Commit ace9bad4 authored by Mark Rutland's avatar Mark Rutland Committed by Ingo Molnar

locking/atomics: Add common header generation files

To minimize repetition, to allow for future rework, and to ensure
regularity of the various atomic APIs, we'd like to automatically
generate (the bulk of) a number of headers related to atomics.

This patch adds the infrastructure to do so, leaving actual conversion
of headers to subsequent patches. This infrastructure consists of:

* atomics.tbl - a table describing the functions in the atomics API,
  with names, prototypes, and metadata describing the variants that
  exist (e.g fetch/return, acquire/release/relaxed). Note that the
  return type is dependent on the particular variant.

* atomic-tbl.sh - a library of routines useful for dealing with
  atomics.tbl (e.g. querying which variants exist, or generating
  argument/parameter lists for a given function variant).

* gen-atomic-fallback.sh - a script which generates a header of
  fallbacks, covering cases where architecture omit certain functions
  (e.g. omitting relaxed variants).

* gen-atomic-long.sh - a script which generates wrappers providing the
  atomic_long API atomic of the relevant atomic or atomic64 API,
  ensuring the APIs are consistent.

* gen-atomic-instrumented.sh - a script which generates atomic* wrappers
  atop of arch_atomic* functions, with automatically generated KASAN
  instrumentation.

* fallbacks/* - a set of fallback implementations for atomics, which
  should be used when no implementation of a given atomic is provided.
  These are used by gen-atomic-fallback.sh to generate fallbacks, and
  these are also used by other scripts to determine the set of optional
  atomics (as required to generate preprocessor guards correctly).

  Fallbacks may use the following variables:

  ${atomic}     atomic prefix: atomic/atomic64/atomic_long, which can be
		used to derive the atomic type, and to prefix functions

  ${int}        integer type: int/s64/long

  ${pfx}        variant prefix, e.g. fetch_

  ${name}       base function name, e.g. add

  ${sfx}        variant suffix, e.g. _return

  ${order}      order suffix, e.g. _relaxed

  ${atomicname} full name, e.g. atomic64_fetch_add_relaxed

  ${ret}        return type of the function, e.g. void

  ${retstmt}    a return statement (with a trailing space), unless the
                variant returns void

  ${params}     parameter list for the function declaration, e.g.
                "int i, atomic_t *v"

  ${args}       argument list for invoking the function, e.g. "i, v"

  ... for clarity, ${ret}, ${retstmt}, ${params}, and ${args} are
  open-coded for fallbacks where these do not vary, or are critical to
  understanding the logic of the fallback.

The MAINTAINERS entry for the atomic infrastructure is updated to cover
the new scripts.

