linux_dsm_epyc7002/arch/s390/include/uapi/asm/sie.h
David Hildenbrand 16a0c4c3aa KVM: s390: fix instruction interception trace point
trace-cmd fails to parse the instruction interception trace point:
  "Error: expected type 5 but read 4
   failed to read event print fmt for kvm_s390_intercept_instruction"
The result is an unformatted string in the output, with a warning:
  "kvm_s390_intercept_instruction: [FAILED TO PARSE]..."

So let's add parentheses around the instruction parser macro to fix the format
parsing.

Acked-by: Christian Borntraeger <borntraeger@de.ibm.com>
Acked-by: Cornelia Huck <cornelia.huck@de.ibm.com>
Signed-off-by: David Hildenbrand <dahi@linux.vnet.ibm.com>
Signed-off-by: Christian Borntraeger <borntraeger@de.ibm.com>
2015-03-06 13:40:58 +01:00

245 lines
8.9 KiB
C

#ifndef _UAPI_ASM_S390_SIE_H
#define _UAPI_ASM_S390_SIE_H
#define diagnose_codes \
{ 0x10, "DIAG (0x10) release pages" }, \
{ 0x44, "DIAG (0x44) time slice end" }, \
{ 0x9c, "DIAG (0x9c) time slice end directed" }, \
{ 0x204, "DIAG (0x204) logical-cpu utilization" }, \
{ 0x258, "DIAG (0x258) page-reference services" }, \
{ 0x308, "DIAG (0x308) ipl functions" }, \
{ 0x500, "DIAG (0x500) KVM virtio functions" }, \
{ 0x501, "DIAG (0x501) KVM breakpoint" }
#define sigp_order_codes \
{ 0x01, "SIGP sense" }, \
{ 0x02, "SIGP external call" }, \
{ 0x03, "SIGP emergency signal" }, \
{ 0x05, "SIGP stop" }, \
{ 0x06, "SIGP restart" }, \
{ 0x09, "SIGP stop and store status" }, \
{ 0x0b, "SIGP initial cpu reset" }, \
{ 0x0d, "SIGP set prefix" }, \
{ 0x0e, "SIGP store status at address" }, \
{ 0x12, "SIGP set architecture" }, \
{ 0x15, "SIGP sense running" }
#define icpt_prog_codes \
{ 0x0001, "Prog Operation" }, \
{ 0x0002, "Prog Privileged Operation" }, \
{ 0x0003, "Prog Execute" }, \
{ 0x0004, "Prog Protection" }, \
{ 0x0005, "Prog Addressing" }, \
{ 0x0006, "Prog Specification" }, \
{ 0x0007, "Prog Data" }, \
{ 0x0008, "Prog Fixedpoint overflow" }, \
{ 0x0009, "Prog Fixedpoint divide" }, \
{ 0x000A, "Prog Decimal overflow" }, \
{ 0x000B, "Prog Decimal divide" }, \
{ 0x000C, "Prog HFP exponent overflow" }, \
{ 0x000D, "Prog HFP exponent underflow" }, \
{ 0x000E, "Prog HFP significance" }, \
{ 0x000F, "Prog HFP divide" }, \
{ 0x0010, "Prog Segment translation" }, \
{ 0x0011, "Prog Page translation" }, \
{ 0x0012, "Prog Translation specification" }, \
{ 0x0013, "Prog Special operation" }, \
{ 0x0015, "Prog Operand" }, \
{ 0x0016, "Prog Trace table" }, \
{ 0x0017, "Prog ASNtranslation specification" }, \
{ 0x001C, "Prog Spaceswitch event" }, \
{ 0x001D, "Prog HFP square root" }, \
{ 0x001F, "Prog PCtranslation specification" }, \
{ 0x0020, "Prog AFX translation" }, \
{ 0x0021, "Prog ASX translation" }, \
{ 0x0022, "Prog LX translation" }, \
{ 0x0023, "Prog EX translation" }, \
{ 0x0024, "Prog Primary authority" }, \
{ 0x0025, "Prog Secondary authority" }, \
{ 0x0026, "Prog LFXtranslation exception" }, \
{ 0x0027, "Prog LSXtranslation exception" }, \
{ 0x0028, "Prog ALET specification" }, \
{ 0x0029, "Prog ALEN translation" }, \
{ 0x002A, "Prog ALE sequence" }, \
{ 0x002B, "Prog ASTE validity" }, \
{ 0x002C, "Prog ASTE sequence" }, \
