Differenze tra le versioni di "Ottenere alcune informazioni sulla CPU mediante l'API di Libcpuid"
Da Gambas-it.org - Wikipedia.
| Riga 149: | Riga 149: | ||
Print " \"EXT_FAMILY\": "; data.ext_family | Print " \"EXT_FAMILY\": "; data.ext_family | ||
Print " \"EXT_MODEL\": "; data.ext_model | Print " \"EXT_MODEL\": "; data.ext_model | ||
| − | au = IIf(data.detection_hints[CPU_HINT_SSE_SIZE_AUTH], "authoritative", "non-authoritative") | + | au = IIf(data.detection_hints[CPU_HINT_SSE_SIZE_AUTH], "(authoritative)", "(non-authoritative)") |
Print " \"SSE_SIZE\": "; data.sse_size; " bit "; au | Print " \"SSE_SIZE\": "; data.sse_size; " bit "; au | ||
Print " \"CPU_CLOCK\": "; cpu_clock(); " Mhz" | Print " \"CPU_CLOCK\": "; cpu_clock(); " Mhz" | ||
Versione delle 05:06, 4 nov 2016
Libcpuid è una piccola libreria, scritta in C, per la rilevazione e per l'estrazione delle caratteristiche della CPU x86.
Per poter utilizzare le risorse di detta libreria è necessario richiamare in Gambas ed avere installa nel proprio sistema la libreria dinamica condivisa: "libcpuid.so.14.0.0"
Mostriamo un semplice esempio pratico:
Library "libcpuid:14.0.0"
Private Enum CPU_HINT_SSE_SIZE_AUTH = 0, NUM_CPU_HINTS
Public Struct cpu_raw_data_t
basic_cpuid[32, 4] As Integer
ext_cpuid[32, 4] As Integer
intel_fn4[8, 4] As Integer
intel_fn11[4, 4] As Integer
intel_fn12h[4, 4] As Integer
intel_fn14h[4, 4] As Integer
End Struct
Public Struct cpu_sgx_t
present As Integer
max_enclave_32bit As Byte
max_enclave_64bit As Byte
flags[14] As Byte
num_epc_sections As Integer
misc_select As Integer
secs_attributes As Long
secs_xfrm As Long
End Struct
Public Struct cpu_id_t
vendor_str[16] As Byte
brand_str[64] As Byte
vendor As Integer
flags[124] As Byte
family As Integer
model As Integer
stepping As Integer
ext_family As Integer
ext_model As Integer
num_cores As Integer
num_logical_cpus As Integer
total_logical_cpus As Integer
l1_data_cache As Integer
l1_instruction_cache As Integer
l2_cache As Integer
l3_cache As Integer
l4_cache As Integer
l1_assoc As Integer
l2_assoc As Integer
l3_assoc As Integer
l4_assoc As Integer
l1_cacheline As Integer
l2_cacheline As Integer
l3_cacheline As Integer
l4_cacheline As Integer
cpu_codename[64] As Byte
sse_size As Integer
detection_hints[16] As Byte
sgx As Struct Cpu_sgx_t
End Struct
Public Struct cpu_mark_t
tsc As Long
sys_clock As Long
End Struct
' int cpuid_present(void)
' Checks if the CPUID instruction is supported.
Private Extern cpuid_present() As Integer
' int cpuid_get_raw_data(struct cpu_raw_data_t* data)
' Obtains the raw CPUID data from the current CPU.
Private Extern cpuid_get_raw_data(data As Cpu_raw_data_t) As Integer
' const char* cpuid_error(void)
' Returns textual description of the last error.
Private Extern cpuid_error() As String
' int cpu_identify(struct cpu_raw_data_t* raw, struct cpu_id_t* data)
' Identifies the CPU.
Private Extern cpu_identify(raw As Cpu_raw_data_t, data As Cpu_id_t) As Integer
' void cpu_tsc_mark(struct cpu_mark_t* mark)
' Store TSC and timing info.
Private Extern cpu_tsc_mark(mark As Cpu_mark_t)
' void cpu_tsc_unmark(struct cpu_mark_t* mark)
' Calculate TSC and timing difference.
Private Extern cpu_tsc_unmark(mark As Cpu_mark_t)
' int cpu_clock(void)
' Get the CPU clock frequency (all-in-one method).
Private Extern cpu_clock() As Integer
' int cpu_clock_by_os(void)
' Returns the CPU clock, as reported by the OS.
Private Extern cpu_clock_by_os() As Integer
' int cpu_clock_by_ic(int millis, int runs)
' Measure the CPU clock frequency using instruction-counting.
Private Extern cpu_clock_by_ic(millis As Integer, runs As Integer) As Integer
' int cpu_clock_measure(int millis, int quad_check)
' Measure the CPU clock frequency.
Private Extern cpu_clock_measure(millis As Integer, quad_check As Integer) As Integer
Public Sub Main()
Dim raw As New Cpu_raw_data_t
Dim data As New Cpu_id_t
Dim mark As New Cpu_mark_t
Dim au, vnd As String
Dim cpu_vendor As String[]
cpu_vendor = ["Intel CPU", "AMD CPU", "Cyrix CPU", "NexGen CPU", "Transmeta CPU", "x86 CPU by UMC", "x86 CPU by IDT",
"x86 CPU by Rise Technology", "x86 CPU by SiS", "x86 CPU by National Semiconductor", ""]
If Not cpuid_present() Then Error.Raise("La CPUID non è supportata !")
If cpuid_get_raw_data(raw) < 0 Then
Error.Raise("Impossibile ottenere dati grezzi CPUID !\nError: " & cpuid_error())
Endif
If cpu_identify(raw, data) < 0 Then
Error.Raise("Impossibile identificare la CPU !\nError: " & cpuid_error())
Endif
cpu_tsc_mark(mark)
cpu_tsc_unmark(mark)
Print " \"VENDOR_STR\": "; String@(data.vendor_str.data)
Print " \"CPU_CODENAME\": "; String@(data.cpu_codename.data)
Print " \"BRAND_STR\": "; String@(data.brand_str.data)
If data.vendor = -1 Then
vnd = "Vendor sconosciuto"
Else
vnd = cpu_vendor[data.vendor]
Endif
Print " \"VENDOR\": "; vnd
Print " \"NUM_CORES\": "; data.num_cores
Print " \"NUM_LOGICAL_CPUS\": "; data.num_logical_cpus
Print " \"TOTAL_LOGICAL_CPUS\": "; data.total_logical_cpus
Print " \"FAMILY\": "; data.family
Print " \"MODEL\": "; data.model
Print " \"STEPPING\": "; data.stepping
Print " \"EXT_FAMILY\": "; data.ext_family
Print " \"EXT_MODEL\": "; data.ext_model
au = IIf(data.detection_hints[CPU_HINT_SSE_SIZE_AUTH], "(authoritative)", "(non-authoritative)")
Print " \"SSE_SIZE\": "; data.sse_size; " bit "; au
Print " \"CPU_CLOCK\": "; cpu_clock(); " Mhz"
Print " \"CPU_CLOCK_BY_OS\": "; cpu_clock_by_os(); " Mhz"
Print " \"CPU_CLOCK_BY_IC\": "; cpu_clock_by_ic(25, 16); " Mhz"
Print " \"CPU_CLOCK_MEASURE\": "; cpu_clock_measure(400, 1); " Mhz"
Print " \"MARK_TSC\": "; mark.tsc
Print " \"MARK_SYS_CLOCK\": "; mark.sys_clock
End