There should be no functional change as a result of this patch.
Signed-off-by: default avatarMark Rutland <mark.rutland@arm.com>
Signed-off-by: default avatarPeter Zijlstra (Intel) <peterz@infradead.org>
Cc: linux-arm-kernel@lists.infradead.org
Cc: catalin.marinas@arm.com
Cc: Will Deacon <will.deacon@arm.com>
Cc: linuxdrivers@attotech.com
Cc: dvyukov@google.com
Cc: Boqun Feng <boqun.feng@gmail.com>
Cc: arnd@arndb.de
Cc: aryabinin@virtuozzo.com
Cc: glider@google.com
Link: http://lkml.kernel.org/r/20180904104830.2975-2-mark.rutland@arm.comSigned-off-by: default avatarIngo Molnar <mingo@kernel.org>
parent 01a14bda
...@@ -2579,6 +2579,7 @@ L: linux-kernel@vger.kernel.org ...@@ -2579,6 +2579,7 @@ L: linux-kernel@vger.kernel.org
S: Maintained S: Maintained
F: arch/*/include/asm/atomic*.h F: arch/*/include/asm/atomic*.h
F: include/*/atomic*.h F: include/*/atomic*.h
F: scripts/atomic/
ATTO EXPRESSSAS SAS/SATA RAID SCSI DRIVER ATTO EXPRESSSAS SAS/SATA RAID SCSI DRIVER
M: Bradley Grove <linuxdrivers@attotech.com> M: Bradley Grove <linuxdrivers@attotech.com>
......
#!/bin/sh
# SPDX-License-Identifier: GPL-2.0
# helpers for dealing with atomics.tbl
#meta_in(meta, match)
meta_in()
{
case "$1" in
[$2]) return 0;;
esac
return 1
}
#meta_has_ret(meta)
meta_has_ret()
{
meta_in "$1" "bBiIfFlR"
}
#meta_has_acquire(meta)
meta_has_acquire()
{
meta_in "$1" "BFIlR"
}
#meta_has_release(meta)
meta_has_release()
{
meta_in "$1" "BFIRs"
}
#meta_has_relaxed(meta)
meta_has_relaxed()
{
meta_in "$1" "BFIR"
}
#find_fallback_template(pfx, name, sfx, order)
find_fallback_template()
{
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
local order="$1"; shift
local base=""
local file=""
# We may have fallbacks for a specific case (e.g. read_acquire()), or
# an entire class, e.g. *inc*().
#
# Start at the most specific, and fall back to the most general. Once
# we find a specific fallback, don't bother looking for more.
for base in "${pfx}${name}${sfx}${order}" "${name}"; do
file="${ATOMICDIR}/fallbacks/${base}"
if [ -f "${file}" ]; then
printf "${file}"
break
fi
done
}
#gen_ret_type(meta, int)
gen_ret_type() {
local meta="$1"; shift
local int="$1"; shift
case "${meta}" in
[sv]) printf "void";;
[bB]) printf "bool";;
[aiIfFlR]) printf "${int}";;
esac
}
#gen_ret_stmt(meta)
gen_ret_stmt()
{
if meta_has_ret "${meta}"; then
printf "return ";
fi
}
# gen_param_name(arg)
gen_param_name()
{
# strip off the leading 'c' for 'cv'
local name="${1#c}"
printf "${name#*:}"
}
# gen_param_type(arg, int, atomic)
gen_param_type()
{
local type="${1%%:*}"; shift
local int="$1"; shift
local atomic="$1"; shift
case "${type}" in
i) type="${int} ";;
p) type="${int} *";;
v) type="${atomic}_t *";;
cv) type="const ${atomic}_t *";;
esac
printf "${type}"
}
#gen_param(arg, int, atomic)
gen_param()
{
local arg="$1"; shift
local int="$1"; shift
local atomic="$1"; shift
local name="$(gen_param_name "${arg}")"
local type="$(gen_param_type "${arg}" "${int}" "${atomic}")"
printf "${type}${name}"
}
#gen_params(int, atomic, arg...)
gen_params()
{
local int="$1"; shift
local atomic="$1"; shift
while [ "$#" -gt 0 ]; do
gen_param "$1" "${int}" "${atomic}"
[ "$#" -gt 1 ] && printf ", "
shift;
done
}
#gen_args(arg...)
gen_args()
{
while [ "$#" -gt 0 ]; do
printf "$(gen_param_name "$1")"
[ "$#" -gt 1 ] && printf ", "
shift;
done
}
#gen_proto_order_variants(meta, pfx, name, sfx, ...)
gen_proto_order_variants()
{
local meta="$1"; shift
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
gen_proto_order_variant "${meta}" "${pfx}" "${name}" "${sfx}" "" "$@"
