mirror of https://github.com/acidanthera/audk.git
MdePkg: Add LoongArch Cpucfg function
Add LoongArch AsmCpucfg function and Cpucfg definitions. Also added Include/Register/LoongArch64/Cpucfg.h to IgnoreFiles of EccCheck. BZ: https://bugzilla.tianocore.org/show_bug.cgi?id=4584 Cc: Michael D Kinney <michael.d.kinney@intel.com> Cc: Liming Gao <gaoliming@byosoft.com.cn> Cc: Zhiguang Liu <zhiguang.liu@intel.com> Signed-off-by: Chao Li <lichao@loongson.cn> Acked-by: Michael D Kinney <michael.d.kinney@intel.com> Reviewed-by: Liming Gao <gaoliming@byosoft.com.cn>
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@ -327,6 +327,18 @@ DisableLocalInterrupts (
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IN UINT16
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);
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/**
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Read CPUCFG register.
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@param Index Specifies the register number of the CPUCFG to read the data.
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@param Data A pointer to the variable used to store the CPUCFG register value.
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**/
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VOID
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AsmCpucfg (
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IN UINT32 Index,
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OUT UINT32 *Data
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);
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#endif // defined (MDE_CPU_LOONGARCH64)
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//
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@ -0,0 +1,565 @@
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/** @file
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CPUCFG definitions.
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Copyright (c) 2024, Loongson Technology Corporation Limited. All rights reserved.<BR>
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SPDX-License-Identifier: BSD-2-Clause-Patent
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**/
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#ifndef CPUCFG_H_
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#define CPUCFG_H_
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/**
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CPUCFG REG0 Information
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@code
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CPUCFG_REG0_INFO_DATA
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**/
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#define CPUCFG_REG0_INFO 0x0
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/**
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CPUCFG REG0 Information returned data.
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#CPUCFG_REG0_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 31:0] Processor Identity.
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///
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UINT32 PRID : 32;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG0_INFO_DATA;
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/**
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CPUCFG REG1 Information
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@code
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CPUCFG_REG1_INFO_DATA
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**/
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#define CPUCFG_REG1_INFO 0x1
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/**
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CPUCFG REG1 Information returned data.
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#CPUCFG_REG1_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 1:0] Architecture:
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/// 2'b00 indicates the implementation of simplified LoongAarch32;
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/// 2'b01 indicates the implementation of LoongAarch32;
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/// 2'b10 indicates the implementation of LoongAarch64;
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/// 2'b11 reserved;
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///
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UINT32 ARCH : 2;
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///
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/// [Bit 2] Paging mapping mode. A value of 1 indicates the processor MMU supports
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/// page mapping mode.
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///
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UINT32 PGMMU : 1;
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///
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/// [Bit 3] A value of 1 indicates the processor supports the IOCSR instruction.
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///
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UINT32 IOCSR : 1;
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///
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/// [Bit 11:4] Physical address bits. The supported physical address bits PALEN value
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/// minus 1.
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///
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UINT32 PALEN : 8;
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///
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/// [Bit 19:12] Virtual address bits. The supported virtual address bits VALEN value
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/// minus 1.
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///
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UINT32 VALEN : 8;
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///
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/// [Bit 20] Non-aligned Memory Access. A value of 1 indicates the processor supports
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/// non-aligned memory access.
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///
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UINT32 UAL : 1;
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///
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/// [Bit 21] Page Read Inhibit. A value of 1 indicates the processor supports page
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/// attribute of "Read Inhibit".
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///
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UINT32 RI : 1;
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///
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/// [Bit 22] Page Execution Protection. A value of 1 indicates the processor supports
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/// page attribute of "Execution Protection".
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///
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UINT32 EP : 1;
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///
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/// [Bit 23] A value of 1 indicates the processor supports for page attributes of RPLV.
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///
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UINT32 RPLV : 1;
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///
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/// [Bit 24] Huge Page. A value of 1 indicates the processor supports page attribute
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/// of huge page.
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///
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UINT32 HP : 1;
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///
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/// [Bit 25] A value of 1 indicates that the string of processor product information
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/// is recorded at address 0 of the IOCSR access space.