{ 0x002D, "Prog Extended authority" }, \
{ 0x002E, "Prog LSTE sequence" }, \
{ 0x002F, "Prog ASTE instance" }, \
{ 0x0030, "Prog Stack full" }, \
{ 0x0031, "Prog Stack empty" }, \
{ 0x0032, "Prog Stack specification" }, \
{ 0x0033, "Prog Stack type" }, \
{ 0x0034, "Prog Stack operation" }, \
{ 0x0039, "Prog Region first translation" }, \
{ 0x003A, "Prog Region second translation" }, \
{ 0x003B, "Prog Region third translation" }, \
{ 0x0040, "Prog Monitor event" }, \
{ 0x0080, "Prog PER event" }, \
{ 0x0119, "Prog Crypto operation" }
#define exit_code_ipa0(ipa0, opcode, mnemonic) \
{ (ipa0 << 8 | opcode), #ipa0 " " mnemonic }
#define exit_code(opcode, mnemonic) \
{ opcode, mnemonic }
#define icpt_insn_codes \
exit_code_ipa0(0x01, 0x01, "PR"), \
exit_code_ipa0(0x01, 0x04, "PTFF"), \
exit_code_ipa0(0x01, 0x07, "SCKPF"), \
exit_code_ipa0(0xAA, 0x00, "RINEXT"), \
exit_code_ipa0(0xAA, 0x01, "RION"), \
exit_code_ipa0(0xAA, 0x02, "TRIC"), \
exit_code_ipa0(0xAA, 0x03, "RIOFF"), \
exit_code_ipa0(0xAA, 0x04, "RIEMIT"), \
exit_code_ipa0(0xB2, 0x02, "STIDP"), \
exit_code_ipa0(0xB2, 0x04, "SCK"), \
exit_code_ipa0(0xB2, 0x05, "STCK"), \
exit_code_ipa0(0xB2, 0x06, "SCKC"), \
exit_code_ipa0(0xB2, 0x07, "STCKC"), \
exit_code_ipa0(0xB2, 0x08, "SPT"), \
exit_code_ipa0(0xB2, 0x09, "STPT"), \
exit_code_ipa0(0xB2, 0x0d, "PTLB"), \
exit_code_ipa0(0xB2, 0x10, "SPX"), \
exit_code_ipa0(0xB2, 0x11, "STPX"), \
exit_code_ipa0(0xB2, 0x12, "STAP"), \
exit_code_ipa0(0xB2, 0x14, "SIE"), \
exit_code_ipa0(0xB2, 0x16, "SETR"), \
exit_code_ipa0(0xB2, 0x17, "STETR"), \
exit_code_ipa0(0xB2, 0x18, "PC"), \
exit_code_ipa0(0xB2, 0x20, "SERVC"), \
exit_code_ipa0(0xB2, 0x21, "IPTE"), \
exit_code_ipa0(0xB2, 0x28, "PT"), \
exit_code_ipa0(0xB2, 0x29, "ISKE"), \
exit_code_ipa0(0xB2, 0x2a, "RRBE"), \
exit_code_ipa0(0xB2, 0x2b, "SSKE"), \
exit_code_ipa0(0xB2, 0x2c, "TB"), \
exit_code_ipa0(0xB2, 0x2e, "PGIN"), \
exit_code_ipa0(0xB2, 0x2f, "PGOUT"), \
exit_code_ipa0(0xB2, 0x30, "CSCH"), \
exit_code_ipa0(0xB2, 0x31, "HSCH"), \
exit_code_ipa0(0xB2, 0x32, "MSCH"), \
exit_code_ipa0(0xB2, 0x33, "SSCH"), \
exit_code_ipa0(0xB2, 0x34, "STSCH"), \
exit_code_ipa0(0xB2, 0x35, "TSCH"), \
exit_code_ipa0(0xB2, 0x36, "TPI"), \
exit_code_ipa0(0xB2, 0x37, "SAL"), \
exit_code_ipa0(0xB2, 0x38, "RSCH"), \
exit_code_ipa0(0xB2, 0x39, "STCRW"), \
exit_code_ipa0(0xB2, 0x3a, "STCPS"), \
exit_code_ipa0(0xB2, 0x3b, "RCHP"), \
exit_code_ipa0(0xB2, 0x3c, "SCHM"), \
exit_code_ipa0(0xB2, 0x40, "BAKR"), \
exit_code_ipa0(0xB2, 0x48, "PALB"), \
exit_code_ipa0(0xB2, 0x4c, "TAR"), \
exit_code_ipa0(0xB2, 0x50, "CSP"), \
exit_code_ipa0(0xB2, 0x54, "MVPG"), \
exit_code_ipa0(0xB2, 0x58, "BSG"), \
exit_code_ipa0(0xB2, 0x5a, "BSA"), \
exit_code_ipa0(0xB2, 0x5f, "CHSC"), \
exit_code_ipa0(0xB2, 0x74, "SIGA"), \
exit_code_ipa0(0xB2, 0x76, "XSCH"), \
exit_code_ipa0(0xB2, 0x78, "STCKE"), \
exit_code_ipa0(0xB2, 0x7c, "STCKF"), \
exit_code_ipa0(0xB2, 0x7d, "STSI"), \
exit_code_ipa0(0xB2, 0xb0, "STFLE"), \
exit_code_ipa0(0xB2, 0xb1, "STFL"), \
exit_code_ipa0(0xB2, 0xb2, "LPSWE"), \
exit_code_ipa0(0xB2, 0xf8, "TEND"), \
exit_code_ipa0(0xB2, 0xfc, "TABORT"), \
exit_code_ipa0(0xB9, 0x1e, "KMAC"), \
