Opcode / Instruction | Op/En | 64/32 bit Mode Support | CPUID Feature Flag | Description |
---|---|---|---|---|
NP 0F C7 /4 XSAVEC mem | M | V/V | XSAVEC | Save state components specified by EDX:EAX to mem with compaction. |
NP REX.W + 0F C7 /4 XSAVEC64 mem | M | V/N.E. | XSAVEC | Save state components specified by EDX:EAX to mem with compaction. |
Op/En | Operand 1 | Operand 2 | Operand 3 | Operand 4 |
M | ModRM:r/m (w) | NA | NA | NA |
Performs a full or partial save of processor state components to the XSAVE area located at the memory address specified by the destination operand. The implicit EDX:EAX register pair specifies a 64-bit instruction mask. The specific state components saved correspond to the bits set in the requested-feature bitmap (RFBM), which is the logical-AND of EDX:EAX and XCR0.
The format of the XSAVE area is detailed in Section 13.4, “XSAVE Area,” of Intel® 64 and IA-32 Architectures Software Developer’s Manual, Volume 1. Like FXRSTOR and FXSAVE, the memory format used for x87 state depends on a REX.W prefix; see Section 13.5.1, “x87 State” of Intel® 64 and IA-32 Architectures Software Developer’s Manual, Volume 1.
Section 13.10, “Operation of XSAVEC,” of Intel® 64 and IA-32 Architectures Software Developer’s Manual, Volume 1 provides a detailed description of the operation of the XSAVEC instruction. The following items provide a highlevel outline:
1. There is an exception for state component 1 (SSE). MXCSR is part of SSE state, but XINUSE[1] may be 0 even if MXCSR does not have its initial value of 1F80H. In this case, XSAVEC saves SSE state as long as RFBM[1] = 1.
2. Unlike XSAVE and XSAVEOPT, XSAVEC clears bits in the XSTATE_BV field that correspond to bits that are clear in RFBM.
3. There is an exception for state component 1 (SSE). MXCSR is part of SSE state, but XINUSE[1] may be 0 even if MXCSR does not have its initial value of 1F80H. In this case, XSAVEC sets XSTATE_BV[1] to 1 as long as RFBM[1] = 1.
Use of a destination operand not aligned to 64-byte boundary (in either 64-bit or 32-bit modes) results in a general-protection (#GP) exception. In 64-bit mode, the upper 32 bits of RDX and RAX are ignored.
RFBM ← XCR0 AND EDX:EAX; /* bitwise logical AND */ TO_BE_SAVED ← RFBM AND XINUSE; /* bitwise logical AND */ If MXCSR ≠ 1F80H AND RFBM[1] TO_BE_SAVED[1] = 1; FI; IF TO_BE_SAVED[0] = 1 THEN store x87 state into legacy region of XSAVE area; FI; IF TO_BE_SAVED[1] = 1 THEN store SSE state into legacy region of XSAVE area; // this step saves the XMM registers, MXCSR, and MXCSR_MASK FI; NEXT_FEATURE_OFFSET = 576; // Legacy area and XSAVE header consume 576 bytes FOR i ← 2 TO 62 IF RFBM[i] = 1 THEN IF TO_BE_SAVED[i] THEN save XSAVE state component i at offset NEXT_FEATURE_OFFSET from base of XSAVE area; FI; NEXT_FEATURE_OFFSET = NEXT_FEATURE_OFFSET + n (n enumerated by CPUID(EAX=0DH,ECX=i):EAX); FI; ENDFOR; XSTATE_BV field in XSAVE header ← TO_BE_SAVED; XCOMP_BV field in XSAVE header ← RFBM OR 80000000_00000000H;
None.
XSAVEC: void _xsavec( void * , unsigned __int64);
XSAVEC64: void _xsavec64( void * , unsigned __int64);
#GP(0) | If a memory operand effective address is outside the CS, DS, ES, FS, or GS segment limit. |
If a memory operand is not aligned on a 64-byte boundary, regardless of segment. | |
#SS(0) | If a memory operand effective address is outside the SS segment limit. |
#PF(fault-code) | If a page fault occurs. |
#NM | If CR0.TS[bit 3] = 1. |
#UD | If CPUID.01H:ECX.XSAVE[bit 26] = 0 or CPUID.(EAX=0DH,ECX=1):EAX.XSAVEC[bit 1] = 0. |
If CR4.OSXSAVE[bit 18] = 0. | |
If the LOCK prefix is used. | |
#AC | If this exception is disabled a general protection exception (#GP) is signaled if the memory operand is not aligned on a 64-byte boundary, as described above. If the alignment check exception (#AC) is enabled (and the CPL is 3), signaling of #AC is not guaranteed and may vary with implementation, as follows. In all implementations where #AC is not signaled, a general protection exception is signaled in its place. In addition, the width of the alignment check may also vary with implementation. For instance, for a given implementation, an alignment check exception might be signaled for a 2-byte misalignment, whereas a general protection exception might be signaled for all other misalignments (4-, 8-, or 16-byte misalignments). |
#GP | If a memory operand is not aligned on a 64-byte boundary, regardless of segment. |
If any part of the operand lies outside the effective address space from 0 to FFFFH. | |
#NM | If CR0.TS[bit 3] = 1. |
#UD | If CPUID.01H:ECX.XSAVE[bit 26] = 0 or CPUID.(EAX=0DH,ECX=1):EAX.XSAVEC[bit 1] = 0. |
If CR4.OSXSAVE[bit 18] = 0. | |
If the LOCK prefix is used. |
Same exceptions as in protected mode.
Same exceptions as in protected mode.
#GP(0) | If the memory address is in a non-canonical form. |
If a memory operand is not aligned on a 64-byte boundary, regardless of segment. | |
#SS(0) | If a memory address referencing the SS segment is in a non-canonical form. |
#PF(fault-code) | If a page fault occurs. |
#NM | If CR0.TS[bit 3] = 1. |
#UD | If CPUID.01H:ECX.XSAVE[bit 26] = 0 or CPUID.(EAX=0DH,ECX=1):EAX.XSAVEC[bit 1] = 0. |
If CR4.OSXSAVE[bit 18] = 0. | |
If the LOCK prefix is used. | |
#AC | If this exception is disabled a general protection exception (#GP) is signaled if the memory operand is not aligned on a 64-byte boundary, as described above. If the alignment check exception (#AC) is enabled (and the CPL is 3), signaling of #AC is not guaranteed and may vary with implementation, as follows. In all implementations where #AC is not signaled, a general protection exception is signaled in its place. In addition, the width of the alignment check may also vary with implementation. For instance, for a given implementation, an alignment check exception might be signaled for a 2-byte misalignment, whereas a general protection exception might be signaled for all other misalignments (4-, 8-, or 16-byte misalignments). |