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///
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UINT32 IOCSR_BRD : 1;
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///
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/// [Bit 26] A value of 1 indicates that the external interrupt uses the message
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/// interrupt mode, otherwise it is the level interrupt line mode.
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///
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UINT32 MSG_INT : 1;
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///
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/// [Bit 31:27] Reserved.
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///
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UINT32 Reserved : 5;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG1_INFO_DATA;
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/**
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CPUCFG REG2 Information
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@code
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CPUCFG_REG2_INFO_DATA
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**/
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#define CPUCFG_REG2_INFO 0x2
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/**
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CPUCFG REG2 Information returned data.
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#CPUCFG_REG2_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 0] Basic Floating-Point. A value of 1 indicates the processor supports basic
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/// floating-point instructions.
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///
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UINT32 FP : 1;
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///
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/// [Bit 1] Sigle-Precision. A value of 1 indicates the processor supports sigle-precision
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/// floating-point numbers.
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///
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UINT32 FP_SP : 1;
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///
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/// [Bit 2] Double-Precision. A value of 1 indicates the processor supports double-precision
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/// floating-point numbers.
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///
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UINT32 FP_DP : 1;
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///
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/// [Bit 5:3] The version number of the floating-point arithmetic standard. 1 is the initial
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/// version number, indicating that it is compatible with the IEEE 754-2008 standard.
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///
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UINT32 FP_ver : 3;
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///
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/// [Bit 6] 128-bit Vector Extension. A value of 1 indicates the processor supports 128-bit
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/// vector extension.
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///
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UINT32 LSX : 1;
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///
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/// [Bit 7] 256-bit Vector Extension. A value of 1 indicates the processor supports 256-bit
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/// vector extension.
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///
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UINT32 LASX : 1;
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///
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/// [Bit 8] Complex Vector Operation Instructions. A value of 1 indicates the processor supports
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/// complex vector operation instructions.
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///
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UINT32 COMPLEX : 1;
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///
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/// [Bit 9] Encryption And Decryption Vector Instructions. A value of 1 indicates the processor
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/// supports encryption and decryption vector instructions.
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///
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UINT32 CRYPTO : 1;
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///
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/// [Bit 10] Virtualization Expansion. A value of 1 indicates the processor supports
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/// virtualization expansion.
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///
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UINT32 LVZ : 1;
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///
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/// [Bit 13:11] The version number of the virtualization hardware acceleration specification.
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/// 1 is the initial version number.
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///
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UINT32 LVZ_ver : 3;
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///
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/// [Bit 14] Constant Frequency Counter And Timer. A value of 1 indicates the processor supports
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/// constant frequency counter and timer.
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///
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UINT32 LLFTP : 1;
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///
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/// [Bit 17:15] Constant frequency counter and timer version number. 1 is the initial version.
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///
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UINT32 LLTP_ver : 3;
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///
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/// [Bit 18] X86 Binary Translation Extension. A value of 1 indicates the processor supports
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/// X86 binary translation extension.
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///
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UINT32 LBT_X86 : 1;
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///
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/// [Bit 19] ARM Binary Translation Extension. A value of 1 indicates the processor supports
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/// ARM binary translation extension.
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///
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UINT32 LBT_ARM : 1;
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///
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/// [Bit 20] MIPS Binary Translation Extension. A value of 1 indicates the processor supports
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/// MIPS binary translation extension.
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///
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UINT32 LBT_MIPS : 1;
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///
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/// [Bit 21] Software Page Table Walking Instruction. A value of 1 indicates the processor
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/// supports software page table walking instruction.
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///
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UINT32 LSPW : 1;
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///
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/// [Bit 22] Atomic Memory Access Instruction. A value of 1 indicates the processor supports
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/// AM* atomic memory access instruction.
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///
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UINT32 LAM : 1;
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///
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/// [Bit 31:23] Reserved.
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///
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UINT32 Reserved : 9;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG2_INFO_DATA;
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/**
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CPUCFG REG3 Information
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@code
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CPUCFG_REG3_INFO_DATA
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**/
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#define CPUCFG_REG3_INFO 0x3
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/**
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CPUCFG REG3 Information returned data.
