1 /*
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  3  * Copyright (c) 2014, 2020, Red Hat Inc. All rights reserved.
  4  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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  7  * under the terms of the GNU General Public License version 2 only, as
  8  * published by the Free Software Foundation.
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 10  * This code is distributed in the hope that it will be useful, but WITHOUT
 11  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 12  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 13  * version 2 for more details (a copy is included in the LICENSE file that
 14  * accompanied this code).
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 16  * You should have received a copy of the GNU General Public License version
 17  * 2 along with this work; if not, write to the Free Software Foundation,
 18  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 19  *
 20  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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 25 
 26 #ifndef CPU_AARCH64_VM_VERSION_AARCH64_HPP
 27 #define CPU_AARCH64_VM_VERSION_AARCH64_HPP
 28 
 29 #include "spin_wait_aarch64.hpp"
 30 #include "runtime/abstract_vm_version.hpp"
 31 #include "utilities/sizes.hpp"
 32 
 33 class VM_Version : public Abstract_VM_Version {
 34   friend class VMStructs;
 35   friend class JVMCIVMStructs;
 36 
 37 protected:
 38   static int _cpu;
 39   static int _model;
 40   static int _model2;
 41   static int _variant;
 42   static int _revision;
 43   static int _stepping;
 44 
 45   static int _zva_length;
 46   static int _dcache_line_size;
 47   static int _icache_line_size;
 48   static int _initial_sve_vector_length;
 49   static bool _rop_protection;
 50   static uintptr_t _pac_mask;
 51 
 52   static SpinWait _spin_wait;
 53 
 54   // Read additional info using OS-specific interfaces
 55   static void get_os_cpu_info();
 56 
 57   // Sets the SVE length and returns a new actual value or negative on error.
 58   // If the len is larger than the system largest supported SVE vector length,
 59   // the function sets the largest supported value.
 60   static int set_and_get_current_sve_vector_length(int len);
 61   static int get_current_sve_vector_length();
 62 
 63 public:
 64   // Initialization
 65   static void initialize();
 66   static void check_virtualizations();
 67 
 68   static void print_platform_virtualization_info(outputStream*);
 69 
 70   // Asserts
 71   static void assert_is_initialized() {
 72   }
 73 
 74   static bool expensive_load(int ld_size, int scale) {
 75     if (cpu_family() == CPU_ARM) {
 76       // Half-word load with index shift by 1 (aka scale is 2) has
 77       // extra cycle latency, e.g. ldrsh w0, [x1,w2,sxtw #1].
 78       if (ld_size == 2 && scale == 2) {
 79         return true;
 80       }
 81     }
 82     return false;
 83   }
 84 
 85   // The CPU implementer codes can be found in
 86   // ARM Architecture Reference Manual ARMv8, for ARMv8-A architecture profile
 87   // https://developer.arm.com/docs/ddi0487/latest
 88   // Arm can assign codes that are not published in the manual.