if meta_has_acquire "${meta}"; then
gen_proto_order_variant "${meta}" "${pfx}" "${name}" "${sfx}" "_acquire" "$@"
fi
if meta_has_release "${meta}"; then
gen_proto_order_variant "${meta}" "${pfx}" "${name}" "${sfx}" "_release" "$@"
fi
if meta_has_relaxed "${meta}"; then
gen_proto_order_variant "${meta}" "${pfx}" "${name}" "${sfx}" "_relaxed" "$@"
fi
}
#gen_proto_variants(meta, name, ...)
gen_proto_variants()
{
local meta="$1"; shift
local name="$1"; shift
local pfx=""
local sfx=""
meta_in "${meta}" "fF" && pfx="fetch_"
meta_in "${meta}" "R" && sfx="_return"
gen_proto_order_variants "${meta}" "${pfx}" "${name}" "${sfx}" "$@"
}
#gen_proto(meta, ...)
gen_proto() {
local meta="$1"; shift
for m in $(echo "${meta}" | fold -w1); do
gen_proto_variants "${m}" "$@"
done
}
# name meta args...
#
# Where meta contains a string of variants to generate.
# Upper-case implies _{acquire,release,relaxed} variants.
# Valid meta values are:
# * B/b - bool: returns bool
# * v - void: returns void
# * I/i - int: returns base type
# * R - return: returns base type (has _return variants)
# * F/f - fetch: returns base type (has fetch_ variants)
# * l - load: returns base type (has _acquire order variant)
# * s - store: returns void (has _release order variant)
#
# Where args contains list of type[:name], where type is:
# * cv - const pointer to atomic base type (atomic_t/atomic64_t/atomic_long_t)
# * v - pointer to atomic base type (atomic_t/atomic64_t/atomic_long_t)
# * i - base type (int/s64/long)
# * p - pointer to base type (int/s64/long)
#
read l cv
set s v i
add vRF i v
sub vRF i v
inc vRF v
dec vRF v
and vF i v
andnot vF i v
or vF i v
xor vF i v
xchg I v i
cmpxchg I v i:old i:new
try_cmpxchg B v p:old i:new
sub_and_test b i v
dec_and_test b v
inc_and_test b v
add_negative b i v
add_unless fb v i:a i:u
inc_not_zero b v
inc_unless_negative b v
dec_unless_positive b v
dec_if_positive i v
cat <<EOF
static inline ${ret}
${atomic}_${pfx}${name}${sfx}_acquire(${params})
{
${ret} ret = ${atomic}_${pfx}${name}${sfx}_relaxed(${args});
__atomic_acquire_fence();
return ret;
}
EOF
cat <<EOF
/**
* ${atomic}_add_negative - add and test if negative
* @i: integer value to add
* @v: pointer of type ${atomic}_t
*
* Atomically adds @i to @v and returns true
* if the result is negative, or false when
* result is greater than or equal to zero.
*/
static inline bool
${atomic}_add_negative(${int} i, ${atomic}_t *v)
{
return ${atomic}_add_return(i, v) < 0;
}
EOF
cat << EOF
/**
* ${atomic}_add_unless - add unless the number is already a given value
* @v: pointer of type ${atomic}_t
* @a: the amount to add to v...
* @u: ...unless v is equal to u.
*
* Atomically adds @a to @v, if @v was not already @u.
* Returns true if the addition was done.
*/
static inline bool
${atomic}_add_unless(${atomic}_t *v, ${int} a, ${int} u)
{
return ${atomic}_fetch_add_unless(v, a, u) != u;
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_${pfx}andnot${sfx}${order}(${int} i, ${atomic}_t *v)
{
${retstmt}${atomic}_${pfx}and${sfx}${order}(~i, v);
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_${pfx}dec${sfx}${order}(${atomic}_t *v)
{
${retstmt}${atomic}_${pfx}sub${sfx}${order}(1, v);
}
EOF
cat <<EOF
/**
* ${atomic}_dec_and_test - decrement and test
* @v: pointer of type ${atomic}_t
*
* Atomically decrements @v by 1 and
* returns true if the result is 0, or false for all other
* cases.
*/
static inline bool
${atomic}_dec_and_test(${atomic}_t *v)
{
return ${atomic}_dec_return(v) == 0;
