { + * // NULL pointers are only valid if the length is zero + * size_t length = (string == NULL) ? 0 : strlen(string); + * return XXH32(string, length, seed); + * } + * @endcode + * + * @anchor streaming_example + * **Streaming** + * + * These groups of functions allow incremental hashing of unknown size, even + * more than what would fit in a size_t. + * + * XXH32_reset(), XXH64_reset(), XXH3_64bits_reset(), XXH3_128bits_reset() + * + * @code{.c} + * #include + * #include + * #include "xxhash.h" + * // Example for a function which hashes a FILE incrementally with XXH3_64bits(). + * XXH64_hash_t hashFile(FILE* f) + * { + * // Allocate a state struct. Do not just use malloc() or new. + * XXH3_state_t* state = XXH3_createState(); + * assert(state != NULL && "Out of memory!"); + * // Reset the state to start a new hashing session. + * XXH3_64bits_reset(state); + * char buffer[4096]; + * size_t count; + * // Read the file in chunks + * while ((count = fread(buffer, 1, sizeof(buffer), f)) != 0) { + * // Run update() as many times as necessary to process the data + * XXH3_64bits_update(state, buffer, count); + * } + * // Retrieve the finalized hash. This will not change the state. + * XXH64_hash_t result = XXH3_64bits_digest(state); + * // Free the state. Do not use free(). + * XXH3_freeState(state); + * return result; + * } + * @endcode + * * @file xxhash.h * xxHash prototypes and implementation */ -/* TODO: update */ -/* Notice extracted from xxHash homepage: - -xxHash is an extremely fast hash algorithm, running at RAM speed limits. -It also successfully passes all tests from the SMHasher suite. - -Comparison (single thread, Windows Seven 32 bits, using SMHasher on a Core 2 Duo @3GHz) - -Name Speed Q.Score Author -xxHash 5.4 GB/s 10 -CrapWow 3.2 GB/s 2 Andrew -MurmurHash 3a 2.7 GB/s 10 Austin Appleby -SpookyHash 2.0 GB/s 10 Bob Jenkins -SBox 1.4 GB/s 9 Bret Mulvey -Lookup3 1.2 GB/s 9 Bob Jenkins -SuperFastHash 1.2 GB/s 1 Paul Hsieh -CityHash64 1.05 GB/s 10 Pike & Alakuijala -FNV 0.55 GB/s 5 Fowler, Noll, Vo -CRC32 0.43 GB/s 9 -MD5-32 0.33 GB/s 10 Ronald L. Rivest -SHA1-32 0.28 GB/s 10 - -Q.Score is a measure of quality of the hash function. -It depends on successfully passing SMHasher test set. -10 is a perfect score. - -Note: SMHasher's CRC32 implementation is not the fastest one. -Other speed-oriented implementations can be faster, -especially in combination with PCLMUL instruction: -https://fastcompression.blogspot.com/2019/03/presenting-xxh3.html?showComment=1552696407071#c3490092340461170735 - -A 64-bit version, named XXH64, is available since r35. -It offers much better speed, but for 64-bit applications only. -Name Speed on 64 bits Speed on 32 bits -XXH64 13.8 GB/s 1.9 GB/s -XXH32 6.8 GB/s 6.0 GB/s -*/ #if defined (__cplusplus) extern "C" { @@ -84,21 +177,80 @@ extern "C" { * INLINE mode ******************************/ /*! - * XXH_INLINE_ALL (and XXH_PRIVATE_API) + * @defgroup public Public API + * Contains details on the public xxHash functions. + * @{ + */ +#ifdef XXH_DOXYGEN +/*! + * @brief Gives access to internal state declaration, required for static allocation. + * + * Incompatible with dynamic linking, due to risks of ABI changes. + * + * Usage: + * @code{.c} + * #define XXH_STATIC_LINKING_ONLY + * #include "xxhash.h" + * @endcode + */ +# define XXH_STATIC_LINKING_ONLY +/* Do not undef XXH_STATIC_LINKING_ONLY for Doxygen */ + +/*! + * @brief Gives access to internal definitions. + * + * Usage: + * @code{.c} + * #define XXH_STATIC_LINKING_ONLY + * #define XXH_IMPLEMENTATION + * #include "xxhash.h" + * @endcode + */ +# define XXH_IMPLEMENTATION +/* Do not undef XXH_IMPLEMENTATION for Doxygen */ + +/*! + * @brief Exposes the implementation and marks all functions as `inline`. + * * Use these build macros to inline xxhash into the target unit. * Inlining improves performance on small inputs, especially when the length is * expressed as a compile-time constant: * - * https://fastcompression.blogspot.com/2018/03/xxhash-for-small-keys-impressive-power.html + * https://fastcompression.blogspot.com/2018/03/xxhash-for-small-keys-impressive-power.html * * It also keeps xxHash symbols private to the unit, so they are not exported. * * Usage: + * @code{.c} * #define XXH_INLINE_ALL * #include "xxhash.h" - * + * @endcode * Do not compile and link xxhash.o as a separate object, as it is not useful. */ +# define XXH_INLINE_ALL +# undef XXH_INLINE_ALL +/*! + * @brief Exposes the implementation without marking functions as inline. + */ +# define XXH_PRIVATE_API +# undef XXH_PRIVATE_API +/*! + * @brief Emulate a namespace by transparently prefixing all symbols. + * + * If you want to include _and expose_ xxHash functions from within your own + * library, but also want to avoid symbol collisions with other libraries which + * may also include xxHash, you can use @ref XXH_NAMESPACE to automatically prefix + * any public symbol from xxhash library with the value of @ref XXH_NAMESPACE + * (therefore, avoid empty or numeric values). + * + * Note that no change is required within the calling program as long as it + * includes `xxhash.h`: Regular symbol names will be automatically translated + * by this header. + */ +# define XXH_NAMESPACE /* YOUR NAME HERE */ +# undef XXH_NAMESPACE +#endif + #if (defined(XXH_INLINE_ALL) || defined(XXH_PRIVATE_API)) \ && !defined(XXH_INLINE_ALL_31684351384) /* this section should be traversed only once */ @@ -213,23 +365,15 @@ extern "C" { # undef XXHASH_H_STATIC_13879238742 #endif /* XXH_INLINE_ALL || XXH_PRIVATE_API */ - - /* **************************************************************** * Stable API *****************************************************************/ #ifndef XXHASH_H_5627135585666179 #define XXHASH_H_5627135585666179 1 - -/*! - * @defgroup public Public API - * Contains details on the public xxHash functions. - * @{ - */ -/* specific declaration modes for Windows */ +/*! @brief Marks a global symbol. */ #if !defined(XXH_INLINE_ALL) && !defined(XXH_PRIVATE_API) -# if defined(_WIN32) && defined(_MSC_VER) && (defined(XXH_IMPORT) || defined(XXH_EXPORT)) +# if defined(WIN32) && defined(_MSC_VER) && (defined(XXH_IMPORT) || defined(XXH_EXPORT)) # ifdef XXH_EXPORT # define XXH_PUBLIC_API __declspec(dllexport) # elif XXH_IMPORT @@ -240,24 +384,6 @@ extern "C" { # endif #endif -#ifdef XXH_DOXYGEN -/*! - * @brief Emulate a namespace by transparently prefixing all symbols. - * - * If you want to include _and expose_ xxHash functions from within your own - * library, but also want to avoid symbol collisions with other libraries which - * may also include xxHash, you can use XXH_NAMESPACE to automatically prefix - * any public symbol from xxhash library with the value of XXH_NAMESPACE - * (therefore, avoid empty or numeric values). - * - * Note that no change is required within the calling program as long as it - * includes `xxhash.h`: Regular symbol names will be automatically translated - * by this header. - */ -# define XXH_NAMESPACE /* YOUR NAME HERE */ -# undef XXH_NAMESPACE -#endif - #ifdef XXH_NAMESPACE # define XXH_CAT(A,B) A##B # define XXH_NAME2(A,B) XXH_CAT(A,B) @@ -317,12 +443,40 @@ extern "C" { #endif +/* ************************************* +* Compiler specifics +***************************************/ + +/* specific declaration modes for Windows */ +#if !defined(XXH_INLINE_ALL) && !defined(XXH_PRIVATE_API) +# if defined(WIN32) && defined(_MSC_VER) && (defined(XXH_IMPORT) || defined(XXH_EXPORT)) +# ifdef XXH_EXPORT +# define XXH_PUBLIC_API __declspec(dllexport) +# elif XXH_IMPORT +# define XXH_PUBLIC_API __declspec(dllimport) +# endif +# else +# define XXH_PUBLIC_API /* do nothing */ +# endif +#endif + +#if defined (__GNUC__) +# define XXH_CONSTF __attribute__((const)) +# define XXH_PUREF __attribute__((pure)) +# define XXH_MALLOCF __attribute__((malloc)) +#else +# define XXH_CONSTF /* disable */ +# define XXH_PUREF +# define XXH_MALLOCF +#endif + /* ************************************* * Version ***************************************/ #define XXH_VERSION_MAJOR 0 #define XXH_VERSION_MINOR 8 -#define XXH_VERSION_RELEASE 1 +#define XXH_VERSION_RELEASE 2 +/*! @brief Version number, encoded as two digits each */ #define XXH_VERSION_NUMBER (XXH_VERSION_MAJOR *100*100 + XXH_VERSION_MINOR *100 + XXH_VERSION_RELEASE) /*! @@ -331,16 +485,22 @@ extern "C" { * This is mostly useful when xxHash is compiled as a shared library, * since the returned value comes from the library, as opposed to header file. * - * @return `XXH_VERSION_NUMBER` of the invoked library. + * @return @ref XXH_VERSION_NUMBER of the invoked library. */ -XXH_PUBLIC_API unsigned XXH_versionNumber (void); +XXH_PUBLIC_API XXH_CONSTF unsigned XXH_versionNumber (void); /* **************************** * Common basic types ******************************/ #include /* size_t */ -typedef enum { XXH_OK=0, XXH_ERROR } XXH_errorcode; +/*! + * @brief Exit code for the streaming API. + */ +typedef enum { + XXH_OK = 0, /*!< OK */ + XXH_ERROR /*!< Error */ +} XXH_errorcode; /*-********************************************************************** @@ -364,29 +524,27 @@ typedef uint32_t XXH32_hash_t; # include # if UINT_MAX == 0xFFFFFFFFUL typedef unsigned int XXH32_hash_t; +# elif ULONG_MAX == 0xFFFFFFFFUL + typedef unsigned long XXH32_hash_t; # else -# if ULONG_MAX == 0xFFFFFFFFUL - typedef unsigned long XXH32_hash_t; -# else -# error "unsupported platform: need a 32-bit type" -# endif +# error "unsupported platform: need a 32-bit type" # endif #endif /*! * @} * - * @defgroup xxh32_family XXH32 family + * @defgroup XXH32_family XXH32 family * @ingroup public * Contains functions used in the classic 32-bit xxHash algorithm. * * @note * XXH32 is useful for older platforms, with no or poor 64-bit performance. - * Note that @ref xxh3_family provides competitive speed - * for both 32-bit and 64-bit systems, and offers true 64/128 bit hash results. + * Note that the @ref XXH3_family provides competitive speed for both 32-bit + * and 64-bit systems, and offers true 64/128 bit hash results. * - * @see @ref xxh64_family, @ref xxh3_family : Other xxHash families - * @see @ref xxh32_impl for implementation details + * @see @ref XXH64_family, @ref XXH3_family : Other xxHash families + * @see @ref XXH32_impl for implementation details * @{ */ @@ -395,6 +553,8 @@ typedef uint32_t XXH32_hash_t; * * Speed on Core 2 Duo @ 3 GHz (single thread, SMHasher benchmark): 5.4 GB/s * + * See @ref single_shot_example "Single Shot Example" for an example. + * * @param input The block of data to be hashed, at least @p length bytes in size. * @param length The length of @p input, in bytes. * @param seed The 32-bit seed to alter the hash's output predictably. @@ -412,8 +572,9 @@ typedef uint32_t XXH32_hash_t; * @see * XXH32_createState(), XXH32_update(), XXH32_digest(): Streaming version. */ -XXH_PUBLIC_API XXH32_hash_t XXH32 (const void* input, size_t length, XXH32_hash_t seed); +XXH_PUBLIC_API XXH_PUREF XXH32_hash_t XXH32 (const void* input, size_t length, XXH32_hash_t seed); +#ifndef XXH_NO_STREAM /*! * Streaming functions generate the xxHash value from an incremental input. * This method is slower than single-call functions, due to state management. @@ -436,32 +597,7 @@ XXH_PUBLIC_API XXH32_hash_t XXH32 (const void* input, size_t length, XXH32_hash_ * * When done, release the state using `XXH*_freeState()`. * - * Example code for incrementally hashing a file: - * @code{.c} - * #include - * #include - * #define BUFFER_SIZE 256 - * - * // Note: XXH64 and XXH3 use the same interface. - * XXH32_hash_t - * hashFile(FILE* stream) - * { - * XXH32_state_t* state; - * unsigned char buf[BUFFER_SIZE]; - * size_t amt; - * XXH32_hash_t hash; - * - * state = XXH32_createState(); // Create a state - * assert(state != NULL); // Error check here - * XXH32_reset(state, 0xbaad5eed); // Reset state with our seed - * while ((amt = fread(buf, 1, sizeof(buf), stream)) != 0) { - * XXH32_update(state, buf, amt); // Hash the file in chunks - * } - * hash = XXH32_digest(state); // Finalize the hash - * XXH32_freeState(state); // Clean up - * return hash; - * } - * @endcode + * @see streaming_example at the top of @ref xxhash.h for an example. */ /*! @@ -478,7 +614,7 @@ typedef struct XXH32_state_s XXH32_state_t; * Must be freed with XXH32_freeState(). * @return An allocated XXH32_state_t on success, `NULL` on failure. */ -XXH_PUBLIC_API XXH32_state_t* XXH32_createState(void); +XXH_PUBLIC_API XXH_MALLOCF XXH32_state_t* XXH32_createState(void); /*! * @brief Frees an @ref XXH32_state_t. * @@ -546,7 +682,8 @@ XXH_PUBLIC_API XXH_errorcode XXH32_update (XXH32_state_t* statePtr, const void* * * @return The calculated xxHash32 value from that state. */ -XXH_PUBLIC_API XXH32_hash_t XXH32_digest (const XXH32_state_t* statePtr); +XXH_PUBLIC_API XXH_PUREF XXH32_hash_t XXH32_digest (const XXH32_state_t* statePtr); +#endif /* !XXH_NO_STREAM */ /******* Canonical representation *******/ @@ -597,43 +734,72 @@ XXH_PUBLIC_API void XXH32_canonicalFromHash(XXH32_canonical_t* dst, XXH32_hash_t * * @return The converted hash. */ -XXH_PUBLIC_API XXH32_hash_t XXH32_hashFromCanonical(const XXH32_canonical_t* src); +XXH_PUBLIC_API XXH_PUREF XXH32_hash_t XXH32_hashFromCanonical(const XXH32_canonical_t* src); +/*! @cond Doxygen ignores this part */ #ifdef __has_attribute # define XXH_HAS_ATTRIBUTE(x) __has_attribute(x) #else # define XXH_HAS_ATTRIBUTE(x) 0 #endif +/*! @endcond */ +/*! @cond Doxygen ignores this part */ +/* + * C23 __STDC_VERSION__ number hasn't been specified yet. For now + * leave as `201711L` (C17 + 1). + * TODO: Update to correct value when its been specified. + */ +#define XXH_C23_VN 201711L +/*! @endcond */ + +/*! @cond Doxygen ignores this part */ /* C-language Attributes are added in C23. */ -#if defined(__STDC_VERSION__) && (__STDC_VERSION__ > 201710L) && defined(__has_c_attribute) +#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= XXH_C23_VN) && defined(__has_c_attribute) # define XXH_HAS_C_ATTRIBUTE(x) __has_c_attribute(x) #else # define XXH_HAS_C_ATTRIBUTE(x) 0 #endif +/*! @endcond */ +/*! @cond Doxygen ignores this part */ #if defined(__cplusplus) && defined(__has_cpp_attribute) # define XXH_HAS_CPP_ATTRIBUTE(x) __has_cpp_attribute(x) #else # define XXH_HAS_CPP_ATTRIBUTE(x) 0 #endif +/*! @endcond */ +/*! @cond Doxygen ignores this part */ /* -Define XXH_FALLTHROUGH macro for annotating switch case with the 'fallthrough' attribute -introduced in CPP17 and C23. -CPP17 : https://en.cppreference.com/w/cpp/language/attributes/fallthrough -C23 : https://en.cppreference.com/w/c/language/attributes/fallthrough -*/ -#if XXH_HAS_C_ATTRIBUTE(x) -# define XXH_FALLTHROUGH [[fallthrough]] -#elif XXH_HAS_CPP_ATTRIBUTE(x) + * Define XXH_FALLTHROUGH macro for annotating switch case with the 'fallthrough' attribute + * introduced in CPP17 and C23. + * CPP17 : https://en.cppreference.com/w/cpp/language/attributes/fallthrough + * C23 : https://en.cppreference.com/w/c/language/attributes/fallthrough + */ +#if XXH_HAS_C_ATTRIBUTE(fallthrough) || XXH_HAS_CPP_ATTRIBUTE(fallthrough) # define XXH_FALLTHROUGH [[fallthrough]] #elif XXH_HAS_ATTRIBUTE(__fallthrough__) -# define XXH_FALLTHROUGH __attribute__ ((fallthrough)) +# define XXH_FALLTHROUGH __attribute__ ((__fallthrough__)) #else -# define XXH_FALLTHROUGH +# define XXH_FALLTHROUGH /* fallthrough */ #endif +/*! @endcond */ + +/*! @cond Doxygen ignores this part */ +/* + * Define XXH_NOESCAPE for annotated pointers in public API. + * https://clang.llvm.org/docs/AttributeReference.html#noescape + * As of writing this, only supported by clang. + */ +#if XXH_HAS_ATTRIBUTE(noescape) +# define XXH_NOESCAPE __attribute__((noescape)) +#else +# define XXH_NOESCAPE +#endif +/*! @endcond */ + /*! * @} @@ -671,7 +837,7 @@ typedef uint64_t XXH64_hash_t; /*! * @} * - * @defgroup xxh64_family XXH64 family + * @defgroup XXH64_family XXH64 family * @ingroup public * @{ * Contains functions used in the classic 64-bit xxHash algorithm. @@ -682,7 +848,6 @@ typedef uint64_t XXH64_hash_t; * It provides better speed for systems with vector processing capabilities. */ - /*! * @brief Calculates the 64-bit hash of @p input using xxHash64. * @@ -706,32 +871,131 @@ typedef uint64_t XXH64_hash_t; * @see * XXH64_createState(), XXH64_update(), XXH64_digest(): Streaming version. */ -XXH_PUBLIC_API XXH64_hash_t XXH64(const void* input, size_t length, XXH64_hash_t seed); +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH64(XXH_NOESCAPE const void* input, size_t length, XXH64_hash_t seed); /******* Streaming *******/ +#ifndef XXH_NO_STREAM /*! * @brief The opaque state struct for the XXH64 streaming API. * * @see XXH64_state_s for details. */ typedef struct XXH64_state_s XXH64_state_t; /* incomplete type */ -XXH_PUBLIC_API XXH64_state_t* XXH64_createState(void); + +/*! + * @brief Allocates an @ref XXH64_state_t. + * + * Must be freed with XXH64_freeState(). + * @return An allocated XXH64_state_t on success, `NULL` on failure. + */ +XXH_PUBLIC_API XXH_MALLOCF XXH64_state_t* XXH64_createState(void); + +/*! + * @brief Frees an @ref XXH64_state_t. + * + * Must be allocated with XXH64_createState(). + * @param statePtr A pointer to an @ref XXH64_state_t allocated with @ref XXH64_createState(). + * @return XXH_OK. + */ XXH_PUBLIC_API XXH_errorcode XXH64_freeState(XXH64_state_t* statePtr); -XXH_PUBLIC_API void XXH64_copyState(XXH64_state_t* dst_state, const XXH64_state_t* src_state); -XXH_PUBLIC_API XXH_errorcode XXH64_reset (XXH64_state_t* statePtr, XXH64_hash_t seed); -XXH_PUBLIC_API XXH_errorcode XXH64_update (XXH64_state_t* statePtr, const void* input, size_t length); -XXH_PUBLIC_API XXH64_hash_t XXH64_digest (const XXH64_state_t* statePtr); +/*! + * @brief Copies one @ref XXH64_state_t to another. + * + * @param dst_state The state to copy to. + * @param src_state The state to copy from. + * @pre + * @p dst_state and @p src_state must not be `NULL` and must not overlap. + */ +XXH_PUBLIC_API void XXH64_copyState(XXH_NOESCAPE XXH64_state_t* dst_state, const XXH64_state_t* src_state); +/*! + * @brief Resets an @ref XXH64_state_t to begin a new hash. + * + * This function resets and seeds a state. Call it before @ref XXH64_update(). + * + * @param statePtr The state struct to reset. + * @param seed The 64-bit seed to alter the hash result predictably. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + */ +XXH_PUBLIC_API XXH_errorcode XXH64_reset (XXH_NOESCAPE XXH64_state_t* statePtr, XXH64_hash_t seed); + +/*! + * @brief Consumes a block of @p input to an @ref XXH64_state_t. + * + * Call this to incrementally consume blocks of data. + * + * @param statePtr The state struct to update. + * @param input The block of data to be hashed, at least @p length bytes in size. + * @param length The length of @p input, in bytes. + * + * @pre + * @p statePtr must not be `NULL`. + * @pre + * The memory between @p input and @p input + @p length must be valid, + * readable, contiguous memory. However, if @p length is `0`, @p input may be + * `NULL`. In C++, this also must be *TriviallyCopyable*. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + */ +XXH_PUBLIC_API XXH_errorcode XXH64_update (XXH_NOESCAPE XXH64_state_t* statePtr, XXH_NOESCAPE const void* input, size_t length); + +/*! + * @brief Returns the calculated hash value from an @ref XXH64_state_t. + * + * @note + * Calling XXH64_digest() will not affect @p statePtr, so you can update, + * digest, and update again. + * + * @param statePtr The state struct to calculate the hash from. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return The calculated xxHash64 value from that state. + */ +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH64_digest (XXH_NOESCAPE const XXH64_state_t* statePtr); +#endif /* !XXH_NO_STREAM */ /******* Canonical representation *******/ + +/*! + * @brief Canonical (big endian) representation of @ref XXH64_hash_t. + */ typedef struct { unsigned char digest[sizeof(XXH64_hash_t)]; } XXH64_canonical_t; -XXH_PUBLIC_API void XXH64_canonicalFromHash(XXH64_canonical_t* dst, XXH64_hash_t hash); -XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src); + +/*! + * @brief Converts an @ref XXH64_hash_t to a big endian @ref XXH64_canonical_t. + * + * @param dst The @ref XXH64_canonical_t pointer to be stored to. + * @param hash The @ref XXH64_hash_t to be converted. + * + * @pre + * @p dst must not be `NULL`. + */ +XXH_PUBLIC_API void XXH64_canonicalFromHash(XXH_NOESCAPE XXH64_canonical_t* dst, XXH64_hash_t hash); + +/*! + * @brief Converts an @ref XXH64_canonical_t to a native @ref XXH64_hash_t. + * + * @param src The @ref XXH64_canonical_t to convert. + * + * @pre + * @p src must not be `NULL`. + * + * @return The converted hash. + */ +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH64_hashFromCanonical(XXH_NOESCAPE const XXH64_canonical_t* src); + +#ifndef XXH_NO_XXH3 /*! * @} * ************************************************************************ - * @defgroup xxh3_family XXH3 family + * @defgroup XXH3_family XXH3 family * @ingroup public * @{ * @@ -751,16 +1015,26 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src * * XXH3's speed benefits greatly from SIMD and 64-bit arithmetic, * but does not require it. - * Any 32-bit and 64-bit targets that can run XXH32 smoothly - * can run XXH3 at competitive speeds, even without vector support. - * Further details are explained in the implementation. - * - * Optimized implementations are provided for AVX512, AVX2, SSE2, NEON, POWER8, - * ZVector and scalar targets. This can be controlled via the XXH_VECTOR macro. + * Most 32-bit and 64-bit targets that can run XXH32 smoothly can run XXH3 + * at competitive speeds, even without vector support. Further details are + * explained in the implementation. + * + * XXH3 has a fast scalar implementation, but it also includes accelerated SIMD + * implementations for many common platforms: + * - AVX512 + * - AVX2 + * - SSE2 + * - ARM NEON + * - WebAssembly SIMD128 + * - POWER8 VSX + * - s390x ZVector + * This can be controlled via the @ref XXH_VECTOR macro, but it automatically + * selects the best version according to predefined macros. For the x86 family, an + * automatic runtime dispatcher is included separately in @ref xxh_x86dispatch.c. * * XXH3 implementation is portable: * it has a generic C90 formulation that can be compiled on any platform, - * all implementations generage exactly the same hash value on all platforms. + * all implementations generate exactly the same hash value on all platforms. * Starting from v0.8.0, it's also labelled "stable", meaning that * any future version will also generate the same hash value. * @@ -772,24 +1046,42 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src * * The API supports one-shot hashing, streaming mode, and custom secrets. */ - /*-********************************************************************** * XXH3 64-bit variant ************************************************************************/ -/* XXH3_64bits(): - * default 64-bit variant, using default secret and default seed of 0. - * It's the fastest variant. */ -XXH_PUBLIC_API XXH64_hash_t XXH3_64bits(const void* data, size_t len); +/*! + * @brief 64-bit unseeded variant of XXH3. + * + * This is equivalent to @ref XXH3_64bits_withSeed() with a seed of 0, however + * it may have slightly better performance due to constant propagation of the + * defaults. + * + * @see + * XXH32(), XXH64(), XXH3_128bits(): equivalent for the other xxHash algorithms + * @see + * XXH3_64bits_withSeed(), XXH3_64bits_withSecret(): other seeding variants + * @see + * XXH3_64bits_reset(), XXH3_64bits_update(), XXH3_64bits_digest(): Streaming version. + */ +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH3_64bits(XXH_NOESCAPE const void* input, size_t length); -/* - * XXH3_64bits_withSeed(): - * This variant generates a custom secret on the fly - * based on default secret altered using the `seed` value. +/*! + * @brief 64-bit seeded variant of XXH3 + * + * This variant generates a custom secret on the fly based on default secret + * altered using the `seed` value. + * * While this operation is decently fast, note that it's not completely free. - * Note: seed==0 produces the same results as XXH3_64bits(). + * + * @note + * seed == 0 produces the same results as @ref XXH3_64bits(). + * + * @param input The data to hash + * @param length The length + * @param seed The 64-bit seed to alter the state. */ -XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_withSeed(const void* data, size_t len, XXH64_hash_t seed); +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH3_64bits_withSeed(XXH_NOESCAPE const void* input, size_t length, XXH64_hash_t seed); /*! * The bare minimum size for a custom secret. @@ -800,8 +1092,9 @@ XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_withSeed(const void* data, size_t len, X */ #define XXH3_SECRET_SIZE_MIN 136 -/* - * XXH3_64bits_withSecret(): +/*! + * @brief 64-bit variant of XXH3 with a custom "secret". + * * It's possible to provide any blob of bytes as a "secret" to generate the hash. * This makes it more difficult for an external actor to prepare an intentional collision. * The main condition is that secretSize *must* be large enough (>= XXH3_SECRET_SIZE_MIN). @@ -817,10 +1110,11 @@ XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_withSeed(const void* data, size_t len, X * This is not necessarily the case when using the blob of bytes directly * because, when hashing _small_ inputs, only a portion of the secret is employed. */ -XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_withSecret(const void* data, size_t len, const void* secret, size_t secretSize); +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH3_64bits_withSecret(XXH_NOESCAPE const void* data, size_t len, XXH_NOESCAPE const void* secret, size_t secretSize); /******* Streaming *******/ +#ifndef XXH_NO_STREAM /* * Streaming requires state maintenance. * This operation costs memory and CPU. @@ -834,23 +1128,53 @@ XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_withSecret(const void* data, size_t len, * @see XXH3_state_s for details. */ typedef struct XXH3_state_s XXH3_state_t; -XXH_PUBLIC_API XXH3_state_t* XXH3_createState(void); +XXH_PUBLIC_API XXH_MALLOCF XXH3_state_t* XXH3_createState(void); XXH_PUBLIC_API XXH_errorcode XXH3_freeState(XXH3_state_t* statePtr); -XXH_PUBLIC_API void XXH3_copyState(XXH3_state_t* dst_state, const XXH3_state_t* src_state); -/* - * XXH3_64bits_reset(): - * Initialize with default parameters. - * digest will be equivalent to `XXH3_64bits()`. +/*! + * @brief Copies one @ref XXH3_state_t to another. + * + * @param dst_state The state to copy to. + * @param src_state The state to copy from. + * @pre + * @p dst_state and @p src_state must not be `NULL` and must not overlap. */ -XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset(XXH3_state_t* statePtr); -/* - * XXH3_64bits_reset_withSeed(): - * Generate a custom secret from `seed`, and store it into `statePtr`. - * digest will be equivalent to `XXH3_64bits_withSeed()`. +XXH_PUBLIC_API void XXH3_copyState(XXH_NOESCAPE XXH3_state_t* dst_state, XXH_NOESCAPE const XXH3_state_t* src_state); + +/*! + * @brief Resets an @ref XXH3_state_t to begin a new hash. + * + * This function resets `statePtr` and generate a secret with default parameters. Call it before @ref XXH3_64bits_update(). + * Digest will be equivalent to `XXH3_64bits()`. + * + * @param statePtr The state struct to reset. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + * */ -XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset_withSeed(XXH3_state_t* statePtr, XXH64_hash_t seed); -/* +XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset(XXH_NOESCAPE XXH3_state_t* statePtr); + +/*! + * @brief Resets an @ref XXH3_state_t with 64-bit seed to begin a new hash. + * + * This function resets `statePtr` and generate a secret from `seed`. Call it before @ref XXH3_64bits_update(). + * Digest will be equivalent to `XXH3_64bits_withSeed()`. + * + * @param statePtr The state struct to reset. + * @param seed The 64-bit seed to alter the state. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + * + */ +XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset_withSeed(XXH_NOESCAPE XXH3_state_t* statePtr, XXH64_hash_t seed); + +/*! * XXH3_64bits_reset_withSecret(): * `secret` is referenced, it _must outlive_ the hash streaming session. * Similar to one-shot API, `secretSize` must be >= `XXH3_SECRET_SIZE_MIN`, @@ -859,10 +1183,44 @@ XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset_withSeed(XXH3_state_t* statePtr, * When in doubt about the randomness of a candidate `secret`, * consider employing `XXH3_generateSecret()` instead (see below). */ -XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset_withSecret(XXH3_state_t* statePtr, const void* secret, size_t secretSize); +XXH_PUBLIC_API XXH_errorcode XXH3_64bits_reset_withSecret(XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* secret, size_t secretSize); -XXH_PUBLIC_API XXH_errorcode XXH3_64bits_update (XXH3_state_t* statePtr, const void* input, size_t length); -XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_digest (const XXH3_state_t* statePtr); +/*! + * @brief Consumes a block of @p input to an @ref XXH3_state_t. + * + * Call this to incrementally consume blocks of data. + * + * @param statePtr The state struct to update. + * @param input The block of data to be hashed, at least @p length bytes in size. + * @param length The length of @p input, in bytes. + * + * @pre + * @p statePtr must not be `NULL`. + * @pre + * The memory between @p input and @p input + @p length must be valid, + * readable, contiguous memory. However, if @p length is `0`, @p input may be + * `NULL`. In C++, this also must be *TriviallyCopyable*. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + */ +XXH_PUBLIC_API XXH_errorcode XXH3_64bits_update (XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* input, size_t length); + +/*! + * @brief Returns the calculated XXH3 64-bit hash value from an @ref XXH3_state_t. + * + * @note + * Calling XXH3_64bits_digest() will not affect @p statePtr, so you can update, + * digest, and update again. + * + * @param statePtr The state struct to calculate the hash from. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return The calculated XXH3 64-bit hash value from that state. + */ +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t XXH3_64bits_digest (XXH_NOESCAPE const XXH3_state_t* statePtr); +#endif /* !XXH_NO_STREAM */ /* note : canonical representation of XXH3 is the same as XXH64 * since they both produce XXH64_hash_t values */ @@ -883,11 +1241,31 @@ typedef struct { XXH64_hash_t high64; /*!< `value >> 64` */ } XXH128_hash_t; -XXH_PUBLIC_API XXH128_hash_t XXH3_128bits(const void* data, size_t len); -XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_withSeed(const void* data, size_t len, XXH64_hash_t seed); -XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_withSecret(const void* data, size_t len, const void* secret, size_t secretSize); +/*! + * @brief Unseeded 128-bit variant of XXH3 + * + * The 128-bit variant of XXH3 has more strength, but it has a bit of overhead + * for shorter inputs. + * + * This is equivalent to @ref XXH3_128bits_withSeed() with a seed of 0, however + * it may have slightly better performance due to constant propagation of the + * defaults. + * + * @see + * XXH32(), XXH64(), XXH3_64bits(): equivalent for the other xxHash algorithms + * @see + * XXH3_128bits_withSeed(), XXH3_128bits_withSecret(): other seeding variants + * @see + * XXH3_128bits_reset(), XXH3_128bits_update(), XXH3_128bits_digest(): Streaming version. + */ +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t XXH3_128bits(XXH_NOESCAPE const void* data, size_t len); +/*! @brief Seeded 128-bit variant of XXH3. @see XXH3_64bits_withSeed(). */ +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t XXH3_128bits_withSeed(XXH_NOESCAPE const void* data, size_t len, XXH64_hash_t seed); +/*! @brief Custom secret 128-bit variant of XXH3. @see XXH3_64bits_withSecret(). */ +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t XXH3_128bits_withSecret(XXH_NOESCAPE const void* data, size_t len, XXH_NOESCAPE const void* secret, size_t secretSize); /******* Streaming *******/ +#ifndef XXH_NO_STREAM /* * Streaming requires state maintenance. * This operation costs memory and CPU. @@ -900,12 +1278,77 @@ XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_withSecret(const void* data, size_t le * All reset and streaming functions have same meaning as their 64-bit counterpart. */ -XXH_PUBLIC_API XXH_errorcode XXH3_128bits_reset(XXH3_state_t* statePtr); -XXH_PUBLIC_API XXH_errorcode XXH3_128bits_reset_withSeed(XXH3_state_t* statePtr, XXH64_hash_t seed); -XXH_PUBLIC_API XXH_errorcode XXH3_128bits_reset_withSecret(XXH3_state_t* statePtr, const void* secret, size_t secretSize); +/*! + * @brief Resets an @ref XXH3_state_t to begin a new hash. + * + * This function resets `statePtr` and generate a secret with default parameters. Call it before @ref XXH3_128bits_update(). + * Digest will be equivalent to `XXH3_128bits()`. + * + * @param statePtr The state struct to reset. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + * + */ +XXH_PUBLIC_API XXH_errorcode XXH3_128bits_reset(XXH_NOESCAPE XXH3_state_t* statePtr); + +/*! + * @brief Resets an @ref XXH3_state_t with 64-bit seed to begin a new hash. + * + * This function resets `statePtr` and generate a secret from `seed`. Call it before @ref XXH3_128bits_update(). + * Digest will be equivalent to `XXH3_128bits_withSeed()`. + * + * @param statePtr The state struct to reset. + * @param seed The 64-bit seed to alter the state. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + * + */ +XXH_PUBLIC_API XXH_errorcode XXH3_128bits_reset_withSeed(XXH_NOESCAPE XXH3_state_t* statePtr, XXH64_hash_t seed); +/*! @brief Custom secret 128-bit variant of XXH3. @see XXH_64bits_reset_withSecret(). */ +XXH_PUBLIC_API XXH_errorcode XXH3_128bits_reset_withSecret(XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* secret, size_t secretSize); + +/*! + * @brief Consumes a block of @p input to an @ref XXH3_state_t. + * + * Call this to incrementally consume blocks of data. + * + * @param statePtr The state struct to update. + * @param input The block of data to be hashed, at least @p length bytes in size. + * @param length The length of @p input, in bytes. + * + * @pre + * @p statePtr must not be `NULL`. + * @pre + * The memory between @p input and @p input + @p length must be valid, + * readable, contiguous memory. However, if @p length is `0`, @p input may be + * `NULL`. In C++, this also must be *TriviallyCopyable*. + * + * @return @ref XXH_OK on success, @ref XXH_ERROR on failure. + */ +XXH_PUBLIC_API XXH_errorcode XXH3_128bits_update (XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* input, size_t length); -XXH_PUBLIC_API XXH_errorcode XXH3_128bits_update (XXH3_state_t* statePtr, const void* input, size_t length); -XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_digest (const XXH3_state_t* statePtr); +/*! + * @brief Returns the calculated XXH3 128-bit hash value from an @ref XXH3_state_t. + * + * @note + * Calling XXH3_128bits_digest() will not affect @p statePtr, so you can update, + * digest, and update again. + * + * @param statePtr The state struct to calculate the hash from. + * + * @pre + * @p statePtr must not be `NULL`. + * + * @return The calculated XXH3 128-bit hash value from that state. + */ +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t XXH3_128bits_digest (XXH_NOESCAPE const XXH3_state_t* statePtr); +#endif /* !XXH_NO_STREAM */ /* Following helper functions make it possible to compare XXH128_hast_t values. * Since XXH128_hash_t is a structure, this capability is not offered by the language. @@ -915,26 +1358,48 @@ XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_digest (const XXH3_state_t* statePtr); * XXH128_isEqual(): * Return: 1 if `h1` and `h2` are equal, 0 if they are not. */ -XXH_PUBLIC_API int XXH128_isEqual(XXH128_hash_t h1, XXH128_hash_t h2); +XXH_PUBLIC_API XXH_PUREF int XXH128_isEqual(XXH128_hash_t h1, XXH128_hash_t h2); /*! - * XXH128_cmp(): - * + * @brief Compares two @ref XXH128_hash_t * This comparator is compatible with stdlib's `qsort()`/`bsearch()`. * - * return: >0 if *h128_1 > *h128_2 - * =0 if *h128_1 == *h128_2 - * <0 if *h128_1 < *h128_2 + * @return: >0 if *h128_1 > *h128_2 + * =0 if *h128_1 == *h128_2 + * <0 if *h128_1 < *h128_2 */ -XXH_PUBLIC_API int XXH128_cmp(const void* h128_1, const void* h128_2); +XXH_PUBLIC_API XXH_PUREF int XXH128_cmp(XXH_NOESCAPE const void* h128_1, XXH_NOESCAPE const void* h128_2); /******* Canonical representation *******/ typedef struct { unsigned char digest[sizeof(XXH128_hash_t)]; } XXH128_canonical_t; -static zend_always_inline void XXH128_canonicalFromHash(XXH128_canonical_t* dst, XXH128_hash_t hash); -XXH_PUBLIC_API XXH128_hash_t XXH128_hashFromCanonical(const XXH128_canonical_t* src); +/*! + * @brief Converts an @ref XXH128_hash_t to a big endian @ref XXH128_canonical_t. + * + * @param dst The @ref XXH128_canonical_t pointer to be stored to. + * @param hash The @ref XXH128_hash_t to be converted. + * + * @pre + * @p dst must not be `NULL`. + */ +XXH_PUBLIC_API void XXH128_canonicalFromHash(XXH_NOESCAPE XXH128_canonical_t* dst, XXH128_hash_t hash); + +/*! + * @brief Converts an @ref XXH128_canonical_t to a native @ref XXH128_hash_t. + * + * @param src The @ref XXH128_canonical_t to convert. + * + * @pre + * @p src must not be `NULL`. + * + * @return The converted hash. + */ +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t XXH128_hashFromCanonical(XXH_NOESCAPE const XXH128_canonical_t* src); + + +#endif /* !XXH_NO_XXH3 */ #endif /* XXH_NO_LONG_LONG */ /*! @@ -978,7 +1443,7 @@ struct XXH32_state_s { XXH32_hash_t v[4]; /*!< Accumulator lanes */ XXH32_hash_t mem32[4]; /*!< Internal buffer for partial reads. Treated as unsigned char[16]. */ XXH32_hash_t memsize; /*!< Amount of data in @ref mem32 */ - XXH32_hash_t reserved; /*!< Reserved field. Do not read or write to it, it may be removed. */ + XXH32_hash_t reserved; /*!< Reserved field. Do not read nor write to it. */ }; /* typedef'd to XXH32_state_t */ @@ -1002,9 +1467,11 @@ struct XXH64_state_s { XXH64_hash_t mem64[4]; /*!< Internal buffer for partial reads. Treated as unsigned char[32]. */ XXH32_hash_t memsize; /*!< Amount of data in @ref mem64 */ XXH32_hash_t reserved32; /*!< Reserved field, needed for padding anyways*/ - XXH64_hash_t reserved64; /*!< Reserved field. Do not read or write to it, it may be removed. */ + XXH64_hash_t reserved64; /*!< Reserved field. Do not read or write to it. */ }; /* typedef'd to XXH64_state_t */ +#ifndef XXH_NO_XXH3 + #if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 201112L) /* >= C11 */ # include # define XXH_ALIGN(n) alignas(n) @@ -1038,6 +1505,7 @@ struct XXH64_state_s { #define XXH3_INTERNALBUFFER_SIZE 256 /*! + * @internal * @brief Default size of the secret buffer (and @ref XXH3_kSecret). * * This is the size used in @ref XXH3_kSecret and the seeded functions. @@ -1070,7 +1538,7 @@ struct XXH64_state_s { */ struct XXH3_state_s { XXH_ALIGN_MEMBER(64, XXH64_hash_t acc[8]); - /*!< The 8 accumulators. Similar to `vN` in @ref XXH32_state_s::v1 and @ref XXH64_state_s */ + /*!< The 8 accumulators. See @ref XXH32_state_s::v and @ref XXH64_state_s::v */ XXH_ALIGN_MEMBER(64, unsigned char customSecret[XXH3_SECRET_DEFAULT_SIZE]); /*!< Used to store a custom secret generated from a seed. */ XXH_ALIGN_MEMBER(64, unsigned char buffer[XXH3_INTERNALBUFFER_SIZE]); @@ -1110,69 +1578,119 @@ struct XXH3_state_s { * Note that this doesn't prepare the state for a streaming operation, * it's still necessary to use XXH3_NNbits_reset*() afterwards. */ -#define XXH3_INITSTATE(XXH3_state_ptr) { (XXH3_state_ptr)->seed = 0; } +#define XXH3_INITSTATE(XXH3_state_ptr) \ + do { \ + XXH3_state_t* tmp_xxh3_state_ptr = (XXH3_state_ptr); \ + tmp_xxh3_state_ptr->seed = 0; \ + tmp_xxh3_state_ptr->extSecret = NULL; \ + } while(0) -/* XXH128() : +/*! * simple alias to pre-selected XXH3_128bits variant */ -XXH_PUBLIC_API XXH128_hash_t XXH128(const void* data, size_t len, XXH64_hash_t seed); +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t XXH128(XXH_NOESCAPE const void* data, size_t len, XXH64_hash_t seed); /* === Experimental API === */ /* Symbols defined below must be considered tied to a specific library version. */ -/* +/*! * XXH3_generateSecret(): * * Derive a high-entropy secret from any user-defined content, named customSeed. * The generated secret can be used in combination with `*_withSecret()` functions. - * The `_withSecret()` variants are useful to provide a higher level of protection than 64-bit seed, - * as it becomes much more difficult for an external actor to guess how to impact the calculation logic. + * The `_withSecret()` variants are useful to provide a higher level of protection + * than 64-bit seed, as it becomes much more difficult for an external actor to + * guess how to impact the calculation logic. * * The function accepts as input a custom seed of any length and any content, - * and derives from it a high-entropy secret of length @secretSize - * into an already allocated buffer @secretBuffer. - * @secretSize must be >= XXH3_SECRET_SIZE_MIN + * and derives from it a high-entropy secret of length @p secretSize into an + * already allocated buffer @p secretBuffer. * * The generated secret can then be used with any `*_withSecret()` variant. - * Functions `XXH3_128bits_withSecret()`, `XXH3_64bits_withSecret()`, - * `XXH3_128bits_reset_withSecret()` and `XXH3_64bits_reset_withSecret()` + * The functions @ref XXH3_128bits_withSecret(), @ref XXH3_64bits_withSecret(), + * @ref XXH3_128bits_reset_withSecret() and @ref XXH3_64bits_reset_withSecret() * are part of this list. They all accept a `secret` parameter - * which must be large enough for implementation reasons (>= XXH3_SECRET_SIZE_MIN) + * which must be large enough for implementation reasons (>= @ref XXH3_SECRET_SIZE_MIN) * _and_ feature very high entropy (consist of random-looking bytes). - * These conditions can be a high bar to meet, so - * XXH3_generateSecret() can be employed to ensure proper quality. + * These conditions can be a high bar to meet, so @ref XXH3_generateSecret() can + * be employed to ensure proper quality. * - * customSeed can be anything. It can have any size, even small ones, - * and its content can be anything, even "poor entropy" sources such as a bunch of zeroes. - * The resulting `secret` will nonetheless provide all required qualities. + * @p customSeed can be anything. It can have any size, even small ones, + * and its content can be anything, even "poor entropy" sources such as a bunch + * of zeroes. The resulting `secret` will nonetheless provide all required qualities. + * + * @pre + * - @p secretSize must be >= @ref XXH3_SECRET_SIZE_MIN + * - When @p customSeedSize > 0, supplying NULL as customSeed is undefined behavior. * - * When customSeedSize > 0, supplying NULL as customSeed is undefined behavior. + * Example code: + * @code{.c} + * #include + * #include + * #include + * #define XXH_STATIC_LINKING_ONLY // expose unstable API + * #include "xxhash.h" + * // Hashes argv[2] using the entropy from argv[1]. + * int main(int argc, char* argv[]) + * { + * char secret[XXH3_SECRET_SIZE_MIN]; + * if (argv != 3) { return 1; } + * XXH3_generateSecret(secret, sizeof(secret), argv[1], strlen(argv[1])); + * XXH64_hash_t h = XXH3_64bits_withSecret( + * argv[2], strlen(argv[2]), + * secret, sizeof(secret) + * ); + * printf("%016llx\n", (unsigned