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#CPUCFG_REG3_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 0] Hardware Cache Coherent DMA. A value of 1 indicates the processor supports
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/// hardware cache coherent DMA.
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///
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UINT32 CCDMA : 1;
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///
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/// [Bit 1] Store Fill Buffer. A value of 1 indicates the processor supports store fill
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/// buffer (SFB).
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///
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UINT32 SFB : 1;
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///
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/// [Bit 2] Uncache Accelerate. A value of 1 indicates the processor supports uncache
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/// accelerate.
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///
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UINT32 UCACC : 1;
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///
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/// [Bit 3] A value of 1 indicates the processor supports LL instruction to fetch exclusive
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/// block function.
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///
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UINT32 LLEXC : 1;
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///
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/// [Bit 4] A value of 1 indicates the processor supports random delay function after SC
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/// instruction.
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///
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UINT32 SCDLY : 1;
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///
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/// [Bit 5] A value of 1 indicates the processor supports LL automatic with dbar function.
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///
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UINT32 LLDBAR : 1;
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///
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/// [Bit 6] A value of 1 indicates the processor supports the hardware maintains the
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/// consistency between ITLB and TLB.
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///
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UINT32 ITLBT : 1;
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///
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/// [Bit 7] A value of 1 indicates the processor supports the hardware maintains the data
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/// consistency between ICache and DCache in one processor core.
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///
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UINT32 ICACHET : 1;
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///
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/// [Bit 10:8] The maximum number of directory levels supported by the page walk instruction.
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///
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UINT32 SPW_LVL : 3;
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///
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/// [Bit 11] A value of 1 indicates the processor supports the page walk instruction fills
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/// the TLB in half when it encounters a large page.
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///
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UINT32 SPW_HP_HF : 1;
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///
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/// [Bit 12] Virtual Address Range. A value of 1 indicates the processor supports the software
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/// configuration can be used to shorten the virtual address range.
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///
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UINT32 RVA : 1;
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///
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/// [Bit 16:13] The maximum configurable virtual address is shortened by -1.
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///
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UINT32 RVAMAX_1 : 4;
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///
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/// [Bit 31:17] Reserved.
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///
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UINT32 Reserved : 15;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG3_INFO_DATA;
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/**
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CPUCFG REG4 Information
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@code
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CPUCFG_REG4_INFO_DATA
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**/
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#define CPUCFG_REG4_INFO 0x4
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/**
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CPUCFG REG4 Information returned data.
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#CPUCFG_REG4_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 31:0] Constant frequency timer and the crystal frequency corresponding to the clock
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/// used by the timer.
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///
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UINT32 CC_FREQ : 32;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG4_INFO_DATA;
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/**
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CPUCFG REG5 Information
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@code
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CPUCFG_REG5_INFO_DATA
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**/
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#define CPUCFG_REG5_INFO 0x5
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/**
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CPUCFG REG5 Information returned data.
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#CPUCFG_REG5_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 15:0] Constant frequency timer and the corresponding multiplication factor of the
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/// clock used by the timer.
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///
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UINT32 CC_MUL : 16;
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///
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/// [Bit 31:16] Constant frequency timer and the division coefficient corresponding to the
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/// clock used by the timer
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///
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UINT32 CC_DIV : 16;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG5_INFO_DATA;
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/**
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CPUCFG REG6 Information
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@code
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CPUCFG_REG6_INFO_DATA
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**/
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#define CPUCFG_REG6_INFO 0x6
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/**
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CPUCFG REG6 Information returned data.
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#CPUCFG_REG6_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 0] Performance Counter. A value of 1 indicates the processor supports performance
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/// counter.
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///
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UINT32 PMP : 1;
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///
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/// [Bit 3:1] In the performance monitor, the architecture defines the version number of the
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/// event, and 1 is the initial version
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///
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UINT32 PMVER : 3;
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///
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/// [Bit 7:4] Number of performance monitors minus 1.
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///
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UINT32 PMNUM : 4;
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///
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/// [Bit 13:8] Number of bits of a performance monitor minus 1.
