zephyr/arch/xtensa/core/xtensa_intgen.py

141 lines
4.5 KiB
Python
Executable File

#!/usr/bin/env python3
import re
import fileinput
# Pass an Xtensa core-isa.h file on stdin or the command line, emits a
# C file on output containing optimized interrupt dispatch routines.
# FIXME: looking at the assembly generated by the ESP-32 toolchain,
# this isn't as optimal as I'd hoped. the individual cases are tested
# using a L32R + BNONE (i.e. a full mask test) instead of a BBSI, and
# the handlers are being invoked with CALL8 instead of CALL4,
# inexplicably wasting four words of stack. Maybe this should be
# emitting assembly instead. Wouldn't be much more complicated and
# would share all the same structure.
# My manual count of instructions says that a linear search becomes
# faster on average when there are three or fewer bits to test. Would
# be four, if the compiler would generate BBSI instructions.
MAX_TESTS = 3
ints_by_lvl = {}
# print() wrapper that automatically handles indentation levels
cindent = 0
def cprint(s):
global cindent
if s.endswith(":"):
print(s)
return
if s.find("}") >= 0:
cindent -= 1
s = cindent*"\t" + s
print(s)
if s.find("{") >= 0:
cindent += 1
def emit_int_handler(ints):
if len(ints) <= MAX_TESTS:
for i in ints:
# FIXME: a little work could allow us to extract the
# handler pointer and argument as literals, saving a few
# instructions and avoiding the need to link in
# _sw_isr_table entirely.
cprint("if (mask & BIT(%d)) {" % i)
cprint("mask = BIT(%d);" % i)
cprint("irq = %d;" % i)
cprint("goto handle_irq;")
cprint("}")
else:
half = int(len(ints)/2)
m = 0
for i in ints[0:half]:
m |= 1 << i
cprint("if (mask & " + ("0x%x" % (m)) + ") {")
emit_int_handler(ints[0:half])
cprint("} else {")
emit_int_handler(ints[half:])
cprint("}")
########################################################################
# Annoyingly need to join lines and remove #-marked annotations. Some
# versions of the preprocessor (ahem, esp32 SDK) like to include
# newlines in the output where the original expressions are expanded
# from 100% single line macros. Slurp it into a single string and
# parse via whitespace.
blob = ""
for l in fileinput.input():
l = l if l.find("#") < 0 else l[0:l.find("#")]
blob += l.rstrip() + " "
for match in re.finditer(r'__xtensa_int_level_magic__\s+(\d+)\s+(\d+)', blob):
irq = int(match.group(1))
lvl = int(match.group(2))
if not lvl in ints_by_lvl:
ints_by_lvl[lvl] = []
ints_by_lvl[lvl].append(irq)
cprint("/*")
cprint(" * THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.")
cprint(" *")
cprint(" * Functions here are designed to produce efficient code to")
cprint(" * search an Xtensa bitmask of interrupts, inspecting only those bits")
cprint(" * declared to be associated with a given interrupt level. Each")
cprint(" * dispatcher will handle exactly one flagged interrupt, in numerical")
cprint(" * order (low bits first) and will return a mask of that bit that can")
cprint(" * then be cleared by the calling code. Unrecognized bits for the")
cprint(" * level will invoke an error handler.")
cprint(" */")
cprint("")
# Re-include the core-isa header and be sure our definitions match, for sanity
cprint("#include <xtensa/config/core-isa.h>")
cprint("#include <misc/util.h>")
cprint("#include <sw_isr_table.h>")
cprint("")
for l in ints_by_lvl:
for i in ints_by_lvl[l]:
v = "XCHAL_INT" + str(i) + "_LEVEL"
cprint("#if !defined(" + v + ") || " + str(v) + " != " + str(l))
cprint("#error core-isa.h interrupt level does not match dispatcher!")
cprint("#endif")
cprint("")
# Populate empty levels just for sanity. The second-to-last interrupt
# level (usually "debug") typically doesn't have any associated
# vectors, but we don't have any way to know that a-prioi.
max = 0
for lvl in ints_by_lvl:
if lvl > max:
max = lvl
for lvl in range(0, max+1):
if not lvl in ints_by_lvl:
ints_by_lvl[lvl] = []
# Emit the handlers
for lvl in ints_by_lvl:
cprint("static inline int _xtensa_handle_one_int" + str(lvl) + "(unsigned int mask)")
cprint("{")
if not ints_by_lvl[lvl]:
cprint("return 0;")
cprint("}")
continue
cprint("int irq;")
print("")
emit_int_handler(sorted(ints_by_lvl[lvl]))
cprint("return 0;")
cprint("handle_irq:")
cprint("_sw_isr_table[irq].isr(_sw_isr_table[irq].arg);")
cprint("return mask;")
cprint("}")
cprint("")