long long) h); + * } + * @endcode */ -XXH_PUBLIC_API XXH_errorcode XXH3_generateSecret(void* secretBuffer, size_t secretSize, const void* customSeed, size_t customSeedSize); - +XXH_PUBLIC_API XXH_errorcode XXH3_generateSecret(XXH_NOESCAPE void* secretBuffer, size_t secretSize, XXH_NOESCAPE const void* customSeed, size_t customSeedSize); -/* - * XXH3_generateSecret_fromSeed(): - * - * Generate the same secret as the _withSeed() variants. - * - * The resulting secret has a length of XXH3_SECRET_DEFAULT_SIZE (necessarily). - * @secretBuffer must be already allocated, of size at least XXH3_SECRET_DEFAULT_SIZE bytes. +/*! + * @brief Generate the same secret as the _withSeed() variants. * * The generated secret can be used in combination with *`*_withSecret()` and `_withSecretandSeed()` variants. - * This generator is notably useful in combination with `_withSecretandSeed()`, - * as a way to emulate a faster `_withSeed()` variant. + * + * Example C++ `std::string` hash class: + * @code{.cpp} + * #include + * #define XXH_STATIC_LINKING_ONLY // expose unstable API + * #include "xxhash.h" + * // Slow, seeds each time + * class HashSlow { + * XXH64_hash_t seed; + * public: + * HashSlow(XXH64_hash_t s) : seed{s} {} + * size_t operator()(const std::string& x) const { + * return size_t{XXH3_64bits_withSeed(x.c_str(), x.length(), seed)}; + * } + * }; + * // Fast, caches the seeded secret for future uses. + * class HashFast { + * unsigned char secret[XXH3_SECRET_SIZE_MIN]; + * public: + * HashFast(XXH64_hash_t s) { + * XXH3_generateSecret_fromSeed(secret, seed); + * } + * size_t operator()(const std::string& x) const { + * return size_t{ + * XXH3_64bits_withSecret(x.c_str(), x.length(), secret, sizeof(secret)) + * }; + * } + * }; + * @endcode + * @param secretBuffer A writable buffer of @ref XXH3_SECRET_SIZE_MIN bytes + * @param seed The seed to seed the state. */ -XXH_PUBLIC_API void XXH3_generateSecret_fromSeed(void* secretBuffer, XXH64_hash_t seed); +XXH_PUBLIC_API void XXH3_generateSecret_fromSeed(XXH_NOESCAPE void* secretBuffer, XXH64_hash_t seed); -/* - * *_withSecretandSeed() : +/*! * These variants generate hash values using either - * @seed for "short" keys (< XXH3_MIDSIZE_MAX = 240 bytes) - * or @secret for "large" keys (>= XXH3_MIDSIZE_MAX). + * @p seed for "short" keys (< XXH3_MIDSIZE_MAX = 240 bytes) + * or @p secret for "large" keys (>= XXH3_MIDSIZE_MAX). * * This generally benefits speed, compared to `_withSeed()` or `_withSecret()`. * `_withSeed()` has to generate the secret on the fly for "large" keys. @@ -1181,7 +1699,7 @@ XXH_PUBLIC_API void XXH3_generateSecret_fromSeed(void* secretBuffer, XXH64_hash_ * which requires more instructions than _withSeed() variants. * Therefore, _withSecretandSeed variant combines the best of both worlds. * - * When @secret has been generated by XXH3_generateSecret_fromSeed(), + * When @p secret has been generated by XXH3_generateSecret_fromSeed(), * this variant produces *exactly* the same results as `_withSeed()` variant, * hence offering only a pure speed benefit on "large" input, * by skipping the need to regenerate the secret for every large input. @@ -1190,32 +1708,34 @@ XXH_PUBLIC_API void XXH3_generateSecret_fromSeed(void* secretBuffer, XXH64_hash_ * for example with XXH3_64bits(), which then becomes the seed, * and then employ both the seed and the secret in _withSecretandSeed(). * On top of speed, an added benefit is that each bit in the secret - * has a 50% chance to swap each bit in the output, - * via its impact to the seed. + * has a 50% chance to swap each bit in the output, via its impact to the seed. + * * This is not guaranteed when using the secret directly in "small data" scenarios, * because only portions of the secret are employed for small data. */ -XXH_PUBLIC_API XXH64_hash_t -XXH3_64bits_withSecretandSeed(const void* data, size_t len, - const void* secret, size_t secretSize, +XXH_PUBLIC_API XXH_PUREF XXH64_hash_t +XXH3_64bits_withSecretandSeed(XXH_NOESCAPE const void* data, size_t len, + XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed); - -XXH_PUBLIC_API XXH128_hash_t -XXH3_128bits_withSecretandSeed(const void* data, size_t len, - const void* secret, size_t secretSize, +/*! @copydoc XXH3_64bits_withSecretandSeed() */ +XXH_PUBLIC_API XXH_PUREF XXH128_hash_t +XXH3_128bits_withSecretandSeed(XXH_NOESCAPE const void* input, size_t length, + XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed64); - +#ifndef XXH_NO_STREAM +/*! @copydoc XXH3_64bits_withSecretandSeed() */ XXH_PUBLIC_API XXH_errorcode -XXH3_64bits_reset_withSecretandSeed(XXH3_state_t* statePtr, - const void* secret, size_t secretSize, +XXH3_64bits_reset_withSecretandSeed(XXH_NOESCAPE XXH3_state_t* statePtr, + XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed64); - +/*! @copydoc XXH3_64bits_withSecretandSeed() */ XXH_PUBLIC_API XXH_errorcode -XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, - const void* secret, size_t secretSize, +XXH3_128bits_reset_withSecretandSeed(XXH_NOESCAPE XXH3_state_t* statePtr, + XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed64); +#endif /* !XXH_NO_STREAM */ - +#endif /* !XXH_NO_XXH3 */ #endif /* XXH_NO_LONG_LONG */ #if defined(XXH_INLINE_ALL) || defined(XXH_PRIVATE_API) # define XXH_IMPLEMENTATION @@ -1269,7 +1789,7 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, /*! * @brief Define this to disable 64-bit code. * - * Useful if only using the @ref xxh32_family and you have a strict C90 compiler. + * Useful if only using the @ref XXH32_family and you have a strict C90 compiler. */ # define XXH_NO_LONG_LONG # undef XXH_NO_LONG_LONG /* don't actually */ @@ -1292,7 +1812,7 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, * Use `memcpy()`. Safe and portable. Note that most modern compilers will * eliminate the function call and treat it as an unaligned access. * - * - `XXH_FORCE_MEMORY_ACCESS=1`: `__attribute__((packed))` + * - `XXH_FORCE_MEMORY_ACCESS=1`: `__attribute__((aligned(1)))` * @par * Depends on compiler extensions and is therefore not portable. * This method is safe _if_ your compiler supports it, @@ -1312,19 +1832,47 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, * inline small `memcpy()` calls, and it might also be faster on big-endian * systems which lack a native byteswap instruction. However, some compilers * will emit literal byteshifts even if the target supports unaligned access. - * . + * * * @warning * Methods 1 and 2 rely on implementation-defined behavior. Use these with * care, as what works on one compiler/platform/optimization level may cause * another to read garbage data or even crash. * - * See http://fastcompression.blogspot.com/2015/08/accessing-unaligned-memory.html for details. + * See https://fastcompression.blogspot.com/2015/08/accessing-unaligned-memory.html for details. * * Prefer these methods in priority order (0 > 3 > 1 > 2) */ # define XXH_FORCE_MEMORY_ACCESS 0 +/*! + * @def XXH_SIZE_OPT + * @brief Controls how much xxHash optimizes for size. + * + * xxHash, when compiled, tends to result in a rather large binary size. This + * is mostly due to heavy usage to forced inlining and constant folding of the + * @ref XXH3_family to increase performance. + * + * However, some developers prefer size over speed. This option can + * significantly reduce the size of the generated code. When using the `-Os` + * or `-Oz` options on GCC or Clang, this is defined to 1 by default, + * otherwise it is defined to 0. + * + * Most of these size optimizations can be controlled manually. + * + * This is a number from 0-2. + * - `XXH_SIZE_OPT` == 0: Default. xxHash makes no size optimizations. Speed + * comes first. + * - `XXH_SIZE_OPT` == 1: Default for `-Os` and `-Oz`. xxHash is more + * conservative and disables hacks that increase code size. It implies the + * options @ref XXH_NO_INLINE_HINTS == 1, @ref XXH_FORCE_ALIGN_CHECK == 0, + * and @ref XXH3_NEON_LANES == 8 if they are not already defined. + * - `XXH_SIZE_OPT` == 2: xxHash tries to make itself as small as possible. + * Performance may cry. For example, the single shot functions just use the + * streaming API. + */ +# define XXH_SIZE_OPT 0 + /*! * @def XXH_FORCE_ALIGN_CHECK * @brief If defined to non-zero, adds a special path for aligned inputs (XXH32() @@ -1346,9 +1894,11 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, * * In these cases, the alignment check can be removed by setting this macro to 0. * Then the code will always use unaligned memory access. - * Align check is automatically disabled on x86, x64 & arm64, + * Align check is automatically disabled on x86, x64, ARM64, and some ARM chips * which are platforms known to offer good unaligned memory accesses performance. * + * It is also disabled by default when @ref XXH_SIZE_OPT >= 1. + * * This option does not affect XXH3 (only XXH32 and XXH64). */ # define XXH_FORCE_ALIGN_CHECK 0 @@ -1370,8 +1920,8 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, * XXH_NO_INLINE_HINTS marks all internal functions as static, giving the * compiler full control on whether to inline or not. * - * When not optimizing (-O0), optimizing for size (-Os, -Oz), or using - * -fno-inline with GCC or Clang, this will automatically be defined. + * When not optimizing (-O0), using `-fno-inline` with GCC or Clang, or if + * @ref XXH_SIZE_OPT >= 1, this will automatically be defined. */ # define XXH_NO_INLINE_HINTS 0 @@ -1413,34 +1963,45 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, */ # define XXH_OLD_NAMES # undef XXH_OLD_NAMES /* don't actually use, it is ugly. */ + +/*! + * @def XXH_NO_STREAM + * @brief Disables the streaming API. + * + * When xxHash is not inlined and the streaming functions are not used, disabling + * the streaming functions can improve code size significantly, especially with + * the @ref XXH3_family which tends to make constant folded copies of itself. + */ +# define XXH_NO_STREAM +# undef XXH_NO_STREAM /* don't actually */ #endif /* XXH_DOXYGEN */ /*! * @} */ #ifndef XXH_FORCE_MEMORY_ACCESS /* can be defined externally, on command line for example */ - /* prefer __packed__ structures (method 1) for gcc on armv7+ and mips */ -# if !defined(__clang__) && \ -( \ - (defined(__INTEL_COMPILER) && !defined(_WIN32)) || \ - ( \ - defined(__GNUC__) && ( \ - (defined(__ARM_ARCH) && __ARM_ARCH >= 7) || \ - ( \ - defined(__mips__) && \ - (__mips <= 5 || __mips_isa_rev < 6) && \ - (!defined(__mips16) || defined(__mips_mips16e2)) \ - ) \ - ) \ - ) \ -) + /* prefer __packed__ structures (method 1) for GCC + * < ARMv7 with unaligned access (e.g. Raspbian armhf) still uses byte shifting, so we use memcpy + * which for some reason does unaligned loads. */ +# if defined(__GNUC__) && !(defined(__ARM_ARCH) && __ARM_ARCH < 7 && defined(__ARM_FEATURE_UNALIGNED)) # define XXH_FORCE_MEMORY_ACCESS 1 # endif #endif +#ifndef XXH_SIZE_OPT + /* default to 1 for -Os or -Oz */ +# if (defined(__GNUC__) || defined(__clang__)) && defined(__OPTIMIZE_SIZE__) +# define XXH_SIZE_OPT 1 +# else +# define XXH_SIZE_OPT 0 +# endif +#endif + #ifndef XXH_FORCE_ALIGN_CHECK /* can be defined externally */ -# if defined(__i386) || defined(__x86_64__) || defined(__aarch64__) \ - || defined(_M_IX86) || defined(_M_X64) || defined(_M_ARM64) /* visual */ + /* don't check on sizeopt, x86, aarch64, or arm when unaligned access is available */ +# if XXH_SIZE_OPT >= 1 || \ + defined(__i386) || defined(__x86_64__) || defined(__aarch64__) || defined(__ARM_FEATURE_UNALIGNED) \ + || defined(_M_IX86) || defined(_M_X64) || defined(_M_ARM64) || defined(_M_ARM) /* visual */ # define XXH_FORCE_ALIGN_CHECK 0 # else # define XXH_FORCE_ALIGN_CHECK 1 @@ -1448,8 +2009,7 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, #endif #ifndef XXH_NO_INLINE_HINTS -# if defined(__OPTIMIZE_SIZE__) /* -Os, -Oz */ \ - || defined(__NO_INLINE__) /* -O0, -fno-inline */ +# if XXH_SIZE_OPT >= 1 || defined(__NO_INLINE__) /* -O0, -fno-inline */ # define XXH_NO_INLINE_HINTS 1 # else # define XXH_NO_INLINE_HINTS 0 @@ -1479,6 +2039,24 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, /* ************************************* * Includes & Memory related functions ***************************************/ +#if defined(XXH_NO_STREAM) +/* nothing */ +#elif defined(XXH_NO_STDLIB) + +/* When requesting to disable any mention of stdlib, + * the library loses the ability to invoked malloc / free. + * In practice, it means that functions like `XXH*_createState()` + * will always fail, and return NULL. + * This flag is useful in situations where + * xxhash.h is integrated into some kernel, embedded or limited environment + * without access to dynamic allocation. + */ + +static XXH_CONSTF void* XXH_malloc(size_t s) { (void)s; return NULL; } +static void XXH_free(void* p) { (void)p; } + +#else + /* * Modify the local functions below should you wish to use * different memory routines for malloc() and free() @@ -1489,7 +2067,7 @@ XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, * @internal * @brief Modify this function to use a different routine than malloc(). */ -static void* XXH_malloc(size_t s) { return malloc(s); } +static XXH_MALLOCF void* XXH_malloc(size_t s) { return malloc(s); } /*! * @internal @@ -1497,6 +2075,8 @@ static void* XXH_malloc(size_t s) { return malloc(s); } */ static void XXH_free(void* p) { free(p); } +#endif /* XXH_NO_STDLIB */ + #include /*! @@ -1571,7 +2151,11 @@ static void* XXH_memcpy(void* dest, const void* src, size_t size) # include /* note: can still be disabled with NDEBUG */ # define XXH_ASSERT(c) assert(c) #else -# define XXH_ASSERT(c) ((void)0) +# if defined(__INTEL_COMPILER) +# define XXH_ASSERT(c) XXH_ASSUME((unsigned char) (c)) +# else +# define XXH_ASSERT(c) XXH_ASSUME(c) +# endif #endif /* note: use after variable declarations */ @@ -1603,11 +2187,19 @@ static void* XXH_memcpy(void* dest, const void* src, size_t size) * XXH3_initCustomSecret_scalar(). */ #if defined(__GNUC__) || defined(__clang__) -# define XXH_COMPILER_GUARD(var) __asm__ __volatile__("" : "+r" (var)) +# define XXH_COMPILER_GUARD(var) __asm__("" : "+r" (var)) #else # define XXH_COMPILER_GUARD(var) ((void)0) #endif +/* Specifically for NEON vectors which use the "w" constraint, on + * Clang. */ +#if defined(__clang__) && defined(__ARM_ARCH) && !defined(__wasm__) +# define XXH_COMPILER_GUARD_CLANG_NEON(var) __asm__("" : "+w" (var)) +#else +# define XXH_COMPILER_GUARD_CLANG_NEON(var) ((void)0) +#endif + /* ************************************* * Basic Types ***************************************/ @@ -1622,6 +2214,7 @@ static void* XXH_memcpy(void* dest, const void* src, size_t size) typedef XXH32_hash_t xxh_u32; #ifdef XXH_OLD_NAMES +# warning "XXH_OLD_NAMES is planned to be removed starting v0.9. If the program depends on it, consider moving away from it by employing newer type names directly" # define BYTE xxh_u8 # define U8 xxh_u8 # define U32 xxh_u32 @@ -1695,25 +2288,26 @@ static xxh_u32 XXH_read32(const void* memPtr) { return *(const xxh_u32*) memPtr; #elif (defined(XXH_FORCE_MEMORY_ACCESS) && (XXH_FORCE_MEMORY_ACCESS==1)) /* - * __pack instructions are safer but compiler specific, hence potentially - * problematic for some compilers. - * - * Currently only defined for GCC and ICC. + * __attribute__((aligned(1))) is supported by gcc and clang. Originally the + * documentation claimed that it only increased the alignment, but actually it + * can decrease it on gcc, clang, and icc: + * https://gcc.gnu.org/bugzilla/show_bug.cgi?id=69502, + * https://gcc.godbolt.org/z/xYez1j67Y. */ #ifdef XXH_OLD_NAMES typedef union { xxh_u32 u32; } __attribute__((packed)) unalign; #endif static xxh_u32 XXH_read32(const void* ptr) { - typedef union { xxh_u32 u32; } __attribute__((packed)) xxh_unalign; - return ((const xxh_unalign*)ptr)->u32; + typedef __attribute__((aligned(1))) xxh_u32 xxh_unalign32; + return *((const xxh_unalign32*)ptr); } #else /* * Portable and safe solution. Generally efficient. - * see: http://fastcompression.blogspot.com/2015/08/accessing-unaligned-memory.html + * see: https://fastcompression.blogspot.com/2015/08/accessing-unaligned-memory.html */ static xxh_u32 XXH_read32(const void* memPtr) { @@ -1789,6 +2383,51 @@ static int XXH_isLittleEndian(void) # define XXH_HAS_BUILTIN(x) 0 #endif + + +/* + * C23 and future versions have standard "unreachable()". + * Once it has been implemented reliably we can add it as an + * additional case: + * + * ``` + * #if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= XXH_C23_VN) + * # include + * # ifdef unreachable + * # define XXH_UNREACHABLE() unreachable() + * # endif + * #endif + * ``` + * + * Note C++23 also has std::unreachable() which can be detected + * as follows: + * ``` + * #if defined(__cpp_lib_unreachable) && (__cpp_lib_unreachable >= 202202L) + * # include + * # define XXH_UNREACHABLE() std::unreachable() + * #endif + * ``` + * NB: `__cpp_lib_unreachable` is defined in the `` header. + * We don't use that as including `` in `extern "C"` blocks + * doesn't work on GCC12 + */ + +#if XXH_HAS_BUILTIN(__builtin_unreachable) +# define XXH_UNREACHABLE() __builtin_unreachable() + +#elif defined(_MSC_VER) +# define XXH_UNREACHABLE() __assume(0) + +#else +# define XXH_UNREACHABLE() +#endif + +#if XXH_HAS_BUILTIN(__builtin_assume) +# define XXH_ASSUME(c) __builtin_assume(c) +#else +# define XXH_ASSUME(c) if (!(c)) { XXH_UNREACHABLE(); } +#endif + /*! * @internal * @def XXH_rotl32(x,r) @@ -1911,8 +2550,10 @@ XXH_PUBLIC_API unsigned XXH_versionNumber (void) { return XXH_VERSION_NUMBER; } *********************************************************************/ /*! * @} - * @defgroup xxh32_impl XXH32 implementation + * @defgroup XXH32_impl XXH32 implementation * @ingroup impl + * + * Details on the XXH32 implementation. * @{ */ /* #define instead of static const, to be used as initializers */ @@ -1946,7 +2587,7 @@ static xxh_u32 XXH32_round(xxh_u32 acc, xxh_u32 input) acc += input * XXH_PRIME32_2; acc = XXH_rotl32(acc, 13); acc *= XXH_PRIME32_1; -#if (defined(__SSE4_1__) || defined(__aarch64__)) && !defined(XXH_ENABLE_AUTOVECTORIZE) +#if (defined(__SSE4_1__) || defined(__aarch64__) || defined(__wasm_simd128__)) && !defined(XXH_ENABLE_AUTOVECTORIZE) /* * UGLY HACK: * A compiler fence is the only thing that prevents GCC and Clang from @@ -1976,9 +2617,12 @@ static xxh_u32 XXH32_round(xxh_u32 acc, xxh_u32 input) * can load data, while v3 can multiply. SSE forces them to operate * together. * - * This is also enabled on AArch64, as Clang autovectorizes it incorrectly - * and it is pointless writing a NEON implementation that is basically the - * same speed as scalar for XXH32. + * This is also enabled on AArch64, as Clang is *very aggressive* in vectorizing + * the loop. NEON is only faster on the A53, and with the newer cores, it is less + * than half the speed. + * + * Additionally, this is used on WASM SIMD128 because it JITs to the same + * SIMD instructions and has the same issue. */ XXH_COMPILER_GUARD(acc); #endif @@ -1992,17 +2636,17 @@ static xxh_u32 XXH32_round(xxh_u32 acc, xxh_u32 input) * The final mix ensures that all input bits have a chance to impact any bit in * the output digest, resulting in an unbiased distribution. * - * @param h32 The hash to avalanche. + * @param hash The hash to avalanche. * @return The avalanched hash. */ -static xxh_u32 XXH32_avalanche(xxh_u32 h32) +static xxh_u32 XXH32_avalanche(xxh_u32 hash) { - h32 ^= h32 >> 15; - h32 *= XXH_PRIME32_2; - h32 ^= h32 >> 13; - h32 *= XXH_PRIME32_3; - h32 ^= h32 >> 16; - return(h32); + hash ^= hash >> 15; + hash *= XXH_PRIME32_2; + hash ^= hash >> 13; + hash *= XXH_PRIME32_3; + hash ^= hash >> 16; + return hash; } #define XXH_get32bits(p) XXH_readLE32_align(p, align) @@ -2015,24 +2659,25 @@ static xxh_u32 XXH32_avalanche(xxh_u32 h32) * This final stage will digest them to ensure that all input bytes are present * in the final mix. * - * @param h32 The hash to finalize. + * @param hash The hash to finalize. * @param ptr The pointer to the remaining input. * @param len The remaining length, modulo 16. * @param align Whether @p ptr is aligned. * @return The finalized hash. + * @see XXH64_finalize(). */ -static xxh_u32 -XXH32_finalize(xxh_u32 h32, const xxh_u8* ptr, size_t len, XXH_alignment align) +static XXH_PUREF xxh_u32 +XXH32_finalize(xxh_u32 hash, const xxh_u8* ptr, size_t len, XXH_alignment align) { -#define XXH_PROCESS1 do { \ - h32 += (*ptr++) * XXH_PRIME32_5; \ - h32 = XXH_rotl32(h32, 11) * XXH_PRIME32_1; \ +#define XXH_PROCESS1 do { \ + hash += (*ptr++) * XXH_PRIME32_5; \ + hash = XXH_rotl32(hash, 11) * XXH_PRIME32_1; \ } while (0) -#define XXH_PROCESS4 do { \ - h32 += XXH_get32bits(ptr) * XXH_PRIME32_3; \ - ptr += 4; \ - h32 = XXH_rotl32(h32, 17) * XXH_PRIME32_4; \ +#define XXH_PROCESS4 do { \ + hash += XXH_get32bits(ptr) * XXH_PRIME32_3; \ + ptr += 4; \ + hash = XXH_rotl32(hash, 17) * XXH_PRIME32_4; \ } while (0) if (ptr==NULL) XXH_ASSERT(len == 0); @@ -2048,49 +2693,49 @@ XXH32_finalize(xxh_u32 h32, const xxh_u8* ptr, size_t len, XXH_alignment align) XXH_PROCESS1; --len; } - return XXH32_avalanche(h32); + return XXH32_avalanche(hash); } else { switch(len&15) /* or switch(bEnd - p) */ { case 12: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 8: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 4: XXH_PROCESS4; - return XXH32_avalanche(h32); + return XXH32_avalanche(hash); case 13: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 9: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 5: XXH_PROCESS4; XXH_PROCESS1; - return XXH32_avalanche(h32); + return XXH32_avalanche(hash); case 14: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 10: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 6: XXH_PROCESS4; XXH_PROCESS1; XXH_PROCESS1; - return XXH32_avalanche(h32); + return