-# sigh create little-ended versions of bitfield flags
-def botchify(bekls, lekls):
- for attr in dir(bekls):
- if attr[0] == '_':
- continue
- setattr(lekls, attr, 63-getattr(bekls, attr))
+# moved to openpower-isa
+# https://git.libre-soc.org/?p=openpower-isa.git;a=summary
+# wildcard imports here ONLY to support migration
-
-# Can't think of a better place to put these functions.
-# Return an arbitrary subfield of a larger field.
-def field_slice(msb0_start, msb0_end, field_width=64):
- """field_slice
-
- Answers with a subfield slice of the signal r ("register"),
- where the start and end bits use IBM "MSB 0" conventions.
-
- see: https://en.wikipedia.org/wiki/Bit_numbering#MSB_0_bit_numbering
-
- * assertion: msb0_start < msb0_end.
- * The range specified is inclusive on both ends.
- * field_width specifies the total number of bits (note: not bits-1)
- """
- if msb0_start >= msb0_end:
- raise ValueError(
- "start ({}) must be less than end ({})".format(msb0_start, msb0_end)
- )
- # sigh. MSB0 (IBM numbering) is inverted. converting to python
- # we *swap names* so as not to get confused by having "end, start"
- lsb0_end = (field_width-1) - msb0_start
- lsb0_start = (field_width-1) - msb0_end
-
- return slice(lsb0_start, lsb0_end + 1)
-
-
-def field(r, msb0_start, msb0_end=None, field_width=64):
- """Answers with a subfield of the signal r ("register"), where
- the start and end bits use IBM conventions. start < end, if
- end is provided. The range specified is inclusive on both ends.
-
- Answers with a subfield of the signal r ("register"),
- where the start and end bits use IBM "MSB 0" conventions.
- If end is not provided, a single bit subfield is returned.
-
- see: https://en.wikipedia.org/wiki/Bit_numbering#MSB_0_bit_numbering
-
- * assertion: msb0_start < msb0_end.
- * The range specified is inclusive on both ends.
- * field_width specifies the total number of bits (note: not bits-1)
-
- Example usage:
-
- comb += field(insn, 0, 6, field_width=32).eq(17)
- # NOTE: NEVER DIRECTLY ACCESS OPCODE FIELDS IN INSTRUCTIONS.
- # This example is purely for illustrative purposes only.
- # Use self.fields.FormXYZ.etcetc instead.
-
- comb += field(msr, MSRb.TEs, MSRb.TEe).eq(0)
-
- Proof by substitution:
-
- field(insn, 0, 6, field_width=32).eq(17)
- == insn[field_slice(0, 6, field_width=32)].eq(17)
- == insn[slice((31-6), (31-0)+1)].eq(17)
- == insn[slice(25, 32)].eq(17)
- == insn[25:32].eq(17)
-
- field(msr, MSRb.TEs, MSRb.TEe).eq(0)
- == field(msr, 53, 54).eq(0)
- == msr[field_slice(53, 54)].eq(0)
- == msr[slice((63-54), (63-53)+1)].eq(0) # note cross-over!
- == msr[slice(9, 11)].eq(0)
- == msr[9:11].eq(0)
- """
- if msb0_end is None:
- return r[(field_width - 1) - msb0_start]
- else:
- return r[field_slice(msb0_start, msb0_end)]
-
-
-# Listed in V3.0B Book III Chap 4.2.1
-# MSR bit numbers, *bigendian* order (PowerISA format)
-# use this in the simulator
-class MSRb:
- SF = 0 # Sixty-Four bit mode
- HV = 3 # Hypervisor state
- UND = 5 # Undefined behavior state (see Bk 2, Sect. 3.2.1)
- TSs = 29 # Transactional State (subfield)
- TSe = 30 # Transactional State (subfield)
- TM = 31 # Transactional Memory Available
- VEC = 38 # Vector Available
- VSX = 40 # VSX Available
- S = 41 # Secure state
- EE = 48 # External interrupt Enable
- PR = 49 # PRoblem state
- FP = 50 # FP available
- ME = 51 # Machine Check int enable
- FE0 = 52 # Floating-Point Exception Mode 0
- TEs = 53 # Trace Enable (subfield)
- TEe = 54 # Trace Enable (subfield)
- FE1 = 55 # Floating-Point Exception Mode 1
- IR = 58 # Instruction Relocation
- DR = 59 # Data Relocation
- PMM = 60 # Performance Monitor Mark
- RI = 62 # Recoverable Interrupt
- LE = 63 # Little Endian
-
-# use this inside the HDL (where everything is little-endian)
-class MSR:
- pass
-
-botchify(MSRb, MSR)
-
-# Listed in V3.0B Book III 7.5.9 "Program Interrupt"
-
-# note that these correspond to trap_input_record.traptype bits 0,1,2,3,4
-# (TODO: add more?)
-# IMPORTANT: when adding extra bits here it is CRITICALLY IMPORTANT
-# to expand traptype to cope with the increased range
-
-# use this in the simulator
-class PIb:
- INVALID = 33 # 1 for an invalid mem err
- PERMERR = 35 # 1 for an permanent mem err
- TM_BAD_THING = 42 # 1 for a TM Bad Thing type interrupt
- FP = 43 # 1 if FP exception
- ILLEG = 44 # 1 if illegal instruction (not doing hypervisor)
- PRIV = 45 # 1 if privileged interrupt
- TRAP = 46 # 1 if exception is "trap" type
- ADR = 47 # 0 if SRR0 = address of instruction causing exception
-
-# and use this in the HDL
-class PI:
- pass
-
-botchify(PIb, PI)
-
-# see traptype (and trap main_stage.py)
-# IMPORTANT: when adding extra bits here it is CRITICALLY IMPORTANT
-# to expand traptype to cope with the increased range
-
-class TT:
- FP = 1<<0
- PRIV = 1<<1
- TRAP = 1<<2
- ADDR = 1<<3
- EINT = 1<<4 # external interrupt
- DEC = 1<<5 # decrement counter
- MEMEXC = 1<<6 # LD/ST exception
- ILLEG = 1<<7 # currently the max
- # TODO: support for TM_BAD_THING (not included yet in trap main_stage.py)
- size = 8 # MUST update this to contain the full number of Trap Types
+from openpower.consts import *