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_dec_if_positive(${atomic}_t *v)
{
${int} dec, c = ${atomic}_read(v);
do {
dec = c - 1;
if (unlikely(dec < 0))
break;
} while (!${atomic}_try_cmpxchg(v, &c, dec));
return dec;
}
EOF
cat <<EOF
static inline bool
${atomic}_dec_unless_positive(${atomic}_t *v)
{
${int} c = ${atomic}_read(v);
do {
if (unlikely(c > 0))
return false;
} while (!${atomic}_try_cmpxchg(v, &c, c - 1));
return true;
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_${pfx}${name}${sfx}(${params})
{
${ret} ret;
__atomic_pre_full_fence();
ret = ${atomic}_${pfx}${name}${sfx}_relaxed(${args});
__atomic_post_full_fence();
return ret;
}
EOF
cat << EOF
/**
* ${atomic}_fetch_add_unless - add unless the number is already a given value
* @v: pointer of type ${atomic}_t
* @a: the amount to add to v...
* @u: ...unless v is equal to u.
*
* Atomically adds @a to @v, so long as @v was not already @u.
* Returns original value of @v
*/
static inline ${int}
${atomic}_fetch_add_unless(${atomic}_t *v, ${int} a, ${int} u)
{
${int} c = ${atomic}_read(v);
do {
if (unlikely(c == u))
break;
} while (!${atomic}_try_cmpxchg(v, &c, c + a));
return c;
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_${pfx}inc${sfx}${order}(${atomic}_t *v)
{
${retstmt}${atomic}_${pfx}add${sfx}${order}(1, v);
}
EOF
cat <<EOF
/**
* ${atomic}_inc_and_test - increment and test
* @v: pointer of type ${atomic}_t
*
* Atomically increments @v by 1
* and returns true if the result is zero, or false for all
* other cases.
*/
static inline bool
${atomic}_inc_and_test(${atomic}_t *v)
{
return ${atomic}_inc_return(v) == 0;
}
EOF
cat <<EOF
/**
* ${atomic}_inc_not_zero - increment unless the number is zero
* @v: pointer of type ${atomic}_t
*
* Atomically increments @v by 1, if @v is non-zero.
* Returns true if the increment was done.
*/
static inline bool
${atomic}_inc_not_zero(${atomic}_t *v)
{
return ${atomic}_add_unless(v, 1, 0);
}
EOF
cat <<EOF
static inline bool
${atomic}_inc_unless_negative(${atomic}_t *v)
{
${int} c = ${atomic}_read(v);
do {
if (unlikely(c < 0))
return false;
} while (!${atomic}_try_cmpxchg(v, &c, c + 1));
return true;
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_read_acquire(const ${atomic}_t *v)
{
return smp_load_acquire(&(v)->counter);
}
EOF
cat <<EOF
static inline ${ret}
${atomic}_${pfx}${name}${sfx}_release(${params})
{
__atomic_release_fence();
${retstmt}${atomic}_${pfx}${name}${sfx}_relaxed(${args});
}
EOF
cat <<EOF
static inline void
${atomic}_set_release(${atomic}_t *v, ${int} i)
{
smp_store_release(&(v)->counter, i);
}
EOF
cat <<EOF
/**
* ${atomic}_sub_and_test - subtract value from variable and test result
* @i: integer value to subtract
* @v: pointer of type ${atomic}_t
*
* Atomically subtracts @i from @v and returns
* true if the result is zero, or false for all
* other cases.
*/
static inline bool
${atomic}_sub_and_test(${int} i, ${atomic}_t *v)
{
return ${atomic}_sub_return(i, v) == 0;
}
EOF
cat <<EOF
static inline bool
${atomic}_try_cmpxchg${order}(${atomic}_t *v, ${int} *old, ${int} new)
{
${int} r, o = *old;
r = ${atomic}_cmpxchg${order}(v, o, new);
if (unlikely(r != o))
*old = r;
return likely(r == o);
}
EOF
#!/bin/sh
# SPDX-License-Identifier: GPL-2.0
ATOMICDIR=$(dirname $0)
. ${ATOMICDIR}/atomic-tbl.sh
#gen_template_fallback(template, meta, pfx, name, sfx, order, atomic, int, args...)
gen_template_fallback()
{
local template="$1"; shift
local meta="$1"; shift
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
local order="$1"; shift