XXH32_avalanche(hash); case 15: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 11: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 7: XXH_PROCESS4; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 3: XXH_PROCESS1; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 2: XXH_PROCESS1; - XXH_FALLTHROUGH; + XXH_FALLTHROUGH; /* fallthrough */ case 1: XXH_PROCESS1; - XXH_FALLTHROUGH; - case 0: return XXH32_avalanche(h32); + XXH_FALLTHROUGH; /* fallthrough */ + case 0: return XXH32_avalanche(hash); } XXH_ASSERT(0); - return h32; /* reaching this point is deemed impossible */ + return hash; /* reaching this point is deemed impossible */ } } @@ -2110,7 +2755,7 @@ XXH32_finalize(xxh_u32 h32, const xxh_u8* ptr, size_t len, XXH_alignment align) * @param align Whether @p input is aligned. * @return The calculated hash. */ -XXH_FORCE_INLINE xxh_u32 +XXH_FORCE_INLINE XXH_PUREF xxh_u32 XXH32_endian_align(const xxh_u8* input, size_t len, xxh_u32 seed, XXH_alignment align) { xxh_u32 h32; @@ -2143,10 +2788,10 @@ XXH32_endian_align(const xxh_u8* input, size_t len, xxh_u32 seed, XXH_alignment return XXH32_finalize(h32, input, len&15, align); } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH32_hash_t XXH32 (const void* input, size_t len, XXH32_hash_t seed) { -#if 0 +#if !defined(XXH_NO_STREAM) && XXH_SIZE_OPT >= 2 /* Simple version, good for code maintenance, but unfortunately slow for small inputs */ XXH32_state_t state; XXH32_reset(&state, seed); @@ -2165,42 +2810,39 @@ XXH_PUBLIC_API XXH32_hash_t XXH32 (const void* input, size_t len, XXH32_hash_t s /******* Hash streaming *******/ -/*! - * @ingroup xxh32_family - */ +#ifndef XXH_NO_STREAM +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH32_state_t* XXH32_createState(void) { return (XXH32_state_t*)XXH_malloc(sizeof(XXH32_state_t)); } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH_errorcode XXH32_freeState(XXH32_state_t* statePtr) { XXH_free(statePtr); return XXH_OK; } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API void XXH32_copyState(XXH32_state_t* dstState, const XXH32_state_t* srcState) { XXH_memcpy(dstState, srcState, sizeof(*dstState)); } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH_errorcode XXH32_reset(XXH32_state_t* statePtr, XXH32_hash_t seed) { - XXH32_state_t state; /* using a local state to memcpy() in order to avoid strict-aliasing warnings */ - memset(&state, 0, sizeof(state)); - state.v[0] = seed + XXH_PRIME32_1 + XXH_PRIME32_2; - state.v[1] = seed + XXH_PRIME32_2; - state.v[2] = seed + 0; - state.v[3] = seed - XXH_PRIME32_1; - /* do not write into reserved, planned to be removed in a future version */ - XXH_memcpy(statePtr, &state, sizeof(state) - sizeof(state.reserved)); + XXH_ASSERT(statePtr != NULL); + memset(statePtr, 0, sizeof(*statePtr)); + statePtr->v[0] = seed + XXH_PRIME32_1 + XXH_PRIME32_2; + statePtr->v[1] = seed + XXH_PRIME32_2; + statePtr->v[2] = seed + 0; + statePtr->v[3] = seed - XXH_PRIME32_1; return XXH_OK; } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH_errorcode XXH32_update(XXH32_state_t* state, const void* input, size_t len) { @@ -2255,7 +2897,7 @@ XXH32_update(XXH32_state_t* state, const void* input, size_t len) } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH32_hash_t XXH32_digest(const XXH32_state_t* state) { xxh_u32 h32; @@ -2273,12 +2915,12 @@ XXH_PUBLIC_API XXH32_hash_t XXH32_digest(const XXH32_state_t* state) return XXH32_finalize(h32, (const xxh_u8*)state->mem32, state->memsize, XXH_aligned); } - +#endif /* !XXH_NO_STREAM */ /******* Canonical representation *******/ /*! - * @ingroup xxh32_family + * @ingroup XXH32_family * The default return values from XXH functions are unsigned 32 and 64 bit * integers. * @@ -2297,7 +2939,7 @@ XXH_PUBLIC_API void XXH32_canonicalFromHash(XXH32_canonical_t* dst, XXH32_hash_t if (XXH_CPU_LITTLE_ENDIAN) hash = XXH_swap32(hash); XXH_memcpy(dst, &hash, sizeof(*dst)); } -/*! @ingroup xxh32_family */ +/*! @ingroup XXH32_family */ XXH_PUBLIC_API XXH32_hash_t XXH32_hashFromCanonical(const XXH32_canonical_t* src) { return XXH_readBE32(src); @@ -2338,25 +2980,26 @@ static xxh_u64 XXH_read64(const void* memPtr) #elif (defined(XXH_FORCE_MEMORY_ACCESS) && (XXH_FORCE_MEMORY_ACCESS==1)) /* - * __pack instructions are safer, but compiler specific, hence potentially - * problematic for some compilers. - * - * Currently only defined for GCC and ICC. + * __attribute__((aligned(1))) is supported by gcc and clang. Originally the + * documentation claimed that it only increased the alignment, but actually it + * can decrease it on gcc, clang, and icc: + * https://gcc.gnu.org/bugzilla/show_bug.cgi?id=69502, + * https://gcc.godbolt.org/z/xYez1j67Y. */ #ifdef XXH_OLD_NAMES typedef union { xxh_u32 u32; xxh_u64 u64; } __attribute__((packed)) unalign64; #endif static xxh_u64 XXH_read64(const void* ptr) { - typedef union { xxh_u32 u32; xxh_u64 u64; } __attribute__((packed)) xxh_unalign64; - return ((const xxh_unalign64*)ptr)->u64; + typedef __attribute__((aligned(1))) xxh_u64 xxh_unalign64; + return *((const xxh_unalign64*)ptr); } #else /* * Portable and safe solution. Generally efficient. - * see: http://fastcompression.blogspot.com/2015/08/accessing-unaligned-memory.html + * see: https://fastcompression.blogspot.com/2015/08/accessing-unaligned-memory.html */ static xxh_u64 XXH_read64(const void* memPtr) { @@ -2440,8 +3083,10 @@ XXH_readLE64_align(const void* ptr, XXH_alignment align) /******* xxh64 *******/ /*! * @} - * @defgroup xxh64_impl XXH64 implementation + * @defgroup XXH64_impl XXH64 implementation * @ingroup impl + * + * Details on the XXH64 implementation. * @{ */ /* #define rather that static const, to be used as initializers */ @@ -2459,6 +3104,7 @@ XXH_readLE64_align(const void* ptr, XXH_alignment align) # define PRIME64_5 XXH_PRIME64_5 #endif +/*! @copydoc XXH32_round */ static xxh_u64 XXH64_round(xxh_u64 acc, xxh_u64 input) { acc += input * XXH_PRIME64_2; @@ -2475,43 +3121,59 @@ static xxh_u64 XXH64_mergeRound(xxh_u64 acc, xxh_u64 val) return acc; } -static xxh_u64 XXH64_avalanche(xxh_u64 h64) +/*! @copydoc XXH32_avalanche */ +static xxh_u64 XXH64_avalanche(xxh_u64 hash) { - h64 ^= h64 >> 33; - h64 *= XXH_PRIME64_2; - h64 ^= h64 >> 29; - h64 *= XXH_PRIME64_3; - h64 ^= h64 >> 32; - return h64; + hash ^= hash >> 33; + hash *= XXH_PRIME64_2; + hash ^= hash >> 29; + hash *= XXH_PRIME64_3; + hash ^= hash >> 32; + return hash; } #define XXH_get64bits(p) XXH_readLE64_align(p, align) -static xxh_u64 -XXH64_finalize(xxh_u64 h64, const xxh_u8* ptr, size_t len, XXH_alignment align) +/*! + * @internal + * @brief Processes the last 0-31 bytes of @p ptr. + * + * There may be up to 31 bytes remaining to consume from the input. + * This final stage will digest them to ensure that all input bytes are present + * in the final mix. + * + * @param hash The hash to finalize. + * @param ptr The pointer to the remaining input. + * @param len The remaining length, modulo 32. + * @param align Whether @p ptr is aligned. + * @return The finalized hash + * @see XXH32_finalize(). + */ +static XXH_PUREF xxh_u64 +XXH64_finalize(xxh_u64 hash, const xxh_u8* ptr, size_t len, XXH_alignment align) { if (ptr==NULL) XXH_ASSERT(len == 0); len &= 31; while (len >= 8) { xxh_u64 const k1 = XXH64_round(0, XXH_get64bits(ptr)); ptr += 8; - h64 ^= k1; - h64 = XXH_rotl64(h64,27) * XXH_PRIME64_1 + XXH_PRIME64_4; + hash ^= k1; + hash = XXH_rotl64(hash,27) * XXH_PRIME64_1 + XXH_PRIME64_4; len -= 8; } if (len >= 4) { - h64 ^= (xxh_u64)(XXH_get32bits(ptr)) * XXH_PRIME64_1; + hash ^= (xxh_u64)(XXH_get32bits(ptr)) * XXH_PRIME64_1; ptr += 4; - h64 = XXH_rotl64(h64, 23) * XXH_PRIME64_2 + XXH_PRIME64_3; + hash = XXH_rotl64(hash, 23) * XXH_PRIME64_2 + XXH_PRIME64_3; len -= 4; } while (len > 0) { - h64 ^= (*ptr++) * XXH_PRIME64_5; - h64 = XXH_rotl64(h64, 11) * XXH_PRIME64_1; + hash ^= (*ptr++) * XXH_PRIME64_5; + hash = XXH_rotl64(hash, 11) * XXH_PRIME64_1; --len; } - return XXH64_avalanche(h64); + return XXH64_avalanche(hash); } #ifdef XXH_OLD_NAMES @@ -2524,7 +3186,15 @@ XXH64_finalize(xxh_u64 h64, const xxh_u8* ptr, size_t len, XXH_alignment align) # undef XXH_PROCESS8_64 #endif -XXH_FORCE_INLINE xxh_u64 +/*! + * @internal + * @brief The implementation for @ref XXH64(). + * + * @param input , len , seed Directly passed from @ref XXH64(). + * @param align Whether @p input is aligned. + * @return The calculated hash. + */ +XXH_FORCE_INLINE XXH_PUREF xxh_u64 XXH64_endian_align(const xxh_u8* input, size_t len, xxh_u64 seed, XXH_alignment align) { xxh_u64 h64; @@ -2561,10 +3231,10 @@ XXH64_endian_align(const xxh_u8* input, size_t len, xxh_u64 seed, XXH_alignment } -/*! @ingroup xxh64_family */ -XXH_PUBLIC_API XXH64_hash_t XXH64 (const void* input, size_t len, XXH64_hash_t seed) +/*! @ingroup XXH64_family */ +XXH_PUBLIC_API XXH64_hash_t XXH64 (XXH_NOESCAPE const void* input, size_t len, XXH64_hash_t seed) { -#if 0 +#if !defined(XXH_NO_STREAM) && XXH_SIZE_OPT >= 2 /* Simple version, good for code maintenance, but unfortunately slow for small inputs */ XXH64_state_t state; XXH64_reset(&state, seed); @@ -2582,42 +3252,40 @@ XXH_PUBLIC_API XXH64_hash_t XXH64 (const void* input, size_t len, XXH64_hash_t s } /******* Hash Streaming *******/ - -/*! @ingroup xxh64_family*/ +#ifndef XXH_NO_STREAM +/*! @ingroup XXH64_family*/ XXH_PUBLIC_API XXH64_state_t* XXH64_createState(void) { return (XXH64_state_t*)XXH_malloc(sizeof(XXH64_state_t)); } -/*! @ingroup xxh64_family */ +/*! @ingroup XXH64_family */ XXH_PUBLIC_API XXH_errorcode XXH64_freeState(XXH64_state_t* statePtr) { XXH_free(statePtr); return XXH_OK; } -/*! @ingroup xxh64_family */ -XXH_PUBLIC_API void XXH64_copyState(XXH64_state_t* dstState, const XXH64_state_t* srcState) +/*! @ingroup XXH64_family */ +XXH_PUBLIC_API void XXH64_copyState(XXH_NOESCAPE XXH64_state_t* dstState, const XXH64_state_t* srcState) { XXH_memcpy(dstState, srcState, sizeof(*dstState)); } -/*! @ingroup xxh64_family */ -XXH_PUBLIC_API XXH_errorcode XXH64_reset(XXH64_state_t* statePtr, XXH64_hash_t seed) +/*! @ingroup XXH64_family */ +XXH_PUBLIC_API XXH_errorcode XXH64_reset(XXH_NOESCAPE XXH64_state_t* statePtr, XXH64_hash_t seed) { - XXH64_state_t state; /* use a local state to memcpy() in order to avoid strict-aliasing warnings */ - memset(&state, 0, sizeof(state)); - state.v[0] = seed + XXH_PRIME64_1 + XXH_PRIME64_2; - state.v[1] = seed + XXH_PRIME64_2; - state.v[2] = seed + 0; - state.v[3] = seed - XXH_PRIME64_1; - /* do not write into reserved64, might be removed in a future version */ - XXH_memcpy(statePtr, &state, sizeof(state) - sizeof(state.reserved64)); + XXH_ASSERT(statePtr != NULL); + memset(statePtr, 0, sizeof(*statePtr)); + statePtr->v[0] = seed + XXH_PRIME64_1 + XXH_PRIME64_2; + statePtr->v[1] = seed + XXH_PRIME64_2; + statePtr->v[2] = seed + 0; + statePtr->v[3] = seed - XXH_PRIME64_1; return XXH_OK; } -/*! @ingroup xxh64_family */ +/*! @ingroup XXH64_family */ XXH_PUBLIC_API XXH_errorcode -XXH64_update (XXH64_state_t* state, const void* input, size_t len) +XXH64_update (XXH_NOESCAPE XXH64_state_t* state, XXH_NOESCAPE const void* input, size_t len) { if (input==NULL) { XXH_ASSERT(len == 0); @@ -2667,8 +3335,8 @@ XXH64_update (XXH64_state_t* state, const void* input, size_t len) } -/*! @ingroup xxh64_family */ -XXH_PUBLIC_API XXH64_hash_t XXH64_digest(const XXH64_state_t* state) +/*! @ingroup XXH64_family */ +XXH_PUBLIC_API XXH64_hash_t XXH64_digest(XXH_NOESCAPE const XXH64_state_t* state) { xxh_u64 h64; @@ -2686,20 +3354,20 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_digest(const XXH64_state_t* state) return XXH64_finalize(h64, (const xxh_u8*)state->mem64, (size_t)state->total_len, XXH_aligned); } - +#endif /* !XXH_NO_STREAM */ /******* Canonical representation *******/ -/*! @ingroup xxh64_family */ -XXH_PUBLIC_API void XXH64_canonicalFromHash(XXH64_canonical_t* dst, XXH64_hash_t hash) +/*! @ingroup XXH64_family */ +XXH_PUBLIC_API void XXH64_canonicalFromHash(XXH_NOESCAPE XXH64_canonical_t* dst, XXH64_hash_t hash) { XXH_STATIC_ASSERT(sizeof(XXH64_canonical_t) == sizeof(XXH64_hash_t)); if (XXH_CPU_LITTLE_ENDIAN) hash = XXH_swap64(hash); XXH_memcpy(dst, &hash, sizeof(*dst)); } -/*! @ingroup xxh64_family */ -XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src) +/*! @ingroup XXH64_family */ +XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(XXH_NOESCAPE const XXH64_canonical_t* src) { return XXH_readBE64(src); } @@ -2712,7 +3380,7 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src ************************************************************************ */ /*! * @} - * @defgroup xxh3_impl XXH3 implementation + * @defgroup XXH3_impl XXH3 implementation * @ingroup impl * @{ */ @@ -2720,11 +3388,19 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src /* === Compiler specifics === */ #if ((defined(sun) || defined(__sun)) && __cplusplus) /* Solaris includes __STDC_VERSION__ with C++. Tested with GCC 5.5 */ -# define XXH_RESTRICT /* disable */ +# define XXH_RESTRICT /* disable */ #elif defined (__STDC_VERSION__) && __STDC_VERSION__ >= 199901L /* >= C99 */ # define XXH_RESTRICT restrict +#elif (defined (__GNUC__) && ((__GNUC__ > 3) || (__GNUC__ == 3 && __GNUC_MINOR__ >= 1))) \ + || (defined (__clang__)) \ + || (defined (_MSC_VER) && (_MSC_VER >= 1400)) \ + || (defined (__INTEL_COMPILER) && (__INTEL_COMPILER >= 1300)) +/* + * There are a LOT more compilers that recognize __restrict but this + * covers the major ones. + */ +# define XXH_RESTRICT __restrict #else -/* Note: it might be useful to define __restrict or __restrict__ for some C++ compilers */ # define XXH_RESTRICT /* disable */ #endif @@ -2738,17 +3414,33 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src # define XXH_unlikely(x) (x) #endif -#if defined(__GNUC__) -# if defined(__AVX2__) -# include -# elif defined(__SSE2__) -# include -# elif defined(__ARM_NEON__) || defined(__ARM_NEON) +#ifndef XXH_HAS_INCLUDE +# ifdef __has_include +# define XXH_HAS_INCLUDE(x) __has_include(x) +# else +# define XXH_HAS_INCLUDE(x) 0 +# endif +#endif + +#if defined(__GNUC__) || defined(__clang__) +# if defined(__ARM_FEATURE_SVE) +# include +# endif +# if defined(__ARM_NEON__) || defined(__ARM_NEON) \ + || (defined(_M_ARM) && _M_ARM >= 7) \ + || defined(_M_ARM64) || defined(_M_ARM64EC) \ + || (defined(__wasm_simd128__) && XXH_HAS_INCLUDE()) /* WASM SIMD128 via SIMDe */ # define inline __inline__ /* circumvent a clang bug */ # include # undef inline +# elif defined(__AVX2__) +# include +# elif defined(__SSE2__) +# include # endif -#elif defined(_MSC_VER) +#endif + +#if defined(_MSC_VER) # include #endif @@ -2848,7 +3540,7 @@ XXH_PUBLIC_API XXH64_hash_t XXH64_hashFromCanonical(const XXH64_canonical_t* src * Note that these are actually implemented as macros. * * If this is not defined, it is detected automatically. - * @ref XXH_X86DISPATCH overrides this. + * internal macro XXH_X86DISPATCH overrides this. */ enum XXH_VECTOR_TYPE /* fake enum */ { XXH_SCALAR = 0, /*!< Portable scalar version */ @@ -2860,14 +3552,19 @@ enum XXH_VECTOR_TYPE /* fake enum */ { */ XXH_AVX2 = 2, /*!< AVX2 for Haswell and Bulldozer */ XXH_AVX512 = 3, /*!< AVX512 for Skylake and Icelake */ - XXH_NEON = 4, /*!< NEON for most ARMv7-A and all AArch64 */ + XXH_NEON = 4, /*!< + * NEON for most ARMv7-A, all AArch64, and WASM SIMD128 + * via the SIMDeverywhere polyfill provided with the + * Emscripten SDK. + */ XXH_VSX = 5, /*!< VSX and ZVector for POWER8/z13 (64-bit) */ + XXH_SVE = 6, /*!< SVE for some ARMv8-A and ARMv9-A */ }; /*! * @ingroup tuning * @brief Selects the minimum alignment for XXH3's accumulators. * - * When using SIMD, this should match the alignment reqired for said vector + * When using SIMD, this should match the alignment required for said vector * type, so, for example, 32 for AVX2. * * Default: Auto detected. @@ -2883,23 +3580,27 @@ enum XXH_VECTOR_TYPE /* fake enum */ { # define XXH_AVX512 3 # define XXH_NEON 4 # define XXH_VSX 5 +# define XXH_SVE 6 #endif #ifndef XXH_VECTOR /* can be defined on command line */ -# if defined(__AVX512F__) -# define XXH_VECTOR XXH_AVX512 -# elif defined(__AVX2__) -# define XXH_VECTOR XXH_AVX2 -# elif defined(__SSE2__) || defined(_M_AMD64) || defined(_M_X64) || (defined(_M_IX86_FP) && (_M_IX86_FP == 2)) -# define XXH_VECTOR XXH_SSE2 +# if defined(__ARM_FEATURE_SVE) +# define XXH_VECTOR XXH_SVE # elif ( \ defined(__ARM_NEON__) || defined(__ARM_NEON) /* gcc */ \ - || defined(_M_ARM64) || defined(_M_ARM_ARMV7VE) /* msvc */ \ + || defined(_M_ARM) || defined(_M_ARM64) || defined(_M_ARM64EC) /* msvc */ \ + || (defined(__wasm_simd128__) && XXH_HAS_INCLUDE()) /* wasm simd128 via SIMDe */ \ ) && ( \ defined(_WIN32) || defined(__LITTLE_ENDIAN__) /* little endian only */ \ || (defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__) \ ) # define XXH_VECTOR XXH_NEON +# elif defined(__AVX512F__) +# define XXH_VECTOR XXH_AVX512 +# elif defined(__AVX2__) +# define XXH_VECTOR XXH_AVX2 +# elif defined(__SSE2__) || defined(_M_AMD64) || defined(_M_X64) || (defined(_M_IX86_FP) && (_M_IX86_FP == 2)) +# define XXH_VECTOR XXH_SSE2 # elif (defined(__PPC64__) && defined(__POWER8_VECTOR__)) \ || (defined(__s390x__) && defined(__VEC__)) \ && defined(__GNUC__) /* TODO: IBM XL */ @@ -2909,6 +3610,17 @@ enum XXH_VECTOR_TYPE /* fake enum */ { # endif #endif +/* __ARM_FEATURE_SVE is only supported by GCC & Clang. */ +#if (XXH_VECTOR == XXH_SVE) && !defined(__ARM_FEATURE_SVE) +# ifdef _MSC_VER +# pragma warning(once : 4606) +# else +# warning "__ARM_FEATURE_SVE isn't supported. Use SCALAR instead." +# endif +# undef XXH_VECTOR +# define XXH_VECTOR XXH_SCALAR +#endif + /* * Controls the alignment of the accumulator, * for compatibility with aligned vector loads, which are usually faster. @@ -2928,16 +3640,26 @@ enum XXH_VECTOR_TYPE /* fake enum */ { # define XXH_ACC_ALIGN 16 # elif XXH_VECTOR == XXH_AVX512 /* avx512 */ # define XXH_ACC_ALIGN 64 +# elif XXH_VECTOR == XXH_SVE /* sve */ +# define XXH_ACC_ALIGN 64 # endif #endif #if defined(XXH_X86DISPATCH) || XXH_VECTOR == XXH_SSE2 \ || XXH_VECTOR == XXH_AVX2 || XXH_VECTOR == XXH_AVX512 # define XXH_SEC_ALIGN XXH_ACC_ALIGN +#elif XXH_VECTOR == XXH_SVE +# define XXH_SEC_ALIGN XXH_ACC_ALIGN #else # define XXH_SEC_ALIGN 8 #endif +#if defined(__GNUC__) || defined(__clang__) +# define XXH_ALIASING __attribute__((may_alias)) +#else +# define XXH_ALIASING /* nothing */ +#endif + /* * UGLY HACK: * GCC usually generates the best code with -O3 for xxHash. @@ -2961,111 +3683,130 @@ enum XXH_VECTOR_TYPE /* fake enum */ { */ #if XXH_VECTOR == XXH_AVX2 /* AVX2 */ \ && defined(__GNUC__) && !defined(__clang__) /* GCC, not Clang */ \ - && defined(__OPTIMIZE__) && !defined(__OPTIMIZE_SIZE__) /* respect -O0 and -Os */ + && defined(__OPTIMIZE__) && XXH_SIZE_OPT <= 0 /* respect -O0 and -Os */ # pragma GCC push_options # pragma GCC optimize("-O2") #endif - #if XXH_VECTOR == XXH_NEON + /* - * NEON's setup for vmlal_u32 is a little more complicated than it is on - * SSE2, AVX2, and VSX. - * - * While PMULUDQ and VMULEUW both perform a mask, VMLAL.U32 performs an upcast. - * - * To do the same operation, the 128-bit 'Q' register needs to be split into - * two 64-bit 'D' registers, performing this operation:: + * UGLY HACK: While AArch64 GCC on Linux does not seem to care, on macOS, GCC -O3 + * optimizes out the entire hashLong loop because of the aliasing violation. * - * [ a | b ] - * | '---------. .--------' | - * | x | - * | .