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///
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UINT32 PMBITS : 6;
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///
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/// [Bit 14] A value of 1 indicates the processor supports reading performance counter in user mode.
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///
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UINT32 UPM : 1;
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///
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/// [Bit 31:15] Reserved.
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///
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UINT32 Reserved : 17;
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} Bits;
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///
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/// All bit fields as a 32-bit value
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///
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UINT32 Uint32;
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} CPUCFG_REG6_INFO_DATA;
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/**
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CPUCFG REG16 Information
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@code
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CPUCFG_REG16_INFO_DATA
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**/
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#define CPUCFG_REG16_INFO 0x10
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/**
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CPUCFG REG16 Information returned data.
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#CPUCFG_REG16_INFO
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**/
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typedef union {
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struct {
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///
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/// [Bit 0] A value of 1 indicates the processor has a first-level instruction cache
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/// or a first-level unified cache
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///
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UINT32 L1_IU_Present : 1;
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///
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/// [Bit 1] A value of 1 indicates that the cache shown by L1 IU_Present is the
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/// unified cache.
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///
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UINT32 L1_IU_Unify : 1;
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///
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/// [Bit 2] A value of 1 indicates the processor has a first-level data cache.
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///
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UINT32 L1_D_Present : 1;
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///
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/// [Bit 3] A value of 1 indicates the processor has a second-level instruction cache
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/// or a second-level unified cache.
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///
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UINT32 L2_IU_Present : 1;
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///
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/// [Bit 4] A value of 1 indicates that the cache shown by L2 IU_Present is the
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/// unified cache.
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///
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UINT32 L2_IU_Unify : 1;
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///
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/// [Bit 5] A value of 1 indicates that the cache shown by L2 IU_Present is private
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/// to each core.
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///
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UINT32 L2_IU_Private : 1;
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///
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/// [Bit 6] A value of 1 indicates that the cache shown by L2 IU_Present has an inclusive
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/// relationship to the lower levels (L1).
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///
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UINT32 L2_IU_Inclusive : 1;
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///
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/// [Bit 7] A value of 1 indicates the processor has a second-level data cache.
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///
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UINT32 L2_D_Present : 1;
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///
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/// [Bit 8] A value of 1 indicates that the second-level data cache is private to each core.
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///
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UINT32 L2_D_Private : 1;
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///
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/// [Bit 9] A value of 1 indicates that the second-level data cache has a containment
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/// relationship to the lower level (L1).
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///
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UINT32 L2_D_Inclusive : 1;
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///
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/// [Bit 10] A value of 1 indicates the processor has a three-level instruction cache
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/// or a second-level unified Cache.
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///
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UINT32 L3_IU_Present : 1;
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///
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/// [Bit 11] A value of 1 indicates that the cache shown by L3 IU_Present is the
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/// unified cache.
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///
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UINT32 L3_IU_Unify : 1;
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///
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/// [Bit 12] A value of 1 indicates that the cache shown by L3 IU_Present is private
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/// to each core.
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///
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UINT32 L3_IU_Private : 1;
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///
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/// [Bit 13] A value of 1 indicates that the cache shown by L3 IU_Present has an inclusive
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/// relationship to the lower levels (L1 and L2).
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///
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UINT32 L3_IU_Inclusive : 1;
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///
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/// [Bit 14] A value of 1 indicates the processor has a three-level data cache.
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///
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UINT32 L3_D_Present : 1;
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///
|
||||
/// [Bit 15] A value of 1 indicates that the three-level data cache is private to each core.
|
||||
///
|
||||
UINT32 L3_D_Private : 1;
|
||||
///
|
||||
/// [Bit 16] A value of 1 indicates that the three-level data cache has a containment
|
||||
/// relationship to the lower level (L1 and L2).
|
||||
///
|
||||
UINT32 L3_D_Inclusive : 1;
|
||||
///
|
||||
/// [Bit 31:17] Reserved.