local atomic="$1"; shift
local int="$1"; shift
local atomicname="${atomic}_${pfx}${name}${sfx}${order}"
local ret="$(gen_ret_type "${meta}" "${int}")"
local retstmt="$(gen_ret_stmt "${meta}")"
local params="$(gen_params "${int}" "${atomic}" "$@")"
local args="$(gen_args "$@")"
if [ ! -z "${template}" ]; then
printf "#ifndef ${atomicname}\n"
. ${template}
printf "#define ${atomicname} ${atomicname}\n"
printf "#endif\n\n"
fi
}
#gen_proto_fallback(meta, pfx, name, sfx, order, atomic, int, args...)
gen_proto_fallback()
{
local meta="$1"; shift
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
local order="$1"; shift
local tmpl="$(find_fallback_template "${pfx}" "${name}" "${sfx}" "${order}")"
gen_template_fallback "${tmpl}" "${meta}" "${pfx}" "${name}" "${sfx}" "${order}" "$@"
}
#gen_basic_fallbacks(basename)
gen_basic_fallbacks()
{
local basename="$1"; shift
cat << EOF
#define ${basename}_acquire ${basename}
#define ${basename}_release ${basename}
#define ${basename}_relaxed ${basename}
EOF
}
#gen_proto_order_variants(meta, pfx, name, sfx, atomic, int, args...)
gen_proto_order_variants()
{
local meta="$1"; shift
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
local atomic="$1"
local basename="${atomic}_${pfx}${name}${sfx}"
local template="$(find_fallback_template "${pfx}" "${name}" "${sfx}" "${order}")"
# If we don't have relaxed atomics, then we don't bother with ordering fallbacks
# read_acquire and set_release need to be templated, though
if ! meta_has_relaxed "${meta}"; then
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "" "$@"
if meta_has_acquire "${meta}"; then
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "_acquire" "$@"
fi
if meta_has_release "${meta}"; then
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "_release" "$@"
fi
return
fi
printf "#ifndef ${basename}_relaxed\n"
if [ ! -z "${template}" ]; then
printf "#ifdef ${basename}\n"
fi
gen_basic_fallbacks "${basename}"
if [ ! -z "${template}" ]; then
printf "#endif /* ${atomic}_${pfx}${name}${sfx} */\n\n"
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "" "$@"
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "_acquire" "$@"
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "_release" "$@"
gen_proto_fallback "${meta}" "${pfx}" "${name}" "${sfx}" "_relaxed" "$@"
fi
printf "#else /* ${basename}_relaxed */\n\n"
gen_template_fallback "${ATOMICDIR}/fallbacks/acquire" "${meta}" "${pfx}" "${name}" "${sfx}" "_acquire" "$@"
gen_template_fallback "${ATOMICDIR}/fallbacks/release" "${meta}" "${pfx}" "${name}" "${sfx}" "_release" "$@"
gen_template_fallback "${ATOMICDIR}/fallbacks/fence" "${meta}" "${pfx}" "${name}" "${sfx}" "" "$@"
printf "#endif /* ${basename}_relaxed */\n\n"
}
gen_xchg_fallbacks()
{
local xchg="$1"; shift
cat <<EOF
#ifndef ${xchg}_relaxed
#define ${xchg}_relaxed ${xchg}
#define ${xchg}_acquire ${xchg}
#define ${xchg}_release ${xchg}
#else /* ${xchg}_relaxed */
#ifndef ${xchg}_acquire
#define ${xchg}_acquire(...) \\
__atomic_op_acquire(${xchg}, __VA_ARGS__)
#endif
#ifndef ${xchg}_release
#define ${xchg}_release(...) \\
__atomic_op_release(${xchg}, __VA_ARGS__)
#endif
#ifndef ${xchg}
#define ${xchg}(...) \\
__atomic_op_fence(${xchg}, __VA_ARGS__)
#endif
#endif /* ${xchg}_relaxed */
EOF
}
cat << EOF
// SPDX-License-Identifier: GPL-2.0
// Generated by $0
// DO NOT MODIFY THIS FILE DIRECTLY
#ifndef _LINUX_ATOMIC_FALLBACK_H
#define _LINUX_ATOMIC_FALLBACK_H
EOF
for xchg in "xchg" "cmpxchg" "cmpxchg64"; do
gen_xchg_fallbacks "${xchg}"
done
