Revision 8766dc68d1cb9f01e813315fbdc466e88be9a459 authored by Linus Torvalds on 12 August 2016, 19:09:44 UTC, committed by Linus Torvalds on 12 August 2016, 19:09:44 UTC
Pull powerpc fixes from Michael Ellerman: "Some powerpc fixes for 4.8: Misc: - powerpc/vdso: Fix build rules to rebuild vdsos correctly from Nicholas Piggin - powerpc/ptrace: Fix coredump since ptrace TM changes from Cyril Bur - powerpc/32: Fix csum_partial_copy_generic() from Christophe Leroy - cxl: Set psl_fir_cntl to production environment value from Frederic Barrat - powerpc/eeh: Switch to conventional PCI address output in EEH log from Guilherme G. Piccoli - cxl: Use fixed width predefined types in data structure. from Philippe Bergheaud - powerpc/vdso: Add missing include file from Guenter Roeck - powerpc: Fix unused function warning 'lmb_to_memblock' from Alastair D'Silva - powerpc/powernv/ioda: Fix TCE invalidate to work in real mode again from Alexey Kardashevskiy - powerpc/cell: Add missing error code in spufs_mkgang() from Dan Carpenter - crypto: crc32c-vpmsum - Convert to CPU feature based module autoloading from Anton Blanchard - powerpc/pasemi: Fix coherent_dma_mask for dma engine from Darren Stevens Benjamin Herrenschmidt: - powerpc/32: Fix crash during static key init - powerpc: Update obsolete comment in setup_32.c about early_init() - powerpc: Print the kernel load address at the end of prom_init() - powerpc/pnv/pci: Fix incorrect PE reservation attempt on some 64-bit BARs - powerpc/xics: Properly set Edge/Level type and enable resend Mahesh Salgaonkar: - powerpc/book3s: Fix MCE console messages for unrecoverable MCE. - powerpc/powernv: Fix MCE handler to avoid trashing CR0/CR1 registers. - powerpc/powernv: Move IDLE_STATE_ENTER_SEQ macro to cpuidle.h - powerpc/powernv: Load correct TOC pointer while waking up from winkle. Andrew Donnellan: - cxl: Fix sparse warnings - cxl: Fix NULL dereference in cxl_context_init() on PowerVM guests Michael Ellerman: - selftests/powerpc: Specify we expect to build with std=gnu99 - powerpc/Makefile: Use cflags-y/aflags-y for setting endian options - powerpc/pci: Fix endian bug in fixed PHB numbering" * tag 'powerpc-4.8-3' of git://git.kernel.org/pub/scm/linux/kernel/git/powerpc/linux: (26 commits) selftests/powerpc: Specify we expect to build with std=gnu99 powerpc/vdso: Fix build rules to rebuild vdsos correctly powerpc/Makefile: Use cflags-y/aflags-y for setting endian options powerpc/32: Fix crash during static key init powerpc: Update obsolete comment in setup_32.c about early_init() powerpc: Print the kernel load address at the end of prom_init() powerpc/ptrace: Fix coredump since ptrace TM changes powerpc/32: Fix csum_partial_copy_generic() cxl: Set psl_fir_cntl to production environment value powerpc/pnv/pci: Fix incorrect PE reservation attempt on some 64-bit BARs powerpc/book3s: Fix MCE console messages for unrecoverable MCE. powerpc/pci: Fix endian bug in fixed PHB numbering powerpc/eeh: Switch to conventional PCI address output in EEH log cxl: Fix sparse warnings cxl: Fix NULL dereference in cxl_context_init() on PowerVM guests cxl: Use fixed width predefined types in data structure. powerpc/vdso: Add missing include file powerpc: Fix unused function warning 'lmb_to_memblock' powerpc/powernv: Fix MCE handler to avoid trashing CR0/CR1 registers. powerpc/powernv: Move IDLE_STATE_ENTER_SEQ macro to cpuidle.h ...
test_static_keys.c
/*
* Kernel module for testing static keys.