exit_code_ipa0(0xB9, 0x28, "PCKMO"), \
exit_code_ipa0(0xB9, 0x2a, "KMF"), \
exit_code_ipa0(0xB9, 0x2b, "KMO"), \
exit_code_ipa0(0xB9, 0x2d, "KMCTR"), \
exit_code_ipa0(0xB9, 0x2e, "KM"), \
exit_code_ipa0(0xB9, 0x2f, "KMC"), \
exit_code_ipa0(0xB9, 0x3e, "KIMD"), \
exit_code_ipa0(0xB9, 0x3f, "KLMD"), \
exit_code_ipa0(0xB9, 0x8a, "CSPG"), \
exit_code_ipa0(0xB9, 0x8d, "EPSW"), \
exit_code_ipa0(0xB9, 0x8e, "IDTE"), \
exit_code_ipa0(0xB9, 0x8f, "CRDTE"), \
exit_code_ipa0(0xB9, 0x9c, "EQBS"), \
exit_code_ipa0(0xB9, 0xa2, "PTF"), \
exit_code_ipa0(0xB9, 0xab, "ESSA"), \
exit_code_ipa0(0xB9, 0xae, "RRBM"), \
exit_code_ipa0(0xB9, 0xaf, "PFMF"), \
exit_code_ipa0(0xE3, 0x03, "LRAG"), \
exit_code_ipa0(0xE3, 0x13, "LRAY"), \
exit_code_ipa0(0xE3, 0x25, "NTSTG"), \
exit_code_ipa0(0xE5, 0x00, "LASP"), \
exit_code_ipa0(0xE5, 0x01, "TPROT"), \
exit_code_ipa0(0xE5, 0x60, "TBEGIN"), \
exit_code_ipa0(0xE5, 0x61, "TBEGINC"), \
exit_code_ipa0(0xEB, 0x25, "STCTG"), \
exit_code_ipa0(0xEB, 0x2f, "LCTLG"), \
exit_code_ipa0(0xEB, 0x60, "LRIC"), \
exit_code_ipa0(0xEB, 0x61, "STRIC"), \
exit_code_ipa0(0xEB, 0x62, "MRIC"), \
exit_code_ipa0(0xEB, 0x8a, "SQBS"), \
exit_code_ipa0(0xC8, 0x01, "ECTG"), \
exit_code(0x0a, "SVC"), \
exit_code(0x80, "SSM"), \
exit_code(0x82, "LPSW"), \
exit_code(0x83, "DIAG"), \
exit_code(0xae, "SIGP"), \
exit_code(0xac, "STNSM"), \
exit_code(0xad, "STOSM"), \
exit_code(0xb1, "LRA"), \
exit_code(0xb6, "STCTL"), \
exit_code(0xb7, "LCTL"), \
exit_code(0xee, "PLO")
#define sie_intercept_code \
{ 0x00, "Host interruption" }, \
{ 0x04, "Instruction" }, \
{ 0x08, "Program interruption" }, \
{ 0x0c, "Instruction and program interruption" }, \
{ 0x10, "External request" }, \
{ 0x14, "External interruption" }, \
{ 0x18, "I/O request" }, \
{ 0x1c, "Wait state" }, \
{ 0x20, "Validity" }, \
{ 0x28, "Stop request" }, \
{ 0x2c, "Operation exception" }, \
{ 0x38, "Partial-execution" }, \
{ 0x3c, "I/O interruption" }, \
{ 0x40, "I/O instruction" }, \
{ 0x48, "Timing subset" }
/*
* This is the simple interceptable instructions decoder.
*
* It will be used as userspace interface and it can be used in places
* that does not allow to use general decoder functions,
* such as trace events declarations.
*
* Some userspace tools may want to parse this code
* and would be confused by switch(), if() and other statements,
* but they can understand conditional operator.
*/
#define INSN_DECODE_IPA0(ipa0, insn, rshift, mask) \
(insn >> 56) == (ipa0) ? \
((ipa0 << 8) | ((insn >> rshift) & mask)) :
#define INSN_DECODE(insn) (insn >> 56)
/*
* The macro icpt_insn_decoder() takes an intercepted instruction
* and returns a key, which can be used to find a mnemonic name
* of the instruction in the icpt_insn_codes table.
*/
#define icpt_insn_decoder(insn) ( \
INSN_DECODE_IPA0(0x01, insn, 48, 0xff) \
INSN_DECODE_IPA0(0xaa, insn, 48, 0x0f) \
INSN_DECODE_IPA0(0xb2, insn, 48, 0xff) \
INSN_DECODE_IPA0(0xb9, insn, 48, 0xff) \
INSN_DECODE_IPA0(0xe3, insn, 48, 0xff) \
INSN_DECODE_IPA0(0xe5, insn, 48, 0xff) \
INSN_DECODE_IPA0(0xeb, insn, 16, 0xff) \
INSN_DECODE_IPA0(0xc8, insn, 48, 0x0f) \
INSN_DECODE(insn))
#endif /* _UAPI_ASM_S390_SIE_H */