grep '^[a-z]' "$1" | while read name meta args; do
gen_proto "${meta}" "${name}" "atomic" "int" ${args}
done
cat <<EOF
#define atomic_cond_read_acquire(v, c) smp_cond_load_acquire(&(v)->counter, (c))
#define atomic_cond_read_relaxed(v, c) smp_cond_load_relaxed(&(v)->counter, (c))
#ifdef CONFIG_GENERIC_ATOMIC64
#include <asm-generic/atomic64.h>
#endif
EOF
grep '^[a-z]' "$1" | while read name meta args; do
gen_proto "${meta}" "${name}" "atomic64" "s64" ${args}
done
cat <<EOF
#define atomic64_cond_read_acquire(v, c) smp_cond_load_acquire(&(v)->counter, (c))
#define atomic64_cond_read_relaxed(v, c) smp_cond_load_relaxed(&(v)->counter, (c))
#endif /* _LINUX_ATOMIC_FALLBACK_H */
EOF
#!/bin/sh
# SPDX-License-Identifier: GPL-2.0
ATOMICDIR=$(dirname $0)
. ${ATOMICDIR}/atomic-tbl.sh
#gen_param_check(arg)
gen_param_check()
{
local arg="$1"; shift
local type="${arg%%:*}"
local name="$(gen_param_name "${arg}")"
local rw="write"
case "${type#c}" in
i) return;;
esac
# We don't write to constant parameters
[ ${type#c} != ${type} ] && rw="read"
printf "\tkasan_check_${rw}(${name}, sizeof(*${name}));\n"
}
#gen_param_check(arg...)
gen_params_checks()
{
while [ "$#" -gt 0 ]; do
gen_param_check "$1"
shift;
done
}
# gen_guard(meta, atomic, pfx, name, sfx, order)
gen_guard()
{
local meta="$1"; shift
local atomic="$1"; shift
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
local order="$1"; shift
local atomicname="arch_${atomic}_${pfx}${name}${sfx}${order}"
local template="$(find_fallback_template "${pfx}" "${name}" "${sfx}" "${order}")"
# We definitely need a preprocessor symbol for this atomic if it is an
# ordering variant, or if there's a generic fallback.
if [ ! -z "${order}" ] || [ ! -z "${template}" ]; then
printf "defined(${atomicname})"
return
fi
# If this is a base variant, but a relaxed variant *may* exist, then we
# only have a preprocessor symbol if the relaxed variant isn't defined
if meta_has_relaxed "${meta}"; then
printf "!defined(${atomicname}_relaxed) || defined(${atomicname})"
fi
}
#gen_proto_order_variant(meta, pfx, name, sfx, order, atomic, int, arg...)
gen_proto_order_variant()
{
local meta="$1"; shift
local pfx="$1"; shift
local name="$1"; shift
local sfx="$1"; shift
local order="$1"; shift
local atomic="$1"; shift
local int="$1"; shift
local atomicname="${atomic}_${pfx}${name}${sfx}${order}"
local guard="$(gen_guard "${meta}" "${atomic}" "${pfx}" "${name}" "${sfx}" "${order}")"
local ret="$(gen_ret_type "${meta}" "${int}")"
local params="$(gen_params "${int}" "${atomic}" "$@")"
local checks="$(gen_params_checks "$@")"
local args="$(gen_args "$@")"
local retstmt="$(gen_ret_stmt "${meta}")"
[ ! -z "${guard}" ] && printf "#if ${guard}\n"
cat <<EOF
static inline ${ret}
${atomicname}(${params})
{
${checks}
${retstmt}arch_${atomicname}(${args});
}
#define ${atomicname} ${atomicname}
EOF
[ ! -z "${guard}" ] && printf "#endif\n"
printf "\n"
}
gen_xchg()
{
local xchg="$1"; shift
local mult="$1"; shift
cat <<EOF
#define ${xchg}(ptr, ...) \\
({ \\
typeof(ptr) __ai_ptr = (ptr); \\
kasan_check_write(__ai_ptr, ${mult}sizeof(*__ai_ptr)); \\
arch_${xchg}(__ai_ptr, __VA_ARGS__); \\
})
EOF
}
gen_optional_xchg()
{
local name="$1"; shift
local sfx="$1"; shift
local guard="defined(arch_${name}${sfx})"
[ -z "${sfx}" ] && guard="!defined(arch_${name}_relaxed) || defined(arch_${name})"
printf "#if ${guard}\n"
gen_xchg "${name}${sfx}" ""
printf "#endif\n\n"
}
cat << EOF
// SPDX-License-Identifier: GPL-2.0
// Generated by $0
// DO NOT MODIFY THIS FILE DIRECTLY
/*