 89   // Apple's code is defined in
 90   // https://github.com/apple/darwin-xnu/blob/33eb983/osfmk/arm/cpuid.h#L62
 91   enum Family {
 92     CPU_AMPERE    = 0xC0,
 93     CPU_ARM       = 'A',
 94     CPU_BROADCOM  = 'B',
 95     CPU_CAVIUM    = 'C',
 96     CPU_DEC       = 'D',
 97     CPU_HISILICON = 'H',
 98     CPU_INFINEON  = 'I',
 99     CPU_MOTOROLA  = 'M',
100     CPU_NVIDIA    = 'N',
101     CPU_AMCC      = 'P',
102     CPU_QUALCOM   = 'Q',
103     CPU_MARVELL   = 'V',
104     CPU_INTEL     = 'i',
105     CPU_APPLE     = 'a',
106   };
107 
108 enum Ampere_CPU_Model {
109     CPU_MODEL_EMAG      = 0x0,   /* CPU implementer is CPU_AMCC */
110     CPU_MODEL_ALTRA     = 0xd0c, /* CPU implementer is CPU_ARM, Neoverse N1 */
111     CPU_MODEL_ALTRAMAX  = 0xd0c, /* CPU implementer is CPU_ARM, Neoverse N1 */
112     CPU_MODEL_AMPERE_1  = 0xac3, /* CPU implementer is CPU_AMPERE */
113     CPU_MODEL_AMPERE_1A = 0xac4, /* CPU implementer is CPU_AMPERE */
114     CPU_MODEL_AMPERE_1B = 0xac5  /* AMPERE_1B core Implements ARMv8.7 with CSSC, MTE, SM3/SM4 extensions */
115 };
116 
117 #define CPU_FEATURE_FLAGS(decl)               \
118     decl(FP,            fp,            0)     \
119     decl(ASIMD,         asimd,         1)     \
120     decl(EVTSTRM,       evtstrm,       2)     \
121     decl(AES,           aes,           3)     \
122     decl(PMULL,         pmull,         4)     \
123     decl(SHA1,          sha1,          5)     \
124     decl(SHA2,          sha256,        6)     \
125     decl(CRC32,         crc32,         7)     \
126     decl(LSE,           lse,           8)     \
127     decl(DCPOP,         dcpop,         16)    \
128     decl(SHA3,          sha3,          17)    \
129     decl(SHA512,        sha512,        21)    \
130     decl(SVE,           sve,           22)    \
131     decl(PACA,          paca,          30)    \
132     /* flags above must follow Linux HWCAP */ \
133     decl(SVEBITPERM,    svebitperm,    27)    \
134     decl(SVE2,          sve2,          28)    \
135     decl(A53MAC,        a53mac,        31)
136 
137   enum Feature_Flag {
138 #define DECLARE_CPU_FEATURE_FLAG(id, name, bit) CPU_##id = (1 << bit),
139     CPU_FEATURE_FLAGS(DECLARE_CPU_FEATURE_FLAG)
140 #undef DECLARE_CPU_FEATURE_FLAG
141   };
142 
143   // Feature identification
144 #define CPU_FEATURE_DETECTION(id, name, bit) \
145   static bool supports_##name() { return (_features & CPU_##id) != 0; };
146   CPU_FEATURE_FLAGS(CPU_FEATURE_DETECTION)
147 #undef CPU_FEATURE_DETECTION
148 
149   static int cpu_family()                     { return _cpu; }
150   static int cpu_model()                      { return _model; }
151   static int cpu_model2()                     { return _model2; }
152   static int cpu_variant()                    { return _variant; }
153   static int cpu_revision()                   { return _revision; }
154 
155   static bool model_is(int cpu_model) {
156     return _model == cpu_model || _model2 == cpu_model;
157   }
158 
159   static bool is_zva_enabled() { return 0 <= _zva_length; }
160   static int zva_length() {
161     assert(is_zva_enabled(), "ZVA not available");
162     return _zva_length;
163   }
164 
165   static int icache_line_size() { return _icache_line_size; }
166   static int dcache_line_size() { return _dcache_line_size; }
167   static int get_initial_sve_vector_length()  { return _initial_sve_vector_length; };
168 
169   static bool supports_fast_class_init_checks() { return true; }
170   constexpr static bool supports_stack_watermark_barrier() { return true; }
171 
172   static void get_compatible_board(char *buf, int buflen);
173 
174   static const SpinWait& spin_wait_desc() { return _spin_wait; }
175 
176   static bool supports_on_spin_wait() { return _spin_wait.inst() != SpinWait::NONE; }
177 
178   static bool supports_float16() { return true; }
179 
180 #ifdef __APPLE__
181   // Is the CPU running emulated (for example macOS Rosetta running x86_64 code on M1 ARM (aarch64)
182   static bool is_cpu_emulated();
183 #endif
184 
185   static void initialize_cpu_information(void);
186 
187   static bool use_rop_protection() { return _rop_protection; }
188 
189   // For common 64/128-bit unpredicated vector operations, we may prefer
190   // emitting NEON instructions rather than the corresponding SVE instructions.
191   static bool use_neon_for_vector(int vector_length_in_bytes) {
192     return vector_length_in_bytes <= 16;
193   }
194 };
195 
196 #endif // CPU_AARCH64_VM_VERSION_AARCH64_HPP