|
||||
///
|
||||
UINT32 Reserved : 15;
|
||||
} Bits;
|
||||
///
|
||||
/// All bit fields as a 32-bit value
|
||||
///
|
||||
UINT32 Uint32;
|
||||
} CPUCFG_REG16_INFO_DATA;
|
||||
|
||||
/**
|
||||
CPUCFG REG17, REG18, REG19 and REG20 Information
|
||||
|
||||
@code
|
||||
CPUCFG_CACHE_INFO_DATA
|
||||
**/
|
||||
#define CPUCFG_REG17_INFO 0x11 /// L1 unified cache.
|
||||
#define CPUCFG_REG18_INFO 0x12 /// L1 data cache.
|
||||
#define CPUCFG_REG19_INFO 0x13 /// L2 unified cache.
|
||||
#define CPUCFG_REG20_INFO 0x14 /// L3 unified cache.
|
||||
|
||||
/**
|
||||
CPUCFG CACHE Information returned data.
|
||||
#CPUCFG_REG17_INFO
|
||||
#CPUCFG_REG18_INFO
|
||||
#CPUCFG_REG19_INFO
|
||||
#CPUCFG_REG20_INFO
|
||||
**/
|
||||
typedef union {
|
||||
struct {
|
||||
///
|
||||
/// [Bit 15:0] Number of channels minus 1.
|
||||
///
|
||||
UINT32 Way_1 : 16;
|
||||
///
|
||||
/// [Bit 23:16] Log2 (number of cache rows per channel).
|
||||
///
|
||||
UINT32 Index_log2 : 8;
|
||||
///
|
||||
/// [Bit 30:24] Log2 (cache row bytes).
|
||||
///
|
||||
UINT32 Linesize_log2 : 7;
|
||||
///
|
||||
/// [Bit 31] Reserved.
|
||||
///
|
||||
UINT32 Reserved : 1;
|
||||
} Bits;
|
||||
///
|
||||
/// All bit fields as a 32-bit value
|
||||
///
|
||||
UINT32 Uint32;
|
||||
} CPUCFG_CACHE_INFO_DATA;
|
||||
#endif
|
|
@ -421,6 +421,7 @@
|
|||
LoongArch64/SetJumpLongJump.S | GCC
|
||||
LoongArch64/SwitchStack.S | GCC
|
||||
LoongArch64/ExceptionBase.S | GCC
|
||||
LoongArch64/Cpucfg.S | GCC
|
||||
|
||||
[Packages]
|
||||
MdePkg/MdePkg.dec
|
||||
|
|
|
@ -0,0 +1,26 @@
|
|||
#------------------------------------------------------------------------------
|
||||
#
|
||||
# AsmCpucfg for LoongArch
|
||||
#
|
||||
# Copyright (c) 2024, Loongson Technology Corporation Limited. All rights reserved.<BR>
|
||||
#
|
||||
# SPDX-License-Identifier: BSD-2-Clause-Patent
|
||||
#
|
||||
#------------------------------------------------------------------------------
|
||||
|
||||
ASM_GLOBAL ASM_PFX(AsmCpucfg)
|
||||
|
||||
#/**
|
||||
# Read CPUCFG register.
|
||||
#
|
||||
# @param a0 Specifies the register number of the CPUCFG to read the data.
|
||||
# @param a1 Pointer to the variable used to store the CPUCFG register value.
|
||||
#
|
||||
#**/
|
||||
|
||||
ASM_PFX(AsmCpucfg):
|
||||
cpucfg $t0, $a0
|
||||
stptr.d $t0, $a1, 0
|
||||
|
||||
jirl $zero, $ra, 0
|
||||
.end
|
|
@ -80,7 +80,8 @@
|
|||
"Include/Register/Amd/SmramSaveStateMap.h",
|
||||
"Test/UnitTest/Library/DevicePathLib/TestDevicePathLib.c",
|
||||
"Test/UnitTest/Library/DevicePathLib/TestDevicePathLib.h",
|
||||
"Test/UnitTest/Library/DevicePathLib/TestDevicePathStringConversions.c"
|
||||
"Test/UnitTest/Library/DevicePathLib/TestDevicePathStringConversions.c",
|
||||
"Include/Register/LoongArch64/Cpucfg.h"
|
||||
]
|
||||
},
|
||||
## options defined ci/Plugin/CompilerPlugin
|
||||
|
|
Loading…
Reference in New Issue