---------' '--------. | - * [ a & 0xFFFFFFFF | b & 0xFFFFFFFF ],[ a >> 32 | b >> 32 ] - * - * Due to significant changes in aarch64, the fastest method for aarch64 is - * completely different than the fastest method for ARMv7-A. - * - * ARMv7-A treats D registers as unions overlaying Q registers, so modifying - * D11 will modify the high half of Q5. This is similar to how modifying AH - * will only affect bits 8-15 of AX on x86. - * - * VZIP takes two registers, and puts even lanes in one register and odd lanes - * in the other. + * However, GCC is also inefficient at load-store optimization with vld1q/vst1q, + * so the only option is to mark it as aliasing. + */ +typedef uint64x2_t xxh_aliasing_uint64x2_t XXH_ALIASING; + +/*! + * @internal + * @brief `vld1q_u64` but faster and alignment-safe. * - * On ARMv7-A, this strangely modifies both parameters in place instead of - * taking the usual 3-operand form. + * On AArch64, unaligned access is always safe, but on ARMv7-a, it is only + * *conditionally* safe (`vld1` has an alignment bit like `movdq[ua]` in x86). * - * Therefore, if we want to do this, we can simply use a D-form VZIP.32 on the - * lower and upper halves of the Q register to end up with the high and low - * halves where we want - all in one instruction. + * GCC for AArch64 sees `vld1q_u8` as an intrinsic instead of a load, so it + * prohibits load-store optimizations. Therefore, a direct dereference is used. * - * vzip.32 d10, d11 @ d10 = { d10[0], d11[0] }; d11 = { d10[1], d11[1] } + * Otherwise, `vld1q_u8` is used with `vreinterpretq_u8_u64` to do a safe + * unaligned load. + */ +#if defined(__aarch64__) && defined(__GNUC__) && !defined(__clang__) +XXH_FORCE_INLINE uint64x2_t XXH_vld1q_u64(void const* ptr) /* silence -Wcast-align */ +{ + return *(xxh_aliasing_uint64x2_t const *)ptr; +} +#else +XXH_FORCE_INLINE uint64x2_t XXH_vld1q_u64(void const* ptr) +{ + return vreinterpretq_u64_u8(vld1q_u8((uint8_t const*)ptr)); +} +#endif + +/*! + * @internal + * @brief `vmlal_u32` on low and high halves of a vector. * - * Unfortunately we need inline assembly for this: Instructions modifying two - * registers at once is not possible in GCC or Clang's IR, and they have to - * create a copy. + * This is a workaround for AArch64 GCC < 11 which implemented arm_neon.h with + * inline assembly and were therefore incapable of merging the `vget_{low, high}_u32` + * with `vmlal_u32`. + */ +#if defined(__aarch64__) && defined(__GNUC__) && !defined(__clang__) && __GNUC__ < 11 +XXH_FORCE_INLINE uint64x2_t +XXH_vmlal_low_u32(uint64x2_t acc, uint32x4_t lhs, uint32x4_t rhs) +{ + /* Inline assembly is the only way */ + __asm__("umlal %0.2d, %1.2s, %2.2s" : "+w" (acc) : "w" (lhs), "w" (rhs)); + return acc; +} +XXH_FORCE_INLINE uint64x2_t +XXH_vmlal_high_u32(uint64x2_t acc, uint32x4_t lhs, uint32x4_t rhs) +{ + /* This intrinsic works as expected */ + return vmlal_high_u32(acc, lhs, rhs); +} +#else +/* Portable intrinsic versions */ +XXH_FORCE_INLINE uint64x2_t +XXH_vmlal_low_u32(uint64x2_t acc, uint32x4_t lhs, uint32x4_t rhs) +{ + return vmlal_u32(acc, vget_low_u32(lhs), vget_low_u32(rhs)); +} +/*! @copydoc XXH_vmlal_low_u32 + * Assume the compiler converts this to vmlal_high_u32 on aarch64 */ +XXH_FORCE_INLINE uint64x2_t +XXH_vmlal_high_u32(uint64x2_t acc, uint32x4_t lhs, uint32x4_t rhs) +{ + return vmlal_u32(acc, vget_high_u32(lhs), vget_high_u32(rhs)); +} +#endif + +/*! + * @ingroup tuning + * @brief Controls the NEON to scalar ratio for XXH3 * - * aarch64 requires a different approach. + * This can be set to 2, 4, 6, or 8. * - * In order to make it easier to write a decent compiler for aarch64, many - * quirks were removed, such as conditional execution. + * ARM Cortex CPUs are _very_ sensitive to how their pipelines are used. * - * NEON was also affected by this. + * For example, the Cortex-A73 can dispatch 3 micro-ops per cycle, but only 2 of those + * can be NEON. If you are only using NEON instructions, you are only using 2/3 of the CPU + * bandwidth. * - * aarch64 cannot access the high bits of a Q-form register, and writes to a - * D-form register zero the high bits, similar to how writes to W-form scalar - * registers (or DWORD registers on x86_64) work. + * This is even more noticeable on the more advanced cores like the Cortex-A76 which + * can dispatch 8 micro-ops per cycle, but still only 2 NEON micro-ops at once. * - * The formerly free vget_high intrinsics now require a vext (with a few - * exceptions) + * Therefore, to make the most out of the pipeline, it is beneficial to run 6 NEON lanes + * and 2 scalar lanes, which is chosen by default. * - * Additionally, VZIP was replaced by ZIP1 and ZIP2, which are the equivalent - * of PUNPCKL* and PUNPCKH* in SSE, respectively, in order to only modify one - * operand. + * This does not apply to Apple processors or 32-bit processors, which run better with + * full NEON. These will default to 8. Additionally, size-optimized builds run 8 lanes. * - * The equivalent of the VZIP.32 on the lower and upper halves would be this - * mess: + * This change benefits CPUs with large micro-op buffers without negatively affecting + * most other CPUs: * - * ext v2.4s, v0.4s, v0.4s, #2 // v2 = { v0[2], v0[3], v0[0], v0[1] } - * zip1 v1.2s, v0.2s, v2.2s // v1 = { v0[0], v2[0] } - * zip2 v0.2s, v0.2s, v1.2s // v0 = { v0[1], v2[1] } + * | Chipset | Dispatch type | NEON only | 6:2 hybrid | Diff. | + * |:----------------------|:--------------------|----------:|-----------:|------:| + * | Snapdragon 730 (A76) | 2 NEON/8 micro-ops | 8.8 GB/s | 10.1 GB/s | ~16% | + * | Snapdragon 835 (A73) | 2 NEON/3 micro-ops | 5.1 GB/s | 5.3 GB/s | ~5% | + * | Marvell PXA1928 (A53) | In-order dual-issue | 1.9 GB/s | 1.9 GB/s | 0% | + * | Apple M1 | 4 NEON/8 micro-ops | 37.3 GB/s | 36.1 GB/s | ~-3% | * - * Instead, we use a literal downcast, vmovn_u64 (XTN), and vshrn_n_u64 (SHRN): + * It also seems to fix some bad codegen on GCC, making it almost as fast as clang. * - * shrn v1.2s, v0.2d, #32 // v1 = (uint32x2_t)(v0 >> 32); - * xtn v0.2s, v0.2d // v0 = (uint32x2_t)(v0 & 0xFFFFFFFF); + * When using WASM SIMD128, if this is 2 or 6, SIMDe will scalarize 2 of the lanes meaning + * it effectively becomes worse 4. * - * This is available on ARMv7-A, but is less efficient than a single VZIP.32. + * @see XXH3_accumulate_512_neon() */ - -/*! - * Function-like macro: - * void XXH_SPLIT_IN_PLACE(uint64x2_t &in, uint32x2_t &outLo, uint32x2_t &outHi) - * { - * outLo = (uint32x2_t)(in & 0xFFFFFFFF); - * outHi = (uint32x2_t)(in >> 32); - * in = UNDEFINED; - * } - */ -# if !defined(XXH_NO_VZIP_HACK) /* define to disable */ \ - && defined(__GNUC__) \ - && !defined(__aarch64__) && !defined(__arm64__) && !defined(_M_ARM64) -# define XXH_SPLIT_IN_PLACE(in, outLo, outHi) \ - do { \ - /* Undocumented GCC/Clang operand modifier: %e0 = lower D half, %f0 = upper D half */ \ - /* https://github.com/gcc-mirror/gcc/blob/38cf91e5/gcc/config/arm/arm.c#L22486 */ \ - /* https://github.com/llvm-mirror/llvm/blob/2c4ca683/lib/Target/ARM/ARMAsmPrinter.cpp#L399 */ \ - __asm__("vzip.32 %e0, %f0" : "+w" (in)); \ - (outLo) = vget_low_u32 (vreinterpretq_u32_u64(in)); \ - (outHi) = vget_high_u32(vreinterpretq_u32_u64(in)); \ - } while (0) -# else -# define XXH_SPLIT_IN_PLACE(in, outLo, outHi) \ - do { \ - (outLo) = vmovn_u64 (in); \ - (outHi) = vshrn_n_u64 ((in), 32); \ - } while (0) +# ifndef XXH3_NEON_LANES +# if (defined(__aarch64__) || defined(__arm64__) || defined(_M_ARM64) || defined(_M_ARM64EC)) \ + && !defined(__APPLE__) && XXH_SIZE_OPT <= 0 +# define XXH3_NEON_LANES 6 +# else +# define XXH3_NEON_LANES XXH_ACC_NB +# endif # endif #endif /* XXH_VECTOR == XXH_NEON */ @@ -3078,27 +3819,42 @@ enum XXH_VECTOR_TYPE /* fake enum */ { * inconsistent intrinsics, spotty coverage, and multiple endiannesses. */ #if XXH_VECTOR == XXH_VSX +/* Annoyingly, these headers _may_ define three macros: `bool`, `vector`, + * and `pixel`. This is a problem for obvious reasons. + * + * These keywords are unnecessary; the spec literally says they are + * equivalent to `__bool`, `__vector`, and `__pixel` and may be undef'd + * after including the header. + * + * We use pragma push_macro/pop_macro to keep the namespace clean. */ +# pragma push_macro("bool") +# pragma push_macro("vector") +# pragma push_macro("pixel") +/* silence potential macro redefined warnings */ +# undef bool +# undef vector +# undef pixel + # if defined(__s390x__) # include # else -/* gcc's altivec.h can have the unwanted consequence to unconditionally - * #define bool, vector, and pixel keywords, - * with bad consequences for programs already using these keywords for other purposes. - * The paragraph defining these macros is skipped when __APPLE_ALTIVEC__ is defined. - * __APPLE_ALTIVEC__ is _generally_ defined automatically by the compiler, - * but it seems that, in some cases, it isn't. - * Force the build macro to be defined, so that keywords are not altered. - */ -# if defined(__GNUC__) && !defined(__APPLE_ALTIVEC__) -# define __APPLE_ALTIVEC__ -# endif # include # endif +/* Restore the original macro values, if applicable. */ +# pragma pop_macro("pixel") +# pragma pop_macro("vector") +# pragma pop_macro("bool") + typedef __vector unsigned long long xxh_u64x2; typedef __vector unsigned char xxh_u8x16; typedef __vector unsigned xxh_u32x4; +/* + * UGLY HACK: Similar to aarch64 macOS GCC, s390x GCC has the same aliasing issue. + */ +typedef xxh_u64x2 xxh_aliasing_u64x2 XXH_ALIASING; + # ifndef XXH_VSX_BE # if defined(__BIG_ENDIAN__) \ || (defined(__BYTE_ORDER__) && __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__) @@ -3150,8 +3906,9 @@ XXH_FORCE_INLINE xxh_u64x2 XXH_vec_loadu(const void *ptr) /* s390x is always big endian, no issue on this platform */ # define XXH_vec_mulo vec_mulo # define XXH_vec_mule vec_mule -# elif defined(__clang__) && XXH_HAS_BUILTIN(__builtin_altivec_vmuleuw) +# elif defined(__clang__) && XXH_HAS_BUILTIN(__builtin_altivec_vmuleuw) && !defined(__ibmxl__) /* Clang has a better way to control this, we can just use the builtin which doesn't swap. */ + /* The IBM XL Compiler (which defined __clang__) only implements the vec_* operations */ # define XXH_vec_mulo __builtin_altivec_vmulouw # define XXH_vec_mule __builtin_altivec_vmuleuw # else @@ -3172,13 +3929,28 @@ XXH_FORCE_INLINE xxh_u64x2 XXH_vec_mule(xxh_u32x4 a, xxh_u32x4 b) # endif /* XXH_vec_mulo, XXH_vec_mule */ #endif /* XXH_VECTOR == XXH_VSX */ +#if XXH_VECTOR == XXH_SVE +#define ACCRND(acc, offset) \ +do { \ + svuint64_t input_vec = svld1_u64(mask, xinput + offset); \ + svuint64_t secret_vec = svld1_u64(mask, xsecret + offset); \ + svuint64_t mixed = sveor_u64_x(mask, secret_vec, input_vec); \ + svuint64_t swapped = svtbl_u64(input_vec, kSwap); \ + svuint64_t mixed_lo = svextw_u64_x(mask, mixed); \ + svuint64_t mixed_hi = svlsr_n_u64_x(mask, mixed, 32); \ + svuint64_t mul = svmad_u64_x(mask, mixed_lo, mixed_hi, swapped); \ + acc = svadd_u64_x(mask, acc, mul); \ +} while (0) +#endif /* XXH_VECTOR == XXH_SVE */ /* prefetch * can be disabled, by declaring XXH_NO_PREFETCH build macro */ #if defined(XXH_NO_PREFETCH) # define XXH_PREFETCH(ptr) (void)(ptr) /* disabled */ #else -# if defined(_MSC_VER) && (defined(_M_X64) || defined(_M_IX86)) /* _mm_prefetch() not defined outside of x86/x64 */ +# if XXH_SIZE_OPT >= 1 +# define XXH_PREFETCH(ptr) (void)(ptr) +# elif defined(_MSC_VER) && (defined(_M_X64) || defined(_M_IX86)) /* _mm_prefetch() not defined outside of x86/x64 */ # include /* https://msdn.microsoft.com/fr-fr/library/84szxsww(v=vs.90).aspx */ # define XXH_PREFETCH(ptr) _mm_prefetch((const char*)(ptr), _MM_HINT_T0) # elif defined(__GNUC__) && ( (__GNUC__ >= 4) || ( (__GNUC__ == 3) && (__GNUC_MINOR__ >= 1) ) ) @@ -3215,6 +3987,8 @@ XXH_ALIGN(64) static const xxh_u8 XXH3_kSecret[XXH_SECRET_DEFAULT_SIZE] = { 0x45, 0xcb, 0x3a, 0x8f, 0x95, 0x16, 0x04, 0x28, 0xaf, 0xd7, 0xfb, 0xca, 0xbb, 0x4b, 0x40, 0x7e, }; +static const xxh_u64 PRIME_MX1 = 0x165667919E3779F9ULL; /*!< 0b0001011001010110011001111001000110011110001101110111100111111001 */ +static const xxh_u64 PRIME_MX2 = 0x9FB21C651E98DF25ULL; /*!< 0b1001111110110010000111000110010100011110100110001101111100100101 */ #ifdef XXH_OLD_NAMES # define kSecret XXH3_kSecret @@ -3243,7 +4017,6 @@ XXH_mult32to64(xxh_u64 x, xxh_u64 y) return (x & 0xFFFFFFFF) * (y & 0xFFFFFFFF); } #elif defined(_MSC_VER) && defined(_M_IX86) -# include # define XXH_mult32to64(x, y) __emulu((unsigned)(x), (unsigned)(y)) #else /* @@ -3283,7 +4056,7 @@ XXH_mult64to128(xxh_u64 lhs, xxh_u64 rhs) * In that case it is best to use the portable one. * https://github.com/Cyan4973/xxHash/issues/211#issuecomment-515575677 */ -#if defined(__GNUC__) && !defined(__wasm__) \ +#if (defined(__GNUC__) || defined(__clang__)) && !defined(__wasm__) \ && defined(__SIZEOF_INT128__) \ || (defined(_INTEGRAL_MAX_BITS) && _INTEGRAL_MAX_BITS >= 128) @@ -3300,7 +4073,7 @@ XXH_mult64to128(xxh_u64 lhs, xxh_u64 rhs) * * This compiles to single operand MUL on x64. */ -#elif defined(_M_X64) || defined(_M_IA64) +#elif (defined(_M_X64) || defined(_M_IA64)) && !defined(_M_ARM64EC) #ifndef _MSC_VER # pragma intrinsic(_umul128) @@ -3317,7 +4090,7 @@ XXH_mult64to128(xxh_u64 lhs, xxh_u64 rhs) * * This compiles to the same MUL + UMULH as GCC/Clang's __uint128_t method. */ -#elif defined(_M_ARM64) +#elif defined(_M_ARM64) || defined(_M_ARM64EC) #ifndef _MSC_VER # pragma intrinsic(__umulh) @@ -3407,7 +4180,7 @@ XXH3_mul128_fold64(xxh_u64 lhs, xxh_u64 rhs) } /*! Seems to produce slightly better code on GCC for some reason. */ -XXH_FORCE_INLINE xxh_u64 XXH_xorshift64(xxh_u64 v64, int shift) +XXH_FORCE_INLINE XXH_CONSTF xxh_u64 XXH_xorshift64(xxh_u64 v64, int shift) { XXH_ASSERT(0 <= shift && shift < 64); return v64 ^ (v64 >> shift); @@ -3420,7 +4193,7 @@ XXH_FORCE_INLINE xxh_u64 XXH_xorshift64(xxh_u64 v64, int shift) static XXH64_hash_t XXH3_avalanche(xxh_u64 h64) { h64 = XXH_xorshift64(h64, 37); - h64 *= 0x165667919E3779F9ULL; + h64 *= PRIME_MX1; h64 = XXH_xorshift64(h64, 32); return h64; } @@ -3434,9 +4207,9 @@ static XXH64_hash_t XXH3_rrmxmx(xxh_u64 h64, xxh_u64 len) { /* this mix is inspired by Pelle Evensen's rrmxmx */ h64 ^= XXH_rotl64(h64, 49) ^ XXH_rotl64(h64, 24); - h64 *= 0x9FB21C651E98DF25ULL; + h64 *= PRIME_MX2; h64 ^= (h64 >> 35) + len ; - h64 *= 0x9FB21C651E98DF25ULL; + h64 *= PRIME_MX2; return XXH_xorshift64(h64, 28); } @@ -3474,7 +4247,7 @@ static XXH64_hash_t XXH3_rrmxmx(xxh_u64 h64, xxh_u64 len) * * This adds an extra layer of strength for custom secrets. */ -XXH_FORCE_INLINE XXH64_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH64_hash_t XXH3_len_1to3_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(input != NULL); @@ -3496,7 +4269,7 @@ XXH3_len_1to3_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_h } } -XXH_FORCE_INLINE XXH64_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH64_hash_t XXH3_len_4to8_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(input != NULL); @@ -3512,7 +4285,7 @@ XXH3_len_4to8_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_h } } -XXH_FORCE_INLINE XXH64_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH64_hash_t XXH3_len_9to16_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(input != NULL); @@ -3529,7 +4302,7 @@ XXH3_len_9to16_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_ } } -XXH_FORCE_INLINE XXH64_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH64_hash_t XXH3_len_0to16_64b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(len <= 16); @@ -3599,7 +4372,7 @@ XXH_FORCE_INLINE xxh_u64 XXH3_mix16B(const xxh_u8* XXH_RESTRICT input, } /* For mid range keys, XXH3 uses a Mum-hash variant. */ -XXH_FORCE_INLINE XXH64_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH64_hash_t XXH3_len_17to128_64b(const xxh_u8* XXH_RESTRICT input, size_t len, const xxh_u8* XXH_RESTRICT secret, size_t secretSize, XXH64_hash_t seed) @@ -3608,6 +4381,14 @@ XXH3_len_17to128_64b(const xxh_u8* XXH_RESTRICT input, size_t len, XXH_ASSERT(16 < len && len <= 128); { xxh_u64 acc = len * XXH_PRIME64_1; +#if XXH_SIZE_OPT >= 1 + /* Smaller and cleaner, but slightly slower. */ + unsigned int i = (unsigned int)(len - 1) / 32; + do { + acc += XXH3_mix16B(input+16 * i, secret+32*i, seed); + acc += XXH3_mix16B(input+len-16*(i+1), secret+32*i+16, seed); + } while (i-- != 0); +#else if (len > 32) { if (len > 64) { if (len > 96) { @@ -3622,14 +4403,14 @@ XXH3_len_17to128_64b(const xxh_u8* XXH_RESTRICT input, size_t len, } acc += XXH3_mix16B(input+0, secret+0, seed); acc += XXH3_mix16B(input+len-16, secret+16, seed); - +#endif return XXH3_avalanche(acc); } } #define XXH3_MIDSIZE_MAX 240 -XXH_NO_INLINE XXH64_hash_t +XXH_NO_INLINE XXH_PUREF XXH64_hash_t XXH3_len_129to240_64b(const xxh_u8* XXH_RESTRICT input, size_t len, const xxh_u8* XXH_RESTRICT secret, size_t secretSize, XXH64_hash_t seed) @@ -3641,13 +4422,17 @@ XXH3_len_129to240_64b(const xxh_u8* XXH_RESTRICT input, size_t len, #define XXH3_MIDSIZE_LASTOFFSET 17 { xxh_u64 acc = len * XXH_PRIME64_1; - int const nbRounds = (int)len / 16; - int i; + xxh_u64 acc_end; + unsigned int const nbRounds = (unsigned int)len / 16; + unsigned int i; + XXH_ASSERT(128 < len && len <= XXH3_MIDSIZE_MAX); for (i=0; i<8; i++) { acc += XXH3_mix16B(input+(16*i), secret+(16*i), seed); } - acc = XXH3_avalanche(acc); + /* last bytes */ + acc_end = XXH3_mix16B(input + len - 16, secret + XXH3_SECRET_SIZE_MIN - XXH3_MIDSIZE_LASTOFFSET, seed); XXH_ASSERT(nbRounds >= 8); + acc = XXH3_avalanche(acc); #if defined(__clang__) /* Clang */ \ && (defined(__ARM_NEON) || defined(__ARM_NEON__)) /* NEON */ \ && !defined(XXH_ENABLE_AUTOVECTORIZE) /* Define to disable */ @@ -3674,11 +4459,13 @@ XXH3_len_129to240_64b(const xxh_u8* XXH_RESTRICT input, size_t len, #pragma clang loop vectorize(disable) #endif for (i=8 ; i < nbRounds; i++) { - acc += XXH3_mix16B(input+(16*i), secret+(16*(i-8)) + XXH3_MIDSIZE_STARTOFFSET, seed); + /* + * Prevents clang for unrolling the acc loop and interleaving with this one. + */ + XXH_COMPILER_GUARD(acc); + acc_end += XXH3_mix16B(input+(16*i), secret+(16*(i-8)) + XXH3_MIDSIZE_STARTOFFSET, seed); } - /* last bytes */ - acc += XXH3_mix16B(input + len - 16, secret + XXH3_SECRET_SIZE_MIN - XXH3_MIDSIZE_LASTOFFSET, seed); - return XXH3_avalanche(acc); + return XXH3_avalanche(acc + acc_end); } } @@ -3694,6 +4481,47 @@ XXH3_len_129to240_64b(const xxh_u8* XXH_RESTRICT input, size_t len, # define ACC_NB XXH_ACC_NB #endif +#ifndef XXH_PREFETCH_DIST +# ifdef __clang__ +# define XXH_PREFETCH_DIST 320 +# else +# if (XXH_VECTOR == XXH_AVX512) +# define XXH_PREFETCH_DIST 512 +# else +# define XXH_PREFETCH_DIST 384 +# endif +# endif /* __clang__ */ +#endif /* XXH_PREFETCH_DIST */ + +/* + * These macros are to generate an XXH3_accumulate() function. + * The two arguments select the name suffix and target attribute. + * + * The name of this symbol is XXH3_accumulate_() and it calls + * XXH3_accumulate_512_(). + * + * It may be useful to hand implement this function if the compiler fails to + * optimize the inline function. + */ +#define XXH3_ACCUMULATE_TEMPLATE(name) \ +void \ +XXH3_accumulate_##name(xxh_u64* XXH_RESTRICT acc, \ + const xxh_u8* XXH_RESTRICT input, \ + const xxh_u8* XXH_RESTRICT secret, \ + size_t nbStripes) \ +{ \ + size_t n; \ + for (n = 0; n < nbStripes; n++ ) { \ + const xxh_u8* const in = input + n*XXH_STRIPE_LEN; \ + XXH_PREFETCH(in + XXH_PREFETCH_DIST); \ + XXH3_accumulate_512_##name( \ + acc, \ + in, \ + secret + n*XXH_SECRET_CONSUME_RATE); \ + } \ +} + + XXH_FORCE_INLINE void XXH_writeLE64(void* dst, xxh_u64 v64) { if (!XXH_CPU_LITTLE_ENDIAN) v64 = XXH_swap64(v64); @@ -3714,6 +4542,7 @@ XXH_FORCE_INLINE void XXH_writeLE64(void* dst, xxh_u64 v64) typedef long long xxh_i64; #endif + /* * XXH3_accumulate_512 is the tightest loop for long inputs, and it is the most optimized. * @@ -3761,7 +4590,7 @@ XXH3_accumulate_512_avx512(void* XXH_RESTRICT acc, /* data_key = data_vec ^ key_vec; */ __m512i const data_key = _mm512_xor_si512 (data_vec, key_vec); /* data_key_lo = data_key >> 32; */ - __m512i const data_key_lo = _mm512_shuffle_epi32 (data_key, (_MM_PERM_ENUM)_MM_SHUFFLE(0, 3, 0, 1)); + __m512i const data_key_lo = _mm512_srli_epi64 (data_key, 32); /* product = (data_key & 0xffffffff) * (data_key_lo & 0xffffffff); */ __m512i const product = _mm512_mul_epu32 (data_key, data_key_lo); /* xacc[0] += swap(data_vec); */ @@ -3771,6 +4600,7 @@ XXH3_accumulate_512_avx512(void* XXH_RESTRICT acc, *xacc = _mm512_add_epi64(product, sum); } } +XXH_FORCE_INLINE XXH_TARGET_AVX512 XXH3_ACCUMULATE_TEMPLATE(avx512) /* * XXH3_scrambleAcc: Scrambles the accumulators to improve mixing. @@ -3804,13 +4634,12 @@ XXH3_scrambleAcc_avx512(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) /* xacc[0] ^= (xacc[0] >> 47) */ __m512i const acc_vec = *xacc; __m512i const shifted = _mm512_srli_epi64 (acc_vec, 47); - __m512i const data_vec = _mm512_xor_si512 (acc_vec, shifted); /* xacc[0] ^= secret; */ __m512i const key_vec = _mm512_loadu_si512 (secret); - __m512i const data_key = _mm512_xor_si512 (data_vec, key_vec); + __m512i const data_key = _mm512_ternarylogic_epi32(key_vec, acc_vec, shifted, 0x96 /* key_vec ^ acc_vec ^ shifted */); /* xacc[0] *= XXH_PRIME32_1; */ - __m512i const data_key_hi = _mm512_shuffle_epi32 (data_key, (_MM_PERM_ENUM)_MM_SHUFFLE(0, 3, 0, 1)); + __m512i const data_key_hi = _mm512_srli_epi64 (data_key, 32); __m512i const prod_lo = _mm512_mul_epu32 (data_key, prime32); __m512i const prod_hi = _mm512_mul_epu32 (data_key_hi, prime32); *xacc = _mm512_add_epi64(prod_lo, _mm512_slli_epi64(prod_hi, 32)); @@ -3825,7 +4654,8 @@ XXH3_initCustomSecret_avx512(void* XXH_RESTRICT customSecret, xxh_u64 seed64) XXH_ASSERT(((size_t)customSecret & 63) == 0); (void)(&XXH_writeLE64); { int const nbRounds = XXH_SECRET_DEFAULT_SIZE / sizeof(__m512i); - __m512i const seed = _mm512_mask_set1_epi64(_mm512_set1_epi64((xxh_i64)seed64), 0xAA, (xxh_i64)(0U - seed64)); + __m512i const seed_pos = _mm512_set1_epi64((xxh_i64)seed64); + __m512i const seed = _mm512_mask_sub_epi64(seed_pos, 0xAA, _mm512_set1_epi8(0), seed_pos); const __m512i* const src = (const __m512i*) ((const void*) XXH3_kSecret); __m512i* const dest = ( __m512i*) customSecret; @@ -3833,14 +4663,7 @@ XXH3_initCustomSecret_avx512(void* XXH_RESTRICT customSecret, xxh_u64 seed64) XXH_ASSERT(((size_t)src & 63) == 0); /* control alignment */ XXH_ASSERT(((size_t)dest & 63) == 0); for (i=0; i < nbRounds; ++i) { - /* GCC has a bug, _mm512_stream_load_si512 accepts 'void*', not 'void const*', - * this will warn "discards 'const' qualifier". */ - union { - const __m512i* cp; - void* p; - } remote_const_void; - remote_const_void.cp = src + i; - dest[i] = _mm512_add_epi64(_mm512_stream_load_si512(remote_const_void.p), seed); + dest[i] = _mm512_add_epi64(_mm512_load_si512(src + i), seed); } } } @@ -3876,7 +4699,7 @@ XXH3_accumulate_512_avx2( void* XXH_RESTRICT acc, /* data_key = data_vec ^ key_vec; */ __m256i const data_key = _mm256_xor_si256 (data_vec, key_vec); /* data_key_lo = data_key >> 32; */ - __m256i const data_key_lo = _mm256_shuffle_epi32 (data_key, _MM_SHUFFLE(0, 3, 0, 1)); + __m256i const data_key_lo = _mm256_srli_epi64 (data_key, 32); /* product = (data_key & 0xffffffff) * (data_key_lo & 0xffffffff); */ __m256i const product = _mm256_mul_epu32 (data_key, data_key_lo); /* xacc[i] += swap(data_vec); */ @@ -3886,6 +4709,7 @@ XXH3_accumulate_512_avx2( void* XXH_RESTRICT acc, xacc[i] = _mm256_add_epi64(product, sum); } } } +XXH_FORCE_INLINE XXH_TARGET_AVX2 XXH3_ACCUMULATE_TEMPLATE(avx2) XXH_FORCE_INLINE XXH_TARGET_AVX2 void XXH3_scrambleAcc_avx2(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) @@ -3908,7 +4732,7 @@ XXH3_scrambleAcc_avx2(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) __m256i const data_key = _mm256_xor_si256 (data_vec, key_vec); /* xacc[i] *= XXH_PRIME32_1; */ - __m256i const data_key_hi = _mm256_shuffle_epi32 (data_key, _MM_SHUFFLE(0, 3, 0, 1)); + __m256i const data_key_hi = _mm256_srli_epi64 (data_key, 32); __m256i const prod_lo = _mm256_mul_epu32 (data_key, prime32); __m256i const prod_hi = _mm256_mul_epu32 (data_key_hi, prime32); xacc[i] = _mm256_add_epi64(prod_lo, _mm256_slli_epi64(prod_hi, 32)); @@ -3940,12 +4764,12 @@ XXH_FORCE_INLINE XXH_TARGET_AVX2 void XXH3_initCustomSecret_avx2(void* XXH_RESTR