* This file provides wrappers with KASAN instrumentation for atomic operations.
* To use this functionality an arch's atomic.h file needs to define all
* atomic operations with arch_ prefix (e.g. arch_atomic_read()) and include
* this file at the end. This file provides atomic_read() that forwards to
* arch_atomic_read() for actual atomic operation.
* Note: if an arch atomic operation is implemented by means of other atomic
* operations (e.g. atomic_read()/atomic_cmpxchg() loop), then it needs to use
* arch_ variants (i.e. arch_atomic_read()/arch_atomic_cmpxchg()) to avoid
* double instrumentation.
*/
#ifndef _ASM_GENERIC_ATOMIC_INSTRUMENTED_H
#define _ASM_GENERIC_ATOMIC_INSTRUMENTED_H
#include <linux/build_bug.h>
#include <linux/kasan-checks.h>
EOF
grep '^[a-z]' "$1" | while read name meta args; do
gen_proto "${meta}" "${name}" "atomic" "int" ${args}
done
grep '^[a-z]' "$1" | while read name meta args; do
gen_proto "${meta}" "${name}" "atomic64" "s64" ${args}
done
for xchg in "xchg" "cmpxchg" "cmpxchg64"; do
for order in "" "_acquire" "_release" "_relaxed"; do
gen_optional_xchg "${xchg}" "${order}"
done
done
for xchg in "cmpxchg_local" "cmpxchg64_local" "sync_cmpxchg"; do
gen_xchg "${xchg}" ""
printf "\n"
done
gen_xchg "cmpxchg_double" "2 * "
printf "\n\n"
gen_xchg "cmpxchg_double_local" "2 * "
cat <<EOF
#endif /* _ASM_GENERIC_ATOMIC_INSTRUMENTED_H */
EOF
#!/bin/sh
# SPDX-License-Identifier: GPL-2.0
ATOMICDIR=$(dirname $0)
. ${ATOMICDIR}/atomic-tbl.sh
#gen_cast(arg, int, atomic)
gen_cast()
{
local arg="$1"; shift
local int="$1"; shift
local atomic="$1"; shift
[ "${arg%%:*}" = "p" ] || return
printf "($(gen_param_type "${arg}" "${int}" "${atomic}"))"
}
#gen_args_cast(int, atomic, arg...)
gen_args_cast()
{
local int="$1"; shift
local atomic="$1"; shift
while [ "$#" -gt 0 ]; do
local cast="$(gen_cast "$1" "${int}" "${atomic}")"
local arg="$(gen_param_name "$1")"
printf "${cast}${arg}"
[ "$#" -gt 1 ] && printf ", "
shift;
done
}
#gen_proto_order_variant(meta, pfx, name, sfx, order, atomic, int, arg...)
gen_proto_order_variant()
{
local meta="$1"; shift
local name="$1$2$3$4"; shift; shift; shift; shift
local atomic="$1"; shift
local int="$1"; shift
local ret="$(gen_ret_type "${meta}" "long")"
local params="$(gen_params "long" "atomic_long" "$@")"
local argscast="$(gen_args_cast "${int}" "${atomic}" "$@")"
local retstmt="$(gen_ret_stmt "${meta}")"
cat <<EOF
static inline ${ret}
atomic_long_${name}(${params})
{
${retstmt}${atomic}_${name}(${argscast});
}
EOF
}
cat << EOF
// SPDX-License-Identifier: GPL-2.0
// Generated by $0
// DO NOT MODIFY THIS FILE DIRECTLY
#ifndef _ASM_GENERIC_ATOMIC_LONG_H
#define _ASM_GENERIC_ATOMIC_LONG_H
#include <asm/types.h>
#ifdef CONFIG_64BIT
typedef atomic64_t atomic_long_t;
#define ATOMIC_LONG_INIT(i) ATOMIC64_INIT(i)
#define atomic_long_cond_read_acquire atomic64_cond_read_acquire
#define atomic_long_cond_read_relaxed atomic64_cond_read_relaxed
#else
typedef atomic_t atomic_long_t;
#define ATOMIC_LONG_INIT(i) ATOMIC_INIT(i)
#define atomic_long_cond_read_acquire atomic_cond_read_acquire
#define atomic_long_cond_read_relaxed atomic_cond_read_relaxed
#endif
#ifdef CONFIG_64BIT
EOF
grep '^[a-z]' "$1" | while read name meta args; do
gen_proto "${meta}" "${name}" "atomic64" "s64" ${args}
done
cat <<EOF
#else /* CONFIG_64BIT */
EOF
grep '^[a-z]' "$1" | while read name meta args; do
gen_proto "${meta}" "${name}" "atomic" "int" ${args}
done
cat <<EOF
#endif /* CONFIG_64BIT */
#endif /* _ASM_GENERIC_ATOMIC_LONG_H */
EOF
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