*
* Copyright 2015 Akamai Technologies Inc. All Rights Reserved
*
* Authors:
* Jason Baron <jbaron@akamai.com>
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <linux/module.h>
#include <linux/jump_label.h>
/* old keys */
struct static_key old_true_key = STATIC_KEY_INIT_TRUE;
struct static_key old_false_key = STATIC_KEY_INIT_FALSE;
/* new api */
DEFINE_STATIC_KEY_TRUE(true_key);
DEFINE_STATIC_KEY_FALSE(false_key);
/* external */
extern struct static_key base_old_true_key;
extern struct static_key base_inv_old_true_key;
extern struct static_key base_old_false_key;
extern struct static_key base_inv_old_false_key;
/* new api */
extern struct static_key_true base_true_key;
extern struct static_key_true base_inv_true_key;
extern struct static_key_false base_false_key;
extern struct static_key_false base_inv_false_key;
struct test_key {
bool init_state;
struct static_key *key;
bool (*test_key)(void);
};
#define test_key_func(key, branch) \
static bool key ## _ ## branch(void) \
{ \
return branch(&key); \
}
static void invert_key(struct static_key *key)
{
if (static_key_enabled(key))
static_key_disable(key);
else
static_key_enable(key);
}
static void invert_keys(struct test_key *keys, int size)
{
struct static_key *previous = NULL;
int i;
for (i = 0; i < size; i++) {
if (previous != keys[i].key) {
invert_key(keys[i].key);
previous = keys[i].key;
}
}
}
static int verify_keys(struct test_key *keys, int size, bool invert)
{
int i;
bool ret, init;
for (i = 0; i < size; i++) {
ret = static_key_enabled(keys[i].key);
init = keys[i].init_state;
if (ret != (invert ? !init : init))
return -EINVAL;
ret = keys[i].test_key();
if (static_key_enabled(keys[i].key)) {
if (!ret)
return -EINVAL;
} else {
if (ret)
return -EINVAL;
}
}
return 0;
}
test_key_func(old_true_key, static_key_true)
test_key_func(old_false_key, static_key_false)
test_key_func(true_key, static_branch_likely)
test_key_func(true_key, static_branch_unlikely)
test_key_func(false_key, static_branch_likely)
test_key_func(false_key, static_branch_unlikely)
test_key_func(base_old_true_key, static_key_true)
test_key_func(base_inv_old_true_key, static_key_true)
test_key_func(base_old_false_key, static_key_false)
test_key_func(base_inv_old_false_key, static_key_false)
test_key_func(base_true_key, static_branch_likely)
test_key_func(base_true_key, static_branch_unlikely)
test_key_func(base_inv_true_key, static_branch_likely)
test_key_func(base_inv_true_key, static_branch_unlikely)
test_key_func(base_false_key, static_branch_likely)
test_key_func(base_false_key, static_branch_unlikely)
test_key_func(base_inv_false_key, static_branch_likely)
test_key_func(base_inv_false_key, static_branch_unlikely)
static int __init test_static_key_init(void)
{
int ret;
int size;
struct test_key static_key_tests[] = {
/* internal keys - old keys */
{
.init_state = true,
.key = &old_true_key,
.test_key = &old_true_key_static_key_true,
},
{
.init_state = false,
.key = &old_false_key,
.test_key = &old_false_key_static_key_false,
},
/* internal keys - new keys */
{
.init_state = true,
.key = &true_key.key,
.test_key = &true_key_static_branch_likely,
},
{
.init_state = true,
.key = &true_key.key,
.test_key = &true_key_static_branch_unlikely,
},
{
.init_state = false,
.key = &false_key.key,
.test_key = &false_key_static_branch_likely,
},
{
.init_state = false,
.key = &false_key.key,
.test_key = &false_key_static_branch_unlikely,
},
/* external keys - old keys */
{
.init_state = true,
.key = &base_old_true_key,
.test_key = &base_old_true_key_static_key_true,
},
{
.init_state = false,
.key = &base_inv_old_true_key,
.test_key = &base_inv_old_true_key_static_key_true,
},
{
.init_state = false,
.key = &base_old_false_key,
.test_key = &base_old_false_key_static_key_false,
},
{
.init_state = true,
.key = &base_inv_old_false_key,
.test_key = &base_inv_old_false_key_static_key_false,
},
/* external keys - new keys */
{
.init_state = true,
.key = &base_true_key.key,
.test_key = &base_true_key_static_branch_likely,
},
{
.init_state = true,
.key = &base_true_key.key,
.test_key = &base_true_key_static_branch_unlikely,
},
{
.init_state = false,
.key = &base_inv_true_key.key,
.test_key = &base_inv_true_key_static_branch_likely,
},
{
.init_state = false,
.key = &base_inv_true_key.key,
.test_key = &base_inv_true_key_static_branch_unlikely,
},
{
.init_state = false,
.key = &base_false_key.key,
.test_key = &base_false_key_static_branch_likely,
},
{
.init_state = false,
.key = &base_false_key.key,
.test_key = &base_false_key_static_branch_unlikely,
},
{
.init_state = true,
.key = &base_inv_false_key.key,
.test_key = &base_inv_false_key_static_branch_likely,
},
{
.init_state = true,
.key = &base_inv_false_key.key,
.test_key = &base_inv_false_key_static_branch_unlikely,
},
};
size = ARRAY_SIZE(static_key_tests);
ret = verify_keys(static_key_tests, size, false);
if (ret)
goto out;
invert_keys(static_key_tests, size);
ret = verify_keys(static_key_tests, size, true);
if (ret)
goto out;
invert_keys(static_key_tests, size);
ret = verify_keys(static_key_tests, size, false);
if (ret)
goto out;
return 0;
out:
return ret;
}
static void __exit test_static_key_exit(void)
{
}
module_init(test_static_key_init);
module_exit(test_static_key_exit);
MODULE_AUTHOR("Jason Baron <jbaron@akamai.com>");
MODULE_LICENSE("GPL");
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