XXH_ASSERT(((size_t)dest & 31) == 0); /* GCC -O2 need unroll loop manually */ - dest[0] = _mm256_add_epi64(_mm256_stream_load_si256(src+0), seed); - dest[1] = _mm256_add_epi64(_mm256_stream_load_si256(src+1), seed); - dest[2] = _mm256_add_epi64(_mm256_stream_load_si256(src+2), seed); - dest[3] = _mm256_add_epi64(_mm256_stream_load_si256(src+3), seed); - dest[4] = _mm256_add_epi64(_mm256_stream_load_si256(src+4), seed); - dest[5] = _mm256_add_epi64(_mm256_stream_load_si256(src+5), seed); + dest[0] = _mm256_add_epi64(_mm256_load_si256(src+0), seed); + dest[1] = _mm256_add_epi64(_mm256_load_si256(src+1), seed); + dest[2] = _mm256_add_epi64(_mm256_load_si256(src+2), seed); + dest[3] = _mm256_add_epi64(_mm256_load_si256(src+3), seed); + dest[4] = _mm256_add_epi64(_mm256_load_si256(src+4), seed); + dest[5] = _mm256_add_epi64(_mm256_load_si256(src+5), seed); } } @@ -3992,6 +4816,7 @@ XXH3_accumulate_512_sse2( void* XXH_RESTRICT acc, xacc[i] = _mm_add_epi64(product, sum); } } } +XXH_FORCE_INLINE XXH_TARGET_SSE2 XXH3_ACCUMULATE_TEMPLATE(sse2) XXH_FORCE_INLINE XXH_TARGET_SSE2 void XXH3_scrambleAcc_sse2(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) @@ -4059,96 +4884,222 @@ XXH_FORCE_INLINE XXH_TARGET_SSE2 void XXH3_initCustomSecret_sse2(void* XXH_RESTR #if (XXH_VECTOR == XXH_NEON) +/* forward declarations for the scalar routines */ +XXH_FORCE_INLINE void +XXH3_scalarRound(void* XXH_RESTRICT acc, void const* XXH_RESTRICT input, + void const* XXH_RESTRICT secret, size_t lane); + +XXH_FORCE_INLINE void +XXH3_scalarScrambleRound(void* XXH_RESTRICT acc, + void const* XXH_RESTRICT secret, size_t lane); + +/*! + * @internal + * @brief The bulk processing loop for NEON and WASM SIMD128. + * + * The NEON code path is actually partially scalar when running on AArch64. This + * is to optimize the pipelining and can have up to 15% speedup depending on the + * CPU, and it also mitigates some GCC codegen issues. + * + * @see XXH3_NEON_LANES for configuring this and details about this optimization. + * + * NEON's 32-bit to 64-bit long multiply takes a half vector of 32-bit + * integers instead of the other platforms which mask full 64-bit vectors, + * so the setup is more complicated than just shifting right. + * + * Additionally, there is an optimization for 4 lanes at once noted below. + * + * Since, as stated, the most optimal amount of lanes for Cortexes is 6, + * there needs to be *three* versions of the accumulate operation used + * for the remaining 2 lanes. + * + * WASM's SIMD128 uses SIMDe's arm_neon.h polyfill because the intrinsics overlap + * nearly perfectly. + */ + XXH_FORCE_INLINE void XXH3_accumulate_512_neon( void* XXH_RESTRICT acc, const void* XXH_RESTRICT input, const void* XXH_RESTRICT secret) { XXH_ASSERT((((size_t)acc) & 15) == 0); - { - uint64x2_t* const xacc = (uint64x2_t *) acc; + XXH_STATIC_ASSERT(XXH3_NEON_LANES > 0 && XXH3_NEON_LANES <= XXH_ACC_NB && XXH3_NEON_LANES % 2 == 0); + { /* GCC for darwin arm64 does not like aliasing here */ + xxh_aliasing_uint64x2_t* const xacc = (xxh_aliasing_uint64x2_t*) acc; /* We don't use a uint32x4_t pointer because it causes bus errors on ARMv7. */ - uint8_t const* const xinput = (const uint8_t *) input; - uint8_t const* const xsecret = (const uint8_t *) secret; + uint8_t const* xinput = (const uint8_t *) input; + uint8_t const* xsecret = (const uint8_t *) secret; size_t i; - for (i=0; i < XXH_STRIPE_LEN / sizeof(uint64x2_t); i++) { +#ifdef __wasm_simd128__ + /* + * On WASM SIMD128, Clang emits direct address loads when XXH3_kSecret + * is constant propagated, which results in it converting it to this + * inside the loop: + * + * a = v128.load(XXH3_kSecret + 0 + $secret_offset, offset = 0) + * b = v128.load(XXH3_kSecret + 16 + $secret_offset, offset = 0) + * ... + * + * This requires a full 32-bit address immediate (and therefore a 6 byte + * instruction) as well as an add for each offset. + * + * Putting an asm guard prevents it from folding (at the cost of losing + * the alignment hint), and uses the free offset in `v128.load` instead + * of adding secret_offset each time which overall reduces code size by + * about a kilobyte and improves performance. + */ + XXH_COMPILER_GUARD(xsecret); +#endif + /* Scalar lanes use the normal scalarRound routine */ + for (i = XXH3_NEON_LANES; i < XXH_ACC_NB; i++) { + XXH3_scalarRound(acc, input, secret, i); + } + i = 0; + /* 4 NEON lanes at a time. */ + for (; i+1 < XXH3_NEON_LANES / 2; i+=2) { /* data_vec = xinput[i]; */ - uint8x16_t data_vec = vld1q_u8(xinput + (i * 16)); + uint64x2_t data_vec_1 = XXH_vld1q_u64(xinput + (i * 16)); + uint64x2_t data_vec_2 = XXH_vld1q_u64(xinput + ((i+1) * 16)); /* key_vec = xsecret[i]; */ - uint8x16_t key_vec = vld1q_u8(xsecret + (i * 16)); - uint64x2_t data_key; - uint32x2_t data_key_lo, data_key_hi; - /* xacc[i] += swap(data_vec); */ - uint64x2_t const data64 = vreinterpretq_u64_u8(data_vec); - uint64x2_t const swapped = vextq_u64(data64, data64, 1); - xacc[i] = vaddq_u64 (xacc[i], swapped); + uint64x2_t key_vec_1 = XXH_vld1q_u64(xsecret + (i * 16)); + uint64x2_t key_vec_2 = XXH_vld1q_u64(xsecret + ((i+1) * 16)); + /* data_swap = swap(data_vec) */ + uint64x2_t data_swap_1 = vextq_u64(data_vec_1, data_vec_1, 1); + uint64x2_t data_swap_2 = vextq_u64(data_vec_2, data_vec_2, 1); /* data_key = data_vec ^ key_vec; */ - data_key = vreinterpretq_u64_u8(veorq_u8(data_vec, key_vec)); - /* data_key_lo = (uint32x2_t) (data_key & 0xFFFFFFFF); - * data_key_hi = (uint32x2_t) (data_key >> 32); - * data_key = UNDEFINED; */ - XXH_SPLIT_IN_PLACE(data_key, data_key_lo, data_key_hi); - /* xacc[i] += (uint64x2_t) data_key_lo * (uint64x2_t) data_key_hi; */ - xacc[i] = vmlal_u32 (xacc[i], data_key_lo, data_key_hi); + uint64x2_t data_key_1 = veorq_u64(data_vec_1, key_vec_1); + uint64x2_t data_key_2 = veorq_u64(data_vec_2, key_vec_2); + /* + * If we reinterpret the 64x2 vectors as 32x4 vectors, we can use a + * de-interleave operation for 4 lanes in 1 step with `vuzpq_u32` to + * get one vector with the low 32 bits of each lane, and one vector + * with the high 32 bits of each lane. + * + * The intrinsic returns a double vector because the original ARMv7-a + * instruction modified both arguments in place. AArch64 and SIMD128 emit + * two instructions from this intrinsic. + * + * [ dk11L | dk11H | dk12L | dk12H ] -> [ dk11L | dk12L | dk21L | dk22L ] + * [ dk21L | dk21H | dk22L | dk22H ] -> [ dk11H | dk12H | dk21H | dk22H ] + */ + uint32x4x2_t unzipped = vuzpq_u32( + vreinterpretq_u32_u64(data_key_1), + vreinterpretq_u32_u64(data_key_2) + ); + /* data_key_lo = data_key & 0xFFFFFFFF */ + uint32x4_t data_key_lo = unzipped.val[0]; + /* data_key_hi = data_key >> 32 */ + uint32x4_t data_key_hi = unzipped.val[1]; + /* + * Then, we can split the vectors horizontally and multiply which, as for most + * widening intrinsics, have a variant that works on both high half vectors + * for free on AArch64. A similar instruction is available on SIMD128. + * + * sum = data_swap + (u64x2) data_key_lo * (u64x2) data_key_hi + */ + uint64x2_t sum_1 = XXH_vmlal_low_u32(data_swap_1, data_key_lo, data_key_hi); + uint64x2_t sum_2 = XXH_vmlal_high_u32(data_swap_2, data_key_lo, data_key_hi); + /* + * Clang reorders + * a += b * c; // umlal swap.2d, dkl.2s, dkh.2s + * c += a; // add acc.2d, acc.2d, swap.2d + * to + * c += a; // add acc.2d, acc.2d, swap.2d + * c += b * c; // umlal acc.2d, dkl.2s, dkh.2s + * + * While it would make sense in theory since the addition is faster, + * for reasons likely related to umlal being limited to certain NEON + * pipelines, this is worse. A compiler guard fixes this. + */ + XXH_COMPILER_GUARD_CLANG_NEON(sum_1); + XXH_COMPILER_GUARD_CLANG_NEON(sum_2); + /* xacc[i] = acc_vec + sum; */ + xacc[i] = vaddq_u64(xacc[i], sum_1); + xacc[i+1] = vaddq_u64(xacc[i+1], sum_2); + } + /* Operate on the remaining NEON lanes 2 at a time. */ + for (; i < XXH3_NEON_LANES / 2; i++) { + /* data_vec = xinput[i]; */ + uint64x2_t data_vec = XXH_vld1q_u64(xinput + (i * 16)); + /* key_vec = xsecret[i]; */ + uint64x2_t key_vec = XXH_vld1q_u64(xsecret + (i * 16)); + /* acc_vec_2 = swap(data_vec) */ + uint64x2_t data_swap = vextq_u64(data_vec, data_vec, 1); + /* data_key = data_vec ^ key_vec; */ + uint64x2_t data_key = veorq_u64(data_vec, key_vec); + /* For two lanes, just use VMOVN and VSHRN. */ + /* data_key_lo = data_key & 0xFFFFFFFF; */ + uint32x2_t data_key_lo = vmovn_u64(data_key); + /* data_key_hi = data_key >> 32; */ + uint32x2_t data_key_hi = vshrn_n_u64(data_key, 32); + /* sum = data_swap + (u64x2) data_key_lo * (u64x2) data_key_hi; */ + uint64x2_t sum = vmlal_u32(data_swap, data_key_lo, data_key_hi); + /* Same Clang workaround as before */ + XXH_COMPILER_GUARD_CLANG_NEON(sum); + /* xacc[i] = acc_vec + sum; */ + xacc[i] = vaddq_u64 (xacc[i], sum); } } } +XXH_FORCE_INLINE XXH3_ACCUMULATE_TEMPLATE(neon) XXH_FORCE_INLINE void XXH3_scrambleAcc_neon(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) { XXH_ASSERT((((size_t)acc) & 15) == 0); - { uint64x2_t* xacc = (uint64x2_t*) acc; + { xxh_aliasing_uint64x2_t* xacc = (xxh_aliasing_uint64x2_t*) acc; uint8_t const* xsecret = (uint8_t const*) secret; - uint32x2_t prime = vdup_n_u32 (XXH_PRIME32_1); size_t i; - for (i=0; i < XXH_STRIPE_LEN/sizeof(uint64x2_t); i++) { + /* WASM uses operator overloads and doesn't need these. */ +#ifndef __wasm_simd128__ + /* { prime32_1, prime32_1 } */ + uint32x2_t const kPrimeLo = vdup_n_u32(XXH_PRIME32_1); + /* { 0, prime32_1, 0, prime32_1 } */ + uint32x4_t const kPrimeHi = vreinterpretq_u32_u64(vdupq_n_u64((xxh_u64)XXH_PRIME32_1 << 32)); +#endif + + /* AArch64 uses both scalar and neon at the same time */ + for (i = XXH3_NEON_LANES; i < XXH_ACC_NB; i++) { + XXH3_scalarScrambleRound(acc, secret, i); + } + for (i=0; i < XXH3_NEON_LANES / 2; i++) { /* xacc[i] ^= (xacc[i] >> 47); */ uint64x2_t acc_vec = xacc[i]; - uint64x2_t shifted = vshrq_n_u64 (acc_vec, 47); - uint64x2_t data_vec = veorq_u64 (acc_vec, shifted); + uint64x2_t shifted = vshrq_n_u64(acc_vec, 47); + uint64x2_t data_vec = veorq_u64(acc_vec, shifted); /* xacc[i] ^= xsecret[i]; */ - uint8x16_t key_vec = vld1q_u8 (xsecret + (i * 16)); - uint64x2_t data_key = veorq_u64 (data_vec, vreinterpretq_u64_u8(key_vec)); - + uint64x2_t key_vec = XXH_vld1q_u64(xsecret + (i * 16)); + uint64x2_t data_key = veorq_u64(data_vec, key_vec); /* xacc[i] *= XXH_PRIME32_1 */ - uint32x2_t data_key_lo, data_key_hi; - /* data_key_lo = (uint32x2_t) (xacc[i] & 0xFFFFFFFF); - * data_key_hi = (uint32x2_t) (xacc[i] >> 32); - * xacc[i] = UNDEFINED; */ - XXH_SPLIT_IN_PLACE(data_key, data_key_lo, data_key_hi); - { /* - * prod_hi = (data_key >> 32) * XXH_PRIME32_1; - * - * Avoid vmul_u32 + vshll_n_u32 since Clang 6 and 7 will - * incorrectly "optimize" this: - * tmp = vmul_u32(vmovn_u64(a), vmovn_u64(b)); - * shifted = vshll_n_u32(tmp, 32); - * to this: - * tmp = "vmulq_u64"(a, b); // no such thing! - * shifted = vshlq_n_u64(tmp, 32); - * - * However, unlike SSE, Clang lacks a 64-bit multiply routine - * for NEON, and it scalarizes two 64-bit multiplies instead. - * - * vmull_u32 has the same timing as vmul_u32, and it avoids - * this bug completely. - * See https://bugs.llvm.org/show_bug.cgi?id=39967 - */ - uint64x2_t prod_hi = vmull_u32 (data_key_hi, prime); - /* xacc[i] = prod_hi << 32; */ - xacc[i] = vshlq_n_u64(prod_hi, 32); - /* xacc[i] += (prod_hi & 0xFFFFFFFF) * XXH_PRIME32_1; */ - xacc[i] = vmlal_u32(xacc[i], data_key_lo, prime); - } - } } +#ifdef __wasm_simd128__ + /* SIMD128 has multiply by u64x2, use it instead of expanding and scalarizing */ + xacc[i] = data_key * XXH_PRIME32_1; +#else + /* + * Expanded version with portable NEON intrinsics + * + * lo(x) * lo(y) + (hi(x) * lo(y) << 32) + * + * prod_hi = hi(data_key) * lo(prime) << 32 + * + * Since we only need 32 bits of this multiply a trick can be used, reinterpreting the vector + * as a uint32x4_t and multiplying by { 0, prime, 0, prime } to cancel out the unwanted bits + * and avoid the shift. + */ + uint32x4_t prod_hi = vmulq_u32 (vreinterpretq_u32_u64(data_key), kPrimeHi); + /* Extract low bits for vmlal_u32 */ + uint32x2_t data_key_lo = vmovn_u64(data_key); + /* xacc[i] = prod_hi + lo(data_key) * XXH_PRIME32_1; */ + xacc[i] = vmlal_u32(vreinterpretq_u64_u32(prod_hi), data_key_lo, kPrimeLo); +#endif + } + } } - #endif #if (XXH_VECTOR == XXH_VSX) @@ -4159,23 +5110,23 @@ XXH3_accumulate_512_vsx( void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) { /* presumed aligned */ - unsigned int* const xacc = (unsigned int*) acc; - xxh_u64x2 const* const xinput = (xxh_u64x2 const*) input; /* no alignment restriction */ - xxh_u64x2 const* const xsecret = (xxh_u64x2 const*) secret; /* no alignment restriction */ + xxh_aliasing_u64x2* const xacc = (xxh_aliasing_u64x2*) acc; + xxh_u8 const* const xinput = (xxh_u8 const*) input; /* no alignment restriction */ + xxh_u8 const* const xsecret = (xxh_u8 const*) secret; /* no alignment restriction */ xxh_u64x2 const v32 = { 32, 32 }; size_t i; for (i = 0; i < XXH_STRIPE_LEN / sizeof(xxh_u64x2); i++) { /* data_vec = xinput[i]; */ - xxh_u64x2 const data_vec = XXH_vec_loadu(xinput + i); + xxh_u64x2 const data_vec = XXH_vec_loadu(xinput + 16*i); /* key_vec = xsecret[i]; */ - xxh_u64x2 const key_vec = XXH_vec_loadu(xsecret + i); + xxh_u64x2 const key_vec = XXH_vec_loadu(xsecret + 16*i); xxh_u64x2 const data_key = data_vec ^ key_vec; /* shuffled = (data_key << 32) | (data_key >> 32); */ xxh_u32x4 const shuffled = (xxh_u32x4)vec_rl(data_key, v32); /* product = ((xxh_u64x2)data_key & 0xFFFFFFFF) * ((xxh_u64x2)shuffled & 0xFFFFFFFF); */ xxh_u64x2 const product = XXH_vec_mulo((xxh_u32x4)data_key, shuffled); /* acc_vec = xacc[i]; */ - xxh_u64x2 acc_vec = (xxh_u64x2)vec_xl(0, xacc + 4 * i); + xxh_u64x2 acc_vec = xacc[i]; acc_vec += product; /* swap high and low halves */ @@ -4184,18 +5135,18 @@ XXH3_accumulate_512_vsx( void* XXH_RESTRICT acc, #else acc_vec += vec_xxpermdi(data_vec, data_vec, 2); #endif - /* xacc[i] = acc_vec; */ - vec_xst((xxh_u32x4)acc_vec, 0, xacc + 4 * i); + xacc[i] = acc_vec; } } +XXH_FORCE_INLINE XXH3_ACCUMULATE_TEMPLATE(vsx) XXH_FORCE_INLINE void XXH3_scrambleAcc_vsx(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) { XXH_ASSERT((((size_t)acc) & 15) == 0); - { xxh_u64x2* const xacc = (xxh_u64x2*) acc; - const xxh_u64x2* const xsecret = (const xxh_u64x2*) secret; + { xxh_aliasing_u64x2* const xacc = (xxh_aliasing_u64x2*) acc; + const xxh_u8* const xsecret = (const xxh_u8*) secret; /* constants */ xxh_u64x2 const v32 = { 32, 32 }; xxh_u64x2 const v47 = { 47, 47 }; @@ -4207,7 +5158,7 @@ XXH3_scrambleAcc_vsx(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) xxh_u64x2 const data_vec = acc_vec ^ (acc_vec >> v47); /* xacc[i] ^= xsecret[i]; */ - xxh_u64x2 const key_vec = XXH_vec_loadu(xsecret + i); + xxh_u64x2 const key_vec = XXH_vec_loadu(xsecret + 16*i); xxh_u64x2 const data_key = data_vec ^ key_vec; /* xacc[i] *= XXH_PRIME32_1 */ @@ -4221,40 +5172,233 @@ XXH3_scrambleAcc_vsx(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) #endif +#if (XXH_VECTOR == XXH_SVE) + +XXH_FORCE_INLINE void +XXH3_accumulate_512_sve( void* XXH_RESTRICT acc, + const void* XXH_RESTRICT input, + const void* XXH_RESTRICT secret) +{ + uint64_t *xacc = (uint64_t *)acc; + const uint64_t *xinput = (const uint64_t *)(const void *)input; + const uint64_t *xsecret = (const uint64_t *)(const void *)secret; + svuint64_t kSwap = sveor_n_u64_z(svptrue_b64(), svindex_u64(0, 1), 1); + uint64_t element_count = svcntd(); + if (element_count >= 8) { + svbool_t mask = svptrue_pat_b64(SV_VL8); + svuint64_t vacc = svld1_u64(mask, xacc); + ACCRND(vacc, 0); + svst1_u64(mask, xacc, vacc); + } else if (element_count == 2) { /* sve128 */ + svbool_t mask = svptrue_pat_b64(SV_VL2); + svuint64_t acc0 = svld1_u64(mask, xacc + 0); + svuint64_t acc1 = svld1_u64(mask, xacc + 2); + svuint64_t acc2 = svld1_u64(mask, xacc + 4); + svuint64_t acc3 = svld1_u64(mask, xacc + 6); + ACCRND(acc0, 0); + ACCRND(acc1, 2); + ACCRND(acc2, 4); + ACCRND(acc3, 6); + svst1_u64(mask, xacc + 0, acc0); + svst1_u64(mask, xacc + 2, acc1); + svst1_u64(mask, xacc + 4, acc2); + svst1_u64(mask, xacc + 6, acc3); + } else { + svbool_t mask = svptrue_pat_b64(SV_VL4); + svuint64_t acc0 = svld1_u64(mask, xacc + 0); + svuint64_t acc1 = svld1_u64(mask, xacc + 4); + ACCRND(acc0, 0); + ACCRND(acc1, 4); + svst1_u64(mask, xacc + 0, acc0); + svst1_u64(mask, xacc + 4, acc1); + } +} + +XXH_FORCE_INLINE void +XXH3_accumulate_sve(xxh_u64* XXH_RESTRICT acc, + const xxh_u8* XXH_RESTRICT input, + const xxh_u8* XXH_RESTRICT secret, + size_t nbStripes) +{ + if (nbStripes != 0) { + uint64_t *xacc = (uint64_t *)acc; + const uint64_t *xinput = (const uint64_t *)(const void *)input; + const uint64_t *xsecret = (const uint64_t *)(const void *)secret; + svuint64_t kSwap = sveor_n_u64_z(svptrue_b64(), svindex_u64(0, 1), 1); + uint64_t element_count = svcntd(); + if (element_count >= 8) { + svbool_t mask = svptrue_pat_b64(SV_VL8); + svuint64_t vacc = svld1_u64(mask, xacc + 0); + do { + /* svprfd(svbool_t, void *, enum svfprop); */ + svprfd(mask, xinput + 128, SV_PLDL1STRM); + ACCRND(vacc, 0); + xinput += 8; + xsecret += 1; + nbStripes--; + } while (nbStripes != 0); + + svst1_u64(mask, xacc + 0, vacc); + } else if (element_count == 2) { /* sve128 */ + svbool_t mask = svptrue_pat_b64(SV_VL2); + svuint64_t acc0 = svld1_u64(mask, xacc + 0); + svuint64_t acc1 = svld1_u64(mask, xacc + 2); + svuint64_t acc2 = svld1_u64(mask, xacc + 4); + svuint64_t acc3 = svld1_u64(mask, xacc + 6); + do { + svprfd(mask, xinput + 128, SV_PLDL1STRM); + ACCRND(acc0, 0); + ACCRND(acc1, 2); + ACCRND(acc2, 4); + ACCRND(acc3, 6); + xinput += 8; + xsecret += 1; + nbStripes--; + } while (nbStripes != 0); + + svst1_u64(mask, xacc + 0, acc0); + svst1_u64(mask, xacc + 2, acc1); + svst1_u64(mask, xacc + 4, acc2); + svst1_u64(mask, xacc + 6, acc3); + } else { + svbool_t mask = svptrue_pat_b64(SV_VL4); + svuint64_t acc0 = svld1_u64(mask, xacc + 0); + svuint64_t acc1 = svld1_u64(mask, xacc + 4); + do { + svprfd(mask, xinput + 128, SV_PLDL1STRM); + ACCRND(acc0, 0); + ACCRND(acc1, 4); + xinput += 8; + xsecret += 1; + nbStripes--; + } while (nbStripes != 0); + + svst1_u64(mask, xacc + 0, acc0); + svst1_u64(mask, xacc + 4, acc1); + } + } +} + +#endif + /* scalar variants - universal */ +#if defined(__aarch64__) && (defined(__GNUC__) || defined(__clang__)) +/* + * In XXH3_scalarRound(), GCC and Clang have a similar codegen issue, where they + * emit an excess mask and a full 64-bit multiply-add (MADD X-form). + * + * While this might not seem like much, as AArch64 is a 64-bit architecture, only + * big Cortex designs have a full 64-bit multiplier. + * + * On the little cores, the smaller 32-bit multiplier is used, and full 64-bit + * multiplies expand to 2-3 multiplies in microcode. This has a major penalty + * of up to 4 latency cycles and 2 stall cycles in the multiply pipeline. + * + * Thankfully, AArch64 still provides the 32-bit long multiply-add (UMADDL) which does + * not have this penalty and does the mask automatically. + */ +XXH_FORCE_INLINE xxh_u64 +XXH_mult32to64_add64(xxh_u64 lhs, xxh_u64 rhs, xxh_u64 acc) +{ + xxh_u64 ret; + /* note: %x = 64-bit register, %w = 32-bit register */ + __asm__("umaddl %x0, %w1, %w2, %x3" : "=r" (ret) : "r" (lhs), "r" (rhs), "r" (acc)); + return ret; +} +#else +XXH_FORCE_INLINE xxh_u64 +XXH_mult32to64_add64(xxh_u64 lhs, xxh_u64 rhs, xxh_u64 acc) +{ + return XXH_mult32to64((xxh_u32)lhs, (xxh_u32)rhs) + acc; +} +#endif + +/*! + * @internal + * @brief Scalar round for @ref XXH3_accumulate_512_scalar(). + * + * This is extracted to its own function because the NEON path uses a combination + * of NEON and scalar. + */ +XXH_FORCE_INLINE void +XXH3_scalarRound(void* XXH_RESTRICT acc, + void const* XXH_RESTRICT input, + void const* XXH_RESTRICT secret, + size_t lane) +{ + xxh_u64* xacc = (xxh_u64*) acc; + xxh_u8 const* xinput = (xxh_u8 const*) input; + xxh_u8 const* xsecret = (xxh_u8 const*) secret; + XXH_ASSERT(lane < XXH_ACC_NB); + XXH_ASSERT(((size_t)acc & (XXH_ACC_ALIGN-1)) == 0); + { + xxh_u64 const data_val = XXH_readLE64(xinput + lane * 8); + xxh_u64 const data_key = data_val ^ XXH_readLE64(xsecret + lane * 8); + xacc[lane ^ 1] += data_val; /* swap adjacent lanes */ + xacc[lane] = XXH_mult32to64_add64(data_key /* & 0xFFFFFFFF */, data_key >> 32, xacc[lane]); + } +} + +/*! + * @internal + * @brief Processes a 64 byte block of data using the scalar path. + */ XXH_FORCE_INLINE void XXH3_accumulate_512_scalar(void* XXH_RESTRICT acc, const void* XXH_RESTRICT input, const void* XXH_RESTRICT secret) { - xxh_u64* const xacc = (xxh_u64*) acc; /* presumed aligned */ - const xxh_u8* const xinput = (const xxh_u8*) input; /* no alignment restriction */ - const xxh_u8* const xsecret = (const xxh_u8*) secret; /* no alignment restriction */ size_t i; - XXH_ASSERT(((size_t)acc & (XXH_ACC_ALIGN-1)) == 0); + /* ARM GCC refuses to unroll this loop, resulting in a 24% slowdown on ARMv6. */ +#if defined(__GNUC__) && !defined(__clang__) \ + && (defined(__arm__) || defined(__thumb2__)) \ + && defined(__ARM_FEATURE_UNALIGNED) /* no unaligned access just wastes bytes */ \ + && XXH_SIZE_OPT <= 0 +# pragma GCC unroll 8 +#endif for (i=0; i < XXH_ACC_NB; i++) { - xxh_u64 const data_val = XXH_readLE64(xinput + 8*i); - xxh_u64 const data_key = data_val ^ XXH_readLE64(xsecret + i*8); - xacc[i ^ 1] += data_val; /* swap adjacent lanes */ - xacc[i] += XXH_mult32to64(data_key & 0xFFFFFFFF, data_key >> 32); + XXH3_scalarRound(acc, input, secret, i); } } +XXH_FORCE_INLINE XXH3_ACCUMULATE_TEMPLATE(scalar) +/*! + * @internal + * @brief Scalar scramble step for @ref XXH3_scrambleAcc_scalar(). + * + * This is extracted to its own function because the NEON path uses a combination + * of NEON and scalar. + */ XXH_FORCE_INLINE void -XXH3_scrambleAcc_scalar(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) +XXH3_scalarScrambleRound(void* XXH_RESTRICT acc, + void const* XXH_RESTRICT secret, + size_t lane) { xxh_u64* const xacc = (xxh_u64*) acc; /* presumed aligned */ const xxh_u8* const xsecret = (const xxh_u8*) secret; /* no alignment restriction */ - size_t i; XXH_ASSERT((((size_t)acc) & (XXH_ACC_ALIGN-1)) == 0); - for (i=0; i < XXH_ACC_NB; i++) { - xxh_u64 const key64 = XXH_readLE64(xsecret + 8*i); - xxh_u64 acc64 = xacc[i]; + XXH_ASSERT(lane < XXH_ACC_NB); + { + xxh_u64 const key64 = XXH_readLE64(xsecret + lane * 8); + xxh_u64 acc64 = xacc[lane]; acc64 = XXH_xorshift64(acc64, 47); acc64 ^= key64; acc64 *= XXH_PRIME32_1; - xacc[i] = acc64; + xacc[lane] = acc64; + } +} + +/*! + * @internal + * @brief Scrambles the accumulators after a large chunk has been read + */ +XXH_FORCE_INLINE void +XXH3_scrambleAcc_scalar(void* XXH_RESTRICT acc, const void* XXH_RESTRICT secret) +{ + size_t i; + for (i=0; i < XXH_ACC_NB; i++) { + XXH3_scalarScrambleRound(acc, secret, i); } } @@ -4269,15 +5413,16 @@ XXH3_initCustomSecret_scalar(void* XXH_RESTRICT customSecret, xxh_u64 seed64) const xxh_u8* kSecretPtr = XXH3_kSecret; XXH_STATIC_ASSERT((XXH_SECRET_DEFAULT_SIZE & 15) == 0); -#if defined(__clang__) && defined(__aarch64__) +#if defined(__GNUC__) && defined(__aarch64__) /* * UGLY HACK: - * Clang generates a bunch of MOV/MOVK pairs for aarch64, and they are + * GCC and Clang generate a bunch of MOV/MOVK pairs for aarch64, and they are * placed sequentially, in order, at the top of the unrolled loop. * * While MOVK is great for generating constants (2 cycles for a 64-bit - * constant compared to 4 cycles for LDR), long MOVK chains stall the - * integer pipelines: + * constant compared to 4 cycles for LDR), it fights for bandwidth with + * the arithmetic instructions. + * * I L S * MOVK * MOVK @@ -4286,7 +5431,7 @@ XXH3_initCustomSecret_scalar(void* XXH_RESTRICT customSecret, xxh_u64 seed64) * ADD * SUB STR * STR - * By forcing loads from memory (as the asm line causes Clang to assume + * By forcing loads from memory (as the asm line causes the compiler to assume * that XXH3_kSecretPtr has been changed), the pipelines are used more * efficiently: * I L S @@ -4294,23 +5439,20 @@ XXH3_initCustomSecret_scalar(void* XXH_RESTRICT customSecret, xxh_u64 seed64) * ADD LDR * SUB STR * STR + * + * See XXH3_NEON_LANES for details on the pipsline. + * * XXH3_64bits_withSeed, len == 256, Snapdragon 835 * without hack: 2654.4 MB/s * with hack: 3202.9 MB/s */ XXH_COMPILER_GUARD(kSecretPtr); #endif - /* - * Note: in debug mode, this overrides the asm optimization - * and Clang will emit MOVK chains again. - */ - XXH_ASSERT(kSecretPtr == XXH3_kSecret); - { int const nbRounds = XXH_SECRET_DEFAULT_SIZE / 16; int i; for (i=0; i < nbRounds; i++) { /* - * The asm hack causes Clang to assume that kSecretPtr aliases with + * The asm hack causes the compiler to assume that kSecretPtr aliases with * customSecret, and on aarch64, this prevented LDP from merging two * loads together for free. Putting the loads together before the stores * properly generates LDP. @@ -4323,7 +5465,7 @@ XXH3_initCustomSecret_scalar(void* XXH_RESTRICT customSecret, xxh_u64 seed64) } -typedef void (*XXH3_f_accumulate_512)(void* XXH_RESTRICT, const void*, const void*); +typedef void (*XXH3_f_accumulate)(xxh_u64* XXH_RESTRICT, const xxh_u8* XXH_RESTRICT, const xxh_u8* XXH_RESTRICT, size_t); typedef void (*XXH3_f_scrambleAcc)(void* XXH_RESTRICT, const void*); typedef void (*XXH3_f_initCustomSecret)(void* XXH_RESTRICT, xxh_u64); @@ -4331,82 +5473,63 @@ typedef void (*XXH3_f_initCustomSecret)(void* XXH_RESTRICT, xxh_u64); #if (XXH_VECTOR == XXH_AVX512) #define XXH3_accumulate_512 XXH3_accumulate_512_avx512 +#define XXH3_accumulate XXH3_accumulate_avx512 #define XXH3_scrambleAcc XXH3_scrambleAcc_avx512 #define XXH3_initCustomSecret XXH3_initCustomSecret_avx512 #elif (XXH_VECTOR == XXH_AVX2) #define XXH3_accumulate_512 XXH3_accumulate_512_avx2 +#define XXH3_accumulate XXH3_accumulate_avx2 #define XXH3_scrambleAcc XXH3_scrambleAcc_avx2 #define XXH3_initCustomSecret XXH3_initCustomSecret_avx2 #elif (XXH_VECTOR == XXH_SSE2) #define XXH3_accumulate_512 XXH3_accumulate_512_sse2 +#define XXH3_accumulate XXH3_accumulate_sse2 #define XXH3_scrambleAcc XXH3_scrambleAcc_sse2 #define XXH3_initCustomSecret XXH3_initCustomSecret_sse2 #elif (XXH_VECTOR == XXH_NEON) #define XXH3_accumulate_512 XXH3_accumulate_512_neon +#define XXH3_accumulate XXH3_accumulate_neon #define XXH3_scrambleAcc XXH3_scrambleAcc_neon #define XXH3_initCustomSecret XXH3_initCustomSecret_scalar #elif (XXH_VECTOR == XXH_VSX) #define XXH3_accumulate_512 XXH3_accumulate_512_vsx +#define XXH3_accumulate XXH3_accumulate_vsx #define XXH3_scrambleAcc XXH3_scrambleAcc_vsx #define XXH3_initCustomSecret XXH3_initCustomSecret_scalar +#elif (XXH_VECTOR == XXH_SVE) +#define XXH3_accumulate_512 XXH3_accumulate_512_sve +#define XXH3_accumulate XXH3_accumulate_sve +#define XXH3_scrambleAcc XXH3_scrambleAcc_scalar +#define XXH3_initCustomSecret XXH3_initCustomSecret_scalar + #else /* scalar */ #define XXH3_accumulate_512 XXH3_accumulate_512_scalar +#define XXH3_accumulate XXH3_accumulate_scalar #define XXH3_scrambleAcc XXH3_scrambleAcc_scalar #define XXH3_initCustomSecret XXH3_initCustomSecret_scalar #endif - - -#ifndef XXH_PREFETCH_DIST -# ifdef __clang__ -# define XXH_PREFETCH_DIST 320 -# else -# if (XXH_VECTOR == XXH_AVX512) -# define XXH_PREFETCH_DIST 512 -# else -# define XXH_PREFETCH_DIST 384 -# endif -# endif /* __clang__ */ -#endif /* XXH_PREFETCH_DIST */ - -/* - * XXH3_accumulate() - * Loops over XXH3_accumulate_512(). - * Assumption: nbStripes will not overflow the secret size - */ -XXH_FORCE_INLINE void -XXH3_accumulate( xxh_u64* XXH_RESTRICT acc, - const xxh_u8* XXH_RESTRICT input, - const xxh_u8* XXH_RESTRICT secret, - size_t nbStripes, - XXH3_f_accumulate_512 f_acc512) -{ - size_t n; - for (n = 0; n < nbStripes; n++ ) { - const xxh_u8* const in = input + n*XXH_STRIPE_LEN; - XXH_PREFETCH(in + XXH_PREFETCH_DIST); - f_acc512(acc, - in, - secret + n*XXH_SECRET_CONSUME_RATE); - } -} +#if XXH_SIZE_OPT >= 1 /* don't do SIMD for initialization */ +# undef XXH3_initCustomSecret +# define XXH3_initCustomSecret XXH3_initCustomSecret_scalar +#endif XXH_FORCE_INLINE void XXH3_hashLong_internal_loop(xxh_u64* XXH_RESTRICT acc, const xxh_u8* XXH_RESTRICT input, size_t len, const xxh_u8* XXH_RESTRICT secret, size_t secretSize, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble) { size_t const nbStripesPerBlock = (secretSize - XXH_STRIPE_LEN) / XXH_SECRET_CONSUME_RATE; @@ -4418,7 +5541,7 @@ XXH3_hashLong_internal_loop(xxh_u64* XXH_RESTRICT acc, XXH_ASSERT(secretSize >= XXH3_SECRET_SIZE_MIN); for (n = 0; n < nb_blocks; n++) { - XXH3_accumulate(acc, input + n*block_len, secret, nbStripesPerBlock, f_acc512); + f_acc(acc, input + n*block_len, secret, nbStripesPerBlock); f_scramble(acc, secret + secretSize - XXH_STRIPE_LEN); } @@ -4426,12 +5549,12 @@ XXH3_hashLong_internal_loop(xxh_u64* XXH_RESTRICT acc, XXH_ASSERT(len > XXH_STRIPE_LEN); { size_t const nbStripes = ((len - 1) - (block_len * nb_blocks)) / XXH_STRIPE_LEN; XXH_ASSERT(nbStripes <= (secretSize / XXH_SECRET_CONSUME_RATE)); - XXH3_accumulate(acc, input + nb_blocks*block_len, secret, nbStripes, f_acc512); + f_acc(acc, input + nb_blocks*block_len, secret, nbStripes); /* last stripe */ { const xxh_u8* const p = input + len - XXH_STRIPE_LEN; #define XXH_SECRET_LASTACC_START 7 /* not aligned on 8, last secret is different from acc & scrambler */ - f_acc512(acc, p, secret + secretSize - XXH_STRIPE_LEN - XXH_SECRET_LASTACC_START); + XXH3_accumulate_512(acc, p, secret + secretSize - XXH_STRIPE_LEN - XXH_SECRET_LASTACC_START); } } } @@ -4476,12 +5599,12 @@ XXH3_mergeAccs(const xxh_u64* XXH_RESTRICT acc, const xxh_u8* XXH_RESTRICT secre XXH_FORCE_INLINE XXH64_hash_t XXH3_hashLong_64b_internal(const void* XXH_RESTRICT input, size_t len, const void* XXH_RESTRICT secret, size_t secretSize, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble) { XXH_ALIGN(XXH_ACC_ALIGN) xxh_u64 acc[XXH_ACC_NB] = XXH3_INIT_ACC; - XXH3_hashLong_internal_loop(acc, (const xxh_u8*)input, len, (const xxh_u8*)secret, secretSize, f_acc512, f_scramble); + XXH3_hashLong_internal_loop(acc, (const xxh_u8*)input, len, (const xxh_u8*)secret, secretSize, f_acc, f_scramble); /* converge into final hash */ XXH_STATIC_ASSERT(sizeof(acc) == 64); @@ -4495,13 +5618,15 @@ XXH3_hashLong_64b_internal(const void* XXH_RESTRICT input, size_t len, * It's important for performance to transmit secret's size (when it's static) * so that the compiler can properly optimize the vectorized loop. * This makes a big performance difference for "medium" keys (<1 KB) when using AVX instruction set. + * When the secret size is unknown, or on GCC 12 where the mix of NO_INLINE and FORCE_INLINE + * breaks -Og, this is XXH_NO_INLINE. */ XXH3_WITH_SECRET_INLINE XXH64_hash_t XXH3_hashLong_64b_withSecret(const void* XXH_RESTRICT input, size_t len, XXH64_hash_t seed64, const xxh_u8* XXH_RESTRICT secret, size_t secretLen) { (void)seed64; - return XXH3_hashLong_64b_internal(input, len, secret, secretLen, XXH3_accumulate_512, XXH3_scrambleAcc); + return XXH3_hashLong_64b_internal(input, len, secret, secretLen, XXH3_accumulate, XXH3_scrambleAcc); } /* @@ -4510,12 +5635,12 @@ XXH3_hashLong_64b_withSecret(const void* XXH_RESTRICT input, size_t len, * Note that inside this no_inline function, we do inline the internal loop, * and provide a statically defined secret size to allow optimization of vector loop. */ -XXH_NO_INLINE XXH64_hash_t +XXH_NO_INLINE XXH_PUREF XXH64_hash_t XXH3_hashLong_64b_default(const void* XXH_RESTRICT input, size_t len, XXH64_hash_t seed64, const xxh_u8* XXH_RESTRICT secret, size_t secretLen) { (void)seed64; (void)secret; (void)secretLen; - return XXH3_hashLong_64b_internal(input, len, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_accumulate_512, XXH3_scrambleAcc); + return XXH3_hashLong_64b_internal(input, len, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_accumulate, XXH3_scrambleAcc); } /* @@ -4532,18 +5657,20 @@ XXH3_hashLong_64b_default(const void* XXH_RESTRICT input, size_t len, XXH_FORCE_INLINE XXH64_hash_t XXH3_hashLong_64b_withSeed_internal(const void* input, size_t len, XXH64_hash_t seed, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble, XXH3_f_initCustomSecret f_initSec) { +#if XXH_SIZE_OPT <= 0 if (seed == 0) return XXH3_hashLong_64b_internal(input, len, XXH3_kSecret, sizeof(XXH3_kSecret), - f_acc512, f_scramble); + f_acc, f_scramble); +#endif { XXH_ALIGN(XXH_SEC_ALIGN) xxh_u8 secret[XXH_SECRET_DEFAULT_SIZE]; f_initSec(secret, seed); return XXH3_hashLong_64b_internal(input, len, secret, sizeof(secret), - f_acc512, f_scramble); + f_acc, f_scramble); } } @@ -4551,12 +5678,12 @@ XXH3_hashLong_64b_withSeed_internal(const void* input, size_t len, * It's important for performance that XXH3_hashLong is not inlined. */ XXH_NO_INLINE XXH64_hash_t -XXH3_hashLong_64b_withSeed(const void* input, size_t len, - XXH64_hash_t seed, const xxh_u8* secret, size_t secretLen) +XXH3_hashLong_64b_withSeed(const void* XXH_RESTRICT input, size_t len, + XXH64_hash_t seed, const xxh_u8* XXH_RESTRICT secret, size_t secretLen) { (void)secret; (void)secretLen; return XXH3_hashLong_64b_withSeed_internal(input, len, seed, - XXH3_accumulate_512, XXH3_scrambleAcc, XXH3_initCustomSecret); + XXH3_accumulate, XXH3_scrambleAcc, XXH3_initCustomSecret); } @@ -4588,37 +5715,37 @@ XXH3_64bits_internal(const void* XXH_RESTRICT input, size_t len, /* === Public entry point === */ -/*! @ingroup xxh3_family */ -XXH_PUBLIC_API XXH64_hash_t XXH3_64bits(const void* input, size_t len) +/*! @ingroup XXH3_family */ +XXH_PUBLIC_API XXH64_hash_t XXH3_64bits(XXH_NOESCAPE const void* input, size_t length) { - return XXH3_64bits_internal(input, len, 0, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_hashLong_64b_default); + return XXH3_64bits_internal(input, length, 0, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_hashLong_64b_default); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH64_hash_t -XXH3_64bits_withSecret(const void* input, size_t len, const void* secret, size_t secretSize) +XXH3_64bits_withSecret(XXH_NOESCAPE const void* input, size_t length, XXH_NOESCAPE const void* secret, size_t secretSize) { - return XXH3_64bits_internal(input, len, 0, secret, secretSize, XXH3_hashLong_64b_withSecret); + return XXH3_64bits_internal(input, length, 0, secret, secretSize, XXH3_hashLong_64b_withSecret); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH64_hash_t -XXH3_64bits_withSeed(const void* input, size_t len, XXH64_hash_t seed) +XXH3_64bits_withSeed(XXH_NOESCAPE const void* input, size_t length, XXH64_hash_t seed) { - return XXH3_64bits_internal(input, len, seed, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_hashLong_64b_withSeed); + return XXH3_64bits_internal(input, length, seed, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_hashLong_64b_withSeed); } XXH_PUBLIC_API XXH64_hash_t -XXH3_64bits_withSecretandSeed(const void* input, size_t len, const void* secret, size_t secretSize, XXH64_hash_t seed) +XXH3_64bits_withSecretandSeed(XXH_NOESCAPE const void* input, size_t length, XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed) { - if (len <= XXH3_MIDSIZE_MAX) - return XXH3_64bits_internal(input, len, seed, XXH3_kSecret, sizeof(XXH3_kSecret), NULL); - return XXH3_hashLong_64b_withSecret(input, len, seed, (const xxh_u8*)secret, secretSize); + if (length <= XXH3_MIDSIZE_MAX) + return XXH3_64bits_internal(input, length, seed, XXH3_kSecret, sizeof(XXH3_kSecret), NULL); + return XXH3_hashLong_64b_withSecret(input, length, seed, (const xxh_u8*)secret, secretSize); } /* === XXH3 streaming === */ - +#ifndef XXH_NO_STREAM /* * Malloc's a pointer that is always aligned to align. * @@ -4642,7 +5769,7 @@ XXH3_64bits_withSecretandSeed(const void* input, size_t len, const void* secret, * * Align must be a power of 2 and 8 <= align <= 128. */ -static void* XXH_alignedMalloc(size_t s, size_t align) +static XXH_MALLOCF void* XXH_alignedMalloc(size_t s, size_t align) { XXH_ASSERT(align <= 128 && align >= 8); /* range check */ XXH_ASSERT((align & (align-1)) == 0); /* power of 2 */ @@ -4684,7 +5811,13 @@ static void XXH_alignedFree(void* p) XXH_free(base); } } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ +/*! + * @brief Allocate an @ref XXH3_state_t. + * + * Must be freed with XXH3_freeState(). + * @return An allocated XXH3_state_t on success, `NULL` on failure. + */ XXH_PUBLIC_API XXH3_state_t* XXH3_createState(void) { XXH3_state_t* const state = (XXH3_state_t*)XXH_alignedMalloc(sizeof(XXH3_state_t), 64); @@ -4693,16 +5826,23 @@ XXH_PUBLIC_API XXH3_state_t* XXH3_createState(void) return state; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ +/*! + * @brief Frees an @ref XXH3_state_t. + * + * Must be allocated with XXH3_createState(). + * @param statePtr A pointer to an @ref XXH3_state_t allocated with @ref XXH3_createState(). + * @return XXH_OK. + */ XXH_PUBLIC_API XXH_errorcode XXH3_freeState(XXH3_state_t* statePtr) { XXH_alignedFree(statePtr); return XXH_OK; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API void -XXH3_copyState(XXH3_state_t* dst_state, const XXH3_state_t* src_state) +XXH3_copyState(XXH_NOESCAPE XXH3_state_t* dst_state, XXH_NOESCAPE const XXH3_state_t* src_state) { XXH_memcpy(dst_state, src_state, sizeof(*dst_state)); } @@ -4734,18 +5874,18 @@ XXH3_reset_internal(XXH3_state_t* statePtr, statePtr->nbStripesPerBlock = statePtr->secretLimit / XXH_SECRET_CONSUME_RATE; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_64bits_reset(XXH3_state_t* statePtr) +XXH3_64bits_reset(XXH_NOESCAPE XXH3_state_t* statePtr) { if (statePtr == NULL) return XXH_ERROR; XXH3_reset_internal(statePtr, 0, XXH3_kSecret, XXH_SECRET_DEFAULT_SIZE); return XXH_OK; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_64bits_reset_withSecret(XXH3_state_t* statePtr, const void* secret, size_t secretSize) +XXH3_64bits_reset_withSecret(XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* secret, size_t secretSize) { if (statePtr == NULL) return XXH_ERROR; XXH3_reset_internal(statePtr, 0, secret, secretSize); @@ -4754,9 +5894,9 @@ XXH3_64bits_reset_withSecret(XXH3_state_t* statePtr, const void* secret, size_t return XXH_OK; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_64bits_reset_withSeed(XXH3_state_t* statePtr, XXH64_hash_t seed) +XXH3_64bits_reset_withSeed(XXH_NOESCAPE XXH3_state_t* statePtr, XXH64_hash_t seed) { if (statePtr == NULL) return XXH_ERROR; if (seed==0) return XXH3_64bits_reset(statePtr); @@ -4766,9 +5906,9 @@ XXH3_64bits_reset_withSeed(XXH3_state_t* statePtr, XXH64_hash_t seed) return XXH_OK; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_64bits_reset_withSecretandSeed(XXH3_state_t* statePtr, const void* secret, size_t secretSize, XXH64_hash_t seed64) +XXH3_64bits_reset_withSecretandSeed(XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed64) { if (statePtr == NULL) return XXH_ERROR; if (secret == NULL) return XXH_ERROR; @@ -4778,35 +5918,61 @@ XXH3_64bits_reset_withSecretandSeed(XXH3_state_t* statePtr, const void* secret, return XXH_OK; } -/* Note : when XXH3_consumeStripes() is invoked, - * there must be a guarantee that at least one more byte must be consumed from input - * so that the function can blindly consume all stripes using the "normal" secret segment */ -XXH_FORCE_INLINE void +/*! + * @internal + * @brief Processes a large input for XXH3_update() and XXH3_digest_long(). + * + * Unlike XXH3_hashLong_internal_loop(), this can process data that overlaps a block. + * + * @param acc Pointer to the 8 accumulator lanes + * @param nbStripesSoFarPtr In/out pointer to the number of leftover stripes in the block* + * @param nbStripesPerBlock Number of stripes in a block + * @param input Input pointer + * @param nbStripes Number of stripes to process + * @param secret Secret pointer + * @param secretLimit Offset of the last block in @p secret + * @param f_acc Pointer to an XXH3_accumulate implementation + * @param f_scramble Pointer to an XXH3_scrambleAcc implementation + * @return Pointer past the end of @p input after processing + */ +XXH_FORCE_INLINE const xxh_u8 * XXH3_consumeStripes(xxh_u64* XXH_RESTRICT acc, size_t* XXH_RESTRICT nbStripesSoFarPtr, size_t nbStripesPerBlock, const xxh_u8* XXH_RESTRICT input, size_t nbStripes, const xxh_u8* XXH_RESTRICT secret, size_t secretLimit, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble) { - XXH_ASSERT(nbStripes <= nbStripesPerBlock); /* can handle max 1 scramble per invocation */ - XXH_ASSERT(*nbStripesSoFarPtr < nbStripesPerBlock); - if (nbStripesPerBlock - *nbStripesSoFarPtr <= nbStripes) { - /* need a scrambling operation */ - size_t const nbStripesToEndofBlock = nbStripesPerBlock - *nbStripesSoFarPtr; - size_t const nbStripesAfterBlock = nbStripes - nbStripesToEndofBlock; - XXH3_accumulate(acc, input, secret + nbStripesSoFarPtr[0] * XXH_SECRET_CONSUME_RATE, nbStripesToEndofBlock, f_acc512); - f_scramble(acc, secret + secretLimit); - XXH3_accumulate(acc, input + nbStripesToEndofBlock * XXH_STRIPE_LEN, secret, nbStripesAfterBlock, f_acc512); - *nbStripesSoFarPtr = nbStripesAfterBlock; - } else { - XXH3_accumulate(acc, input, secret + nbStripesSoFarPtr[0] * XXH_SECRET_CONSUME_RATE, nbStripes, f_acc512); + const xxh_u8* initialSecret = secret + *nbStripesSoFarPtr * XXH_SECRET_CONSUME_RATE; + /* Process full blocks */ + if (nbStripes >= (nbStripesPerBlock - *nbStripesSoFarPtr)) { + /* Process the initial partial block... */ + size_t nbStripesThisIter = nbStripesPerBlock - *nbStripesSoFarPtr; + + do { + /* Accumulate and scramble */ + f_acc(acc, input, initialSecret, nbStripesThisIter); + f_scramble(acc, secret + secretLimit); + input += nbStripesThisIter * XXH_STRIPE_LEN; + nbStripes -= nbStripesThisIter; + /* Then continue the loop with the full block size */ + nbStripesThisIter = nbStripesPerBlock; + initialSecret = secret; + } while (nbStripes >= nbStripesPerBlock); + *nbStripesSoFarPtr = 0; + } + /* Process a partial block */ + if (nbStripes > 0) { + f_acc(acc, input, initialSecret, nbStripes); + input += nbStripes * XXH_STRIPE_LEN; *nbStripesSoFarPtr += nbStripes; } + /* Return end pointer */ + return input; } #ifndef XXH3_STREAM_USE_STACK -# ifndef __clang__ /* clang doesn't need additional stack space */ +# if XXH_SIZE_OPT <= 0 && !defined(__clang__) /* clang doesn't need additional stack space */ # define XXH3_STREAM_USE_STACK 1 # endif #endif @@ -4816,7 +5982,7 @@ XXH3_consumeStripes(xxh_u64* XXH_RESTRICT acc, XXH_FORCE_INLINE XXH_errorcode XXH3_update(XXH3_state_t* XXH_RESTRICT const state, const xxh_u8* XXH_RESTRICT input, size_t len, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble) { if (input==NULL) { @@ -4832,7 +5998,8 @@ XXH3_update(XXH3_state_t* XXH_RESTRICT const state, * when operating accumulators directly into state. * Operating into stack space seems to enable proper optimization. * clang, on the other hand, doesn't seem to need this trick */ - XXH_ALIGN(XXH_ACC_ALIGN) xxh_u64 acc[8]; memcpy(acc, state->acc, sizeof(acc)); + XXH_ALIGN(XXH_ACC_ALIGN) xxh_u64 acc[8]; + XXH_memcpy(acc, state->acc, sizeof(acc)); #else xxh_u64* XXH_RESTRICT const acc = state->acc; #endif @@ -4840,7 +6007,7 @@ XXH3_update(XXH3_state_t* XXH_RESTRICT const state, XXH_ASSERT(state->bufferedSize <= XXH3_INTERNALBUFFER_SIZE); /* small input : just fill in tmp buffer */ - if (state->bufferedSize + len <= XXH3_INTERNALBUFFER_SIZE) { + if (len <= XXH3_INTERNALBUFFER_SIZE - state->bufferedSize) { XXH_memcpy(state->buffer + state->bufferedSize, input, len); state->bufferedSize += (XXH32_hash_t)len; return XXH_OK; @@ -4862,57 +6029,20 @@ XXH3_update(XXH3_state_t* XXH_RESTRICT const state, &state->nbStripesSoFar, state->nbStripesPerBlock, state->buffer, XXH3_INTERNALBUFFER_STRIPES, secret, state->secretLimit, - f_acc512, f_scramble); + f_acc, f_scramble); state->bufferedSize = 0; } XXH_ASSERT(input < bEnd); - - /* large input to consume : ingest per full block */ - if ((size_t)(bEnd - input) > state->nbStripesPerBlock * XXH_STRIPE_LEN) { + if (bEnd - input > XXH3_INTERNALBUFFER_SIZE) { size_t nbStripes = (size_t)(bEnd - 1 - input) / XXH_STRIPE_LEN; - XXH_ASSERT(state->nbStripesPerBlock >= state->nbStripesSoFar); - /* join to current block's end */ - { size_t const nbStripesToEnd = state->nbStripesPerBlock - state->nbStripesSoFar; - XXH_ASSERT(nbStripes <= nbStripes); - XXH3_accumulate(acc, input, secret + state->nbStripesSoFar * XXH_SECRET_CONSUME_RATE, nbStripesToEnd, f_acc512); - f_scramble(acc, secret + state->secretLimit); - state->nbStripesSoFar = 0; - input += nbStripesToEnd * XXH_STRIPE_LEN; - nbStripes -= nbStripesToEnd; - } - /* consume per entire blocks */ - while(nbStripes >= state->nbStripesPerBlock) { - XXH3_accumulate(acc, input, secret, state->nbStripesPerBlock, f_acc512); - f_scramble(acc, secret + state->secretLimit); - input += state->nbStripesPerBlock * XXH_STRIPE_LEN; - nbStripes -= state->nbStripesPerBlock; - } - /* consume last partial block */ - XXH3_accumulate(acc, input, secret, nbStripes, f_acc512); - input += nbStripes * XXH_STRIPE_LEN; - XXH_ASSERT(input < bEnd); /* at least some bytes left */ - state->nbStripesSoFar = nbStripes; - /* buffer predecessor of last partial stripe */ - XXH_memcpy(state->buffer + sizeof(state->buffer) - XXH_STRIPE_LEN, input - XXH_STRIPE_LEN, XXH_STRIPE_LEN); - XXH_ASSERT(bEnd - input <= XXH_STRIPE_LEN); - } else { - /* content to consume <= block size */ - /* Consume input by a multiple of internal buffer size */ - if (bEnd - input > XXH3_INTERNALBUFFER_SIZE) { - const xxh_u8* const limit = bEnd - XXH3_INTERNALBUFFER_SIZE; - do { - XXH3_consumeStripes(acc, + input = XXH3_consumeStripes(acc, &state->nbStripesSoFar, state->nbStripesPerBlock, - input, XXH3_INTERNALBUFFER_STRIPES, - secret, state->secretLimit, - f_acc512, f_scramble); - input += XXH3_INTERNALBUFFER_SIZE; - } while (inputbuffer + sizeof(state->buffer) - XXH_STRIPE_LEN, input - XXH_STRIPE_LEN, XXH_STRIPE_LEN); - } - } + input, nbStripes, + secret, state->secretLimit, + f_acc, f_scramble); + XXH_memcpy(state->buffer + sizeof(state->buffer) - XXH_STRIPE_LEN, input - XXH_STRIPE_LEN, XXH_STRIPE_LEN); + } /* Some remaining input (always) : buffer it */ XXH_ASSERT(input < bEnd); XXH_ASSERT(bEnd - input <= XXH3_INTERNALBUFFER_SIZE); @@ -4921,19 +6051,19 @@ XXH3_update(XXH3_state_t* XXH_RESTRICT const state, state->bufferedSize = (XXH32_hash_t)(bEnd-input); #if defined(XXH3_STREAM_USE_STACK) && XXH3_STREAM_USE_STACK >= 1 /* save stack accumulators into state */ - memcpy(state->acc, acc, sizeof(acc)); + XXH_memcpy(state->acc, acc, sizeof(acc)); #endif } return XXH_OK; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_64bits_update(XXH3_state_t* state, const void* input, size_t len) +XXH3_64bits_update(XXH_NOESCAPE XXH3_state_t* state, XXH_NOESCAPE const void* input, size_t len) { return XXH3_update(state, (const xxh_u8*)input, len, - XXH3_accumulate_512, XXH3_scrambleAcc); + XXH3_accumulate, XXH3_scrambleAcc); } @@ -4942,37 +6072,40 @@ XXH3_digest_long (XXH64_hash_t* acc, const XXH3_state_t* state, const unsigned char* secret) { + xxh_u8 lastStripe[XXH_STRIPE_LEN]; + const xxh_u8* lastStripePtr; + /* * Digest on a local copy. This way, the state remains unaltered, and it can * continue ingesting more input afterwards. */ XXH_memcpy(acc, state->acc, sizeof(state->acc)); if (state->bufferedSize >= XXH_STRIPE_LEN) { + /* Consume remaining stripes then point to remaining data in buffer */ size_t const nbStripes = (state->bufferedSize - 1) / XXH_STRIPE_LEN; size_t nbStripesSoFar = state->nbStripesSoFar; XXH3_consumeStripes(acc, &nbStripesSoFar, state->nbStripesPerBlock, state->buffer, nbStripes, secret, state->secretLimit, - XXH3_accumulate_512, XXH3_scrambleAcc); - /* last stripe */ - XXH3_accumulate_512(acc, - state->buffer + state->bufferedSize - XXH_STRIPE_LEN, - secret + state->secretLimit - XXH_SECRET_LASTACC_START); + XXH3_accumulate, XXH3_scrambleAcc); + lastStripePtr = state->buffer + state->bufferedSize - XXH_STRIPE_LEN; } else { /* bufferedSize < XXH_STRIPE_LEN */ - xxh_u8 lastStripe[XXH_STRIPE_LEN]; + /* Copy to temp buffer */ size_t const catchupSize = XXH_STRIPE_LEN - state->bufferedSize; XXH_ASSERT(state->bufferedSize > 0); /* there is always some input buffered */ XXH_memcpy(lastStripe, state->buffer + sizeof(state->buffer) - catchupSize, catchupSize); XXH_memcpy(lastStripe + catchupSize, state->buffer, state->bufferedSize); - XXH3_accumulate_512(acc, - lastStripe, - secret + state->secretLimit - XXH_SECRET_LASTACC_START); + lastStripePtr = lastStripe; } + /* Last stripe */ + XXH3_accumulate_512(acc, + lastStripePtr, + secret + state->secretLimit - XXH_SECRET_LASTACC_START); } -/*! @ingroup xxh3_family */ -XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_digest (const XXH3_state_t* state) +/*! @ingroup XXH3_family */ +XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_digest (XXH_NOESCAPE const XXH3_state_t* state) { const unsigned char* const secret = (state->extSecret == NULL) ? state->customSecret : state->extSecret; if (state->totalLen > XXH3_MIDSIZE_MAX) { @@ -4988,7 +6121,7 @@ XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_digest (const XXH3_state_t* state) return XXH3_64bits_withSecret(state->buffer, (size_t)(state->totalLen), secret, state->secretLimit + XXH_STRIPE_LEN); } - +#endif /* !XXH_NO_STREAM */ /* ========================================== @@ -5008,7 +6141,7 @@ XXH_PUBLIC_API XXH64_hash_t XXH3_64bits_digest (const XXH3_state_t* state) * fast for a _128-bit_ hash on 32-bit (it usually clears XXH64). */ -XXH_FORCE_INLINE XXH128_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH128_hash_t XXH3_len_1to3_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { /* A doubled version of 1to3_64b with different constants. */ @@ -5037,7 +6170,7 @@ XXH3_len_1to3_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_ } } -XXH_FORCE_INLINE XXH128_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH128_hash_t XXH3_len_4to8_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(input != NULL); @@ -5057,14 +6190,14 @@ XXH3_len_4to8_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_ m128.low64 ^= (m128.high64 >> 3); m128.low64 = XXH_xorshift64(m128.low64, 35); - m128.low64 *= 0x9FB21C651E98DF25ULL; + m128.low64 *= PRIME_MX2; m128.low64 = XXH_xorshift64(m128.low64, 28); m128.high64 = XXH3_avalanche(m128.high64); return m128; } } -XXH_FORCE_INLINE XXH128_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH128_hash_t XXH3_len_9to16_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(input != NULL); @@ -5139,7 +6272,7 @@ XXH3_len_9to16_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64 /* * Assumption: `secret` size is >= XXH3_SECRET_SIZE_MIN */ -XXH_FORCE_INLINE XXH128_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH128_hash_t XXH3_len_0to16_128b(const xxh_u8* input, size_t len, const xxh_u8* secret, XXH64_hash_t seed) { XXH_ASSERT(len <= 16); @@ -5170,7 +6303,7 @@ XXH128_mix32B(XXH128_hash_t acc, const xxh_u8* input_1, const xxh_u8* input_2, } -XXH_FORCE_INLINE XXH128_hash_t +XXH_FORCE_INLINE XXH_PUREF XXH128_hash_t XXH3_len_17to128_128b(const xxh_u8* XXH_RESTRICT input, size_t len, const xxh_u8* XXH_RESTRICT secret, size_t secretSize, XXH64_hash_t seed) @@ -5181,6 +6314,16 @@ XXH3_len_17to128_128b(const xxh_u8* XXH_RESTRICT input, size_t len, { XXH128_hash_t acc; acc.low64 = len * XXH_PRIME64_1; acc.high64 = 0; + +#if XXH_SIZE_OPT >= 1 + { + /* Smaller, but slightly slower. */ + unsigned int i = (unsigned int)(len - 1) / 32; + do { + acc = XXH128_mix32B(acc, input+16*i, input+len-16*(i+1), secret+32*i, seed); + } while (i-- != 0); + } +#else if (len > 32) { if (len > 64) { if (len > 96) { @@ -5191,6 +6334,7 @@ XXH3_len_17to128_128b(const xxh_u8* XXH_RESTRICT input, size_t len, acc = XXH128_mix32B(acc, input+16, input+len-32, secret+32, seed); } acc = XXH128_mix32B(acc, input, input+len-16, secret, seed); +#endif { XXH128_hash_t h128; h128.low64 = acc.low64 + acc.high64; h128.high64 = (acc.low64 * XXH_PRIME64_1) @@ -5203,7 +6347,7 @@ XXH3_len_17to128_128b(const xxh_u8* XXH_RESTRICT input, size_t len, } } -XXH_NO_INLINE XXH128_hash_t +XXH_NO_INLINE XXH_PUREF XXH128_hash_t XXH3_len_129to240_128b(const xxh_u8* XXH_RESTRICT input, size_t len, const xxh_u8* XXH_RESTRICT secret, size_t secretSize, XXH64_hash_t seed) @@ -5212,25 +6356,34 @@ XXH3_len_129to240_128b(const xxh_u8* XXH_RESTRICT input, size_t len, XXH_ASSERT(128 < len && len <= XXH3_MIDSIZE_MAX); { XXH128_hash_t acc; - int const nbRounds = (int)len / 32; - int i; + unsigned i; acc.low64 = len * XXH_PRIME64_1; acc.high64 = 0; - for (i=0; i<4; i++) { + /* + * We set as `i` as offset + 32. We do this so that unchanged + * `len` can be used as upper bound. This reaches a sweet spot + * where both x86 and aarch64 get simple agen and good codegen + * for the loop. + */ + for (i = 32; i < 160; i += 32) { acc = XXH128_mix32B(acc, - input + (32 * i), - input + (32 * i) + 16, - secret + (32 * i), + input + i - 32, + input + i - 16, + secret + i - 32, seed); } acc.low64 = XXH3_avalanche(acc.low64); acc.high64 = XXH3_avalanche(acc.high64); - XXH_ASSERT(nbRounds >= 4); - for (i=4 ; i < nbRounds; i++) { + /* + * NB: `i <= len` will duplicate the last 32-bytes if + * len % 32 was zero. This is an unfortunate necessity to keep + * the hash result stable. + */ + for (i=160; i <= len; i += 32) { acc = XXH128_mix32B(acc, - input + (32 * i), - input + (32 * i) + 16, - secret + XXH3_MIDSIZE_STARTOFFSET + (32 * (i - 4)), + input + i - 32, + input + i - 16, + secret + XXH3_MIDSIZE_STARTOFFSET + i - 160, seed); } /* last bytes */ @@ -5238,7 +6391,7 @@ XXH3_len_129to240_128b(const xxh_u8* XXH_RESTRICT input, size_t len, input + len - 16, input + len - 32, secret + XXH3_SECRET_SIZE_MIN - XXH3_MIDSIZE_LASTOFFSET - 16, - 0ULL - seed); + (XXH64_hash_t)0 - seed); { XXH128_hash_t h128; h128.low64 = acc.low64 + acc.high64; @@ -5255,12 +6408,12 @@ XXH3_len_129to240_128b(const xxh_u8* XXH_RESTRICT input, size_t len, XXH_FORCE_INLINE XXH128_hash_t XXH3_hashLong_128b_internal(const void* XXH_RESTRICT input, size_t len, const xxh_u8* XXH_RESTRICT secret, size_t secretSize, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble) { XXH_ALIGN(XXH_ACC_ALIGN) xxh_u64 acc[XXH_ACC_NB] = XXH3_INIT_ACC; - XXH3_hashLong_internal_loop(acc, (const xxh_u8*)input, len, secret, secretSize, f_acc512, f_scramble); + XXH3_hashLong_internal_loop(acc, (const xxh_u8*)input, len, secret, secretSize, f_acc, f_scramble); /* converge into final hash */ XXH_STATIC_ASSERT(sizeof(acc) == 64); @@ -5278,21 +6431,24 @@ XXH3_hashLong_128b_internal(const void* XXH_RESTRICT input, size_t len, } /* - * It's important for performance that XXH3_hashLong is not inlined. + * It's important for performance that XXH3_hashLong() is not inlined. */ -XXH_NO_INLINE XXH128_hash_t +XXH_NO_INLINE XXH_PUREF XXH128_hash_t XXH3_hashLong_128b_default(const void* XXH_RESTRICT input, size_t len, XXH64_hash_t seed64, const void* XXH_RESTRICT secret, size_t secretLen) { (void)seed64; (void)secret; (void)secretLen; return XXH3_hashLong_128b_internal(input, len, XXH3_kSecret, sizeof(XXH3_kSecret), - XXH3_accumulate_512, XXH3_scrambleAcc); + XXH3_accumulate, XXH3_scrambleAcc); } /* - * It's important for performance to pass @secretLen (when it's static) + * It's important for performance to pass @p secretLen (when it's static) * to the compiler, so that it can properly optimize the vectorized loop. + * + * When the secret size is unknown, or on GCC 12 where the mix of NO_INLINE and FORCE_INLINE + * breaks -Og, this is XXH_NO_INLINE. */ XXH3_WITH_SECRET_INLINE XXH128_hash_t XXH3_hashLong_128b_withSecret(const void* XXH_RESTRICT input, size_t len, @@ -5301,24 +6457,24 @@ XXH3_hashLong_128b_withSecret(const void* XXH_RESTRICT input, size_t len, { (void)seed64; return XXH3_hashLong_128b_internal(input, len, (const xxh_u8*)secret, secretLen, - XXH3_accumulate_512, XXH3_scrambleAcc); + XXH3_accumulate, XXH3_scrambleAcc); } XXH_FORCE_INLINE XXH128_hash_t XXH3_hashLong_128b_withSeed_internal(const void* XXH_RESTRICT input, size_t len, XXH64_hash_t seed64, - XXH3_f_accumulate_512 f_acc512, + XXH3_f_accumulate f_acc, XXH3_f_scrambleAcc f_scramble, XXH3_f_initCustomSecret f_initSec) { if (seed64 == 0) return XXH3_hashLong_128b_internal(input, len, XXH3_kSecret, sizeof(XXH3_kSecret), - f_acc512, f_scramble); + f_acc, f_scramble); { XXH_ALIGN(XXH_SEC_ALIGN) xxh_u8 secret[XXH_SECRET_DEFAULT_SIZE]; f_initSec(secret, seed64); return XXH3_hashLong_128b_internal(input, len, (const xxh_u8*)secret, sizeof(secret), - f_acc512, f_scramble); + f_acc, f_scramble); } } @@ -5331,7 +6487,7 @@ XXH3_hashLong_128b_withSeed(const void* input, size_t len, { (void)secret; (void)secretLen; return XXH3_hashLong_128b_withSeed_internal(input, len, seed64, - XXH3_accumulate_512, XXH3_scrambleAcc, XXH3_initCustomSecret); + XXH3_accumulate, XXH3_scrambleAcc, XXH3_initCustomSecret); } typedef XXH128_hash_t (*XXH3_hashLong128_f)(const void* XXH_RESTRICT, size_t, @@ -5361,94 +6517,93 @@ XXH3_128bits_internal(const void* input, size_t len, /* === Public XXH128 API === */ -/*! @ingroup xxh3_family */ -XXH_PUBLIC_API XXH128_hash_t XXH3_128bits(const void* input, size_t len) +/*! @ingroup XXH3_family */ +XXH_PUBLIC_API XXH128_hash_t XXH3_128bits(XXH_NOESCAPE const void* input, size_t len) { return XXH3_128bits_internal(input, len, 0, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_hashLong_128b_default); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH128_hash_t -XXH3_128bits_withSecret(const void* input, size_t len, const void* secret, size_t secretSize) +XXH3_128bits_withSecret(XXH_NOESCAPE const void* input, size_t len, XXH_NOESCAPE const void* secret, size_t secretSize) { return XXH3_128bits_internal(input, len, 0, (const xxh_u8*)secret, secretSize, XXH3_hashLong_128b_withSecret); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH128_hash_t -XXH3_128bits_withSeed(const void* input, size_t len, XXH64_hash_t seed) +XXH3_128bits_withSeed(XXH_NOESCAPE const void* input, size_t len, XXH64_hash_t seed) { return XXH3_128bits_internal(input, len, seed, XXH3_kSecret, sizeof(XXH3_kSecret), XXH3_hashLong_128b_withSeed); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH128_hash_t -XXH3_128bits_withSecretandSeed(const void* input, size_t len, const void* secret, size_t secretSize, XXH64_hash_t seed) +XXH3_128bits_withSecretandSeed(XXH_NOESCAPE const void* input, size_t len, XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed) { if (len <= XXH3_MIDSIZE_MAX) return XXH3_128bits_internal(input, len, seed, XXH3_kSecret, sizeof(XXH3_kSecret), NULL); return XXH3_hashLong_128b_withSecret(input, len, seed, secret, secretSize); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH128_hash_t -XXH128(const void* input, size_t len, XXH64_hash_t seed) +XXH128(XXH_NOESCAPE const void* input, size_t len, XXH64_hash_t seed) { return XXH3_128bits_withSeed(input, len, seed); } /* === XXH3 128-bit streaming === */ - +#ifndef XXH_NO_STREAM /* * All initialization and update functions are identical to 64-bit streaming variant. * The only difference is the finalization routine. */ -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_128bits_reset(XXH3_state_t* statePtr) +XXH3_128bits_reset(XXH_NOESCAPE XXH3_state_t* statePtr) { return XXH3_64bits_reset(statePtr); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_128bits_reset_withSecret(XXH3_state_t* statePtr, const void* secret, size_t secretSize) +XXH3_128bits_reset_withSecret(XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* secret, size_t secretSize) { return XXH3_64bits_reset_withSecret(statePtr, secret, secretSize); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_128bits_reset_withSeed(XXH3_state_t* statePtr, XXH64_hash_t seed) +XXH3_128bits_reset_withSeed(XXH_NOESCAPE XXH3_state_t* statePtr, XXH64_hash_t seed) { return XXH3_64bits_reset_withSeed(statePtr, seed); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_128bits_reset_withSecretandSeed(XXH3_state_t* statePtr, const void* secret, size_t secretSize, XXH64_hash_t seed) +XXH3_128bits_reset_withSecretandSeed(XXH_NOESCAPE XXH3_state_t* statePtr, XXH_NOESCAPE const void* secret, size_t secretSize, XXH64_hash_t seed) { return XXH3_64bits_reset_withSecretandSeed(statePtr, secret, secretSize, seed); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_128bits_update(XXH3_state_t* state, const void* input, size_t len) +XXH3_128bits_update(XXH_NOESCAPE XXH3_state_t* state, XXH_NOESCAPE const void* input, size_t len) { - return XXH3_update(state, (const xxh_u8*)input, len, - XXH3_accumulate_512, XXH3_scrambleAcc); + return XXH3_64bits_update(state, input, len); } -/*! @ingroup xxh3_family */ -XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_digest (const XXH3_state_t* state) +/*! @ingroup XXH3_family */ +XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_digest (XXH_NOESCAPE const XXH3_state_t* state) { const unsigned char* const secret = (state->extSecret == NULL) ? state->customSecret : state->extSecret; if (state->totalLen > XXH3_MIDSIZE_MAX) { @@ -5472,13 +6627,13 @@ XXH_PUBLIC_API XXH128_hash_t XXH3_128bits_digest (const XXH3_state_t* state) return XXH3_128bits_withSecret(state->buffer, (size_t)(state->totalLen), secret, state->secretLimit + XXH_STRIPE_LEN); } - +#endif /* !XXH_NO_STREAM */ /* 128-bit utility functions */ #include /* memcmp, memcpy */ /* return : 1 is equal, 0 if different */ -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API int XXH128_isEqual(XXH128_hash_t h1, XXH128_hash_t h2) { /* note : XXH128_hash_t is compact, it has no padding byte */ @@ -5486,11 +6641,11 @@ XXH_PUBLIC_API int XXH128_isEqual(XXH128_hash_t h1, XXH128_hash_t h2) } /* This prototype is compatible with stdlib's qsort(). - * return : >0 if *h128_1 > *h128_2 - * <0 if *h128_1 < *h128_2 - * =0 if *h128_1 == *h128_2 */ -/*! @ingroup xxh3_family */ -XXH_PUBLIC_API int XXH128_cmp(const void* h128_1, const void* h128_2) + * @return : >0 if *h128_1 > *h128_2 + * <0 if *h128_1 < *h128_2 + * =0 if *h128_1 == *h128_2 */ +/*! @ingroup XXH3_family */ +XXH_PUBLIC_API int XXH128_cmp(XXH_NOESCAPE const void* h128_1, XXH_NOESCAPE const void* h128_2) { XXH128_hash_t const h1 = *(const XXH128_hash_t*)h128_1; XXH128_hash_t const h2 = *(const XXH128_hash_t*)h128_2; @@ -5502,9 +6657,9 @@ XXH_PUBLIC_API int XXH128_cmp(const void* h128_1, const void* h128_2) /*====== Canonical representation ======*/ -/*! @ingroup xxh3_family */ -static zend_always_inline void -XXH128_canonicalFromHash(XXH128_canonical_t* dst, XXH128_hash_t hash) +/*! @ingroup XXH3_family */ +XXH_PUBLIC_API void +XXH128_canonicalFromHash(XXH_NOESCAPE XXH128_canonical_t* dst, XXH128_hash_t hash) { XXH_STATIC_ASSERT(sizeof(XXH128_canonical_t) == sizeof(XXH128_hash_t)); if (XXH_CPU_LITTLE_ENDIAN) { @@ -5515,9 +6670,9 @@ XXH128_canonicalFromHash(XXH128_canonical_t* dst, XXH128_hash_t hash) XXH_memcpy((char*)dst + sizeof(hash.high64), &hash.low64, sizeof(hash.low64)); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH128_hash_t -XXH128_hashFromCanonical(const XXH128_canonical_t* src) +XXH128_hashFromCanonical(XXH_NOESCAPE const XXH128_canonical_t* src) { XXH128_hash_t h; h.high64 = XXH_readBE64(src); @@ -5533,26 +6688,34 @@ XXH128_hashFromCanonical(const XXH128_canonical_t* src) */ #define XXH_MIN(x, y) (((x) > (y)) ? (y) : (x)) -static void XXH3_combine16(void* dst, XXH128_hash_t h128) +XXH_FORCE_INLINE void XXH3_combine16(void* dst, XXH128_hash_t h128) { XXH_writeLE64( dst, XXH_readLE64(dst) ^ h128.low64 ); XXH_writeLE64( (char*)dst+8, XXH_readLE64((char*)dst+8) ^ h128.high64 ); } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API XXH_errorcode -XXH3_generateSecret(void* secretBuffer, size_t secretSize, const void* customSeed, size_t customSeedSize) +XXH3_generateSecret(XXH_NOESCAPE void* secretBuffer, size_t secretSize, XXH_NOESCAPE const void* customSeed, size_t customSeedSize) { +#if (XXH_DEBUGLEVEL >= 1) XXH_ASSERT(secretBuffer != NULL); - if (secretBuffer == NULL) return XXH_ERROR; XXH_ASSERT(secretSize >= XXH3_SECRET_SIZE_MIN); +#else + /* production mode, assert() are disabled */ + if (secretBuffer == NULL) return XXH_ERROR; if (secretSize < XXH3_SECRET_SIZE_MIN) return XXH_ERROR; +#endif + if (customSeedSize == 0) { customSeed = XXH3_kSecret; customSeedSize = XXH_SECRET_DEFAULT_SIZE; } +#if (XXH_DEBUGLEVEL >= 1) XXH_ASSERT(customSeed != NULL); +#else if (customSeed == NULL) return XXH_ERROR; +#endif /* Fill secretBuffer with a copy of customSeed - repeat as needed */ { size_t pos = 0; @@ -5576,9 +6739,9 @@ XXH3_generateSecret(void* secretBuffer, size_t secretSize, const void* customSee return XXH_OK; } -/*! @ingroup xxh3_family */ +/*! @ingroup XXH3_family */ XXH_PUBLIC_API void -XXH3_generateSecret_fromSeed(void* secretBuffer, XXH64_hash_t seed) +XXH3_generateSecret_fromSeed(XXH_NOESCAPE void* secretBuffer, XXH64_hash_t seed) { XXH_ALIGN(XXH_SEC_ALIGN) xxh_u8 secret[XXH_SECRET_DEFAULT_SIZE]; XXH3_initCustomSecret(secret, seed); @@ -5591,7 +6754,7 @@ XXH3_generateSecret_fromSeed(void* secretBuffer, XXH64_hash_t seed) /* Pop our optimization override from above */ #if XXH_VECTOR == XXH_AVX2 /* AVX2 */ \ && defined(__GNUC__) && !defined(__clang__) /* GCC, not Clang */ \ - && defined(__OPTIMIZE__) && !defined(__OPTIMIZE_SIZE__) /* respect -O0 and -Os */ + && defined(__OPTIMIZE__) && XXH_SIZE_OPT <= 0 /* respect -O0 and -Os */ # pragma GCC pop_options #endif @@ -5606,5 +6769,5 @@ XXH3_generateSecret_fromSeed(void* secretBuffer, XXH64_hash_t seed) #if defined (__cplusplus) -} +} /* extern "C" */ #endif