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EHF: MISRA fixes 

These changes address most of the required MISRA rules. In the process,
some from generic code are also fixed.

No functional changes.

Change-Id: I19786070af7bc5e1f6d15bdba93e22a4451d8fe9
Signed-off-by: Jeenu Viswambharan <jeenu.viswambharan@arm.com>
This commit is contained in:
Jeenu Viswambharan 2018-08-02 10:14:12 +01:00
parent 611eb9cfa7
commit 03b645ed86
4 changed files with 76 additions and 66 deletions
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100
bl31/ehf.c
View File

@ -18,6 +18,7 @@
#include <interrupt_mgmt.h>
#include <platform.h>
#include <pubsub_events.h>
#include <stdbool.h>
/* Output EHF logs as verbose */
#define EHF_LOG(...) VERBOSE("EHF: " __VA_ARGS__)
@ -26,43 +27,44 @@
/* For a valid handler, return the actual function pointer; otherwise, 0. */
#define RAW_HANDLER(h) \
((ehf_handler_t) ((h & _EHF_PRI_VALID) ? (h & ~_EHF_PRI_VALID) : 0))
((ehf_handler_t) ((((h) & EHF_PRI_VALID_) != 0U) ? \
((h) & ~EHF_PRI_VALID_) : 0U))
#define PRI_BIT(idx) (((ehf_pri_bits_t) 1) << idx)
#define PRI_BIT(idx) (((ehf_pri_bits_t) 1u) << (idx))
/*
* Convert index into secure priority using the platform-defined priority bits
* field.
*/
#define IDX_TO_PRI(idx) \
((idx << (7 - exception_data.pri_bits)) & 0x7f)
((((unsigned) idx) << (7u - exception_data.pri_bits)) & 0x7fU)
/* Check whether a given index is valid */
#define IS_IDX_VALID(idx) \
((exception_data.ehf_priorities[idx].ehf_handler & _EHF_PRI_VALID) != 0)
((exception_data.ehf_priorities[idx].ehf_handler & EHF_PRI_VALID_) != 0U)
/* Returns whether given priority is in secure priority range */
#define IS_PRI_SECURE(pri) ((pri & 0x80) == 0)
#define IS_PRI_SECURE(pri) (((pri) & 0x80U) == 0U)
/* To be defined by the platform */
extern const ehf_priorities_t exception_data;
/* Translate priority to the index in the priority array */
static int pri_to_idx(unsigned int priority)
static unsigned int pri_to_idx(unsigned int priority)
{
int idx;
unsigned int idx;
idx = EHF_PRI_TO_IDX(priority, exception_data.pri_bits);
assert((idx >= 0) && (idx < exception_data.num_priorities));
assert(idx < exception_data.num_priorities);
assert(IS_IDX_VALID(idx));
return idx;
}
/* Return whether there are outstanding priority activation */
static int has_valid_pri_activations(pe_exc_data_t *pe_data)
static bool has_valid_pri_activations(pe_exc_data_t *pe_data)
{
return pe_data->active_pri_bits != 0;
return pe_data->active_pri_bits != 0U;
}
static pe_exc_data_t *this_cpu_data(void)
@ -80,7 +82,7 @@ static int get_pe_highest_active_idx(pe_exc_data_t *pe_data)
return EHF_INVALID_IDX;
/* Current priority is the right-most bit */
return __builtin_ctz(pe_data->active_pri_bits);
return (int) __builtin_ctz(pe_data->active_pri_bits);
}
/*
@ -95,8 +97,8 @@ static int get_pe_highest_active_idx(pe_exc_data_t *pe_data)
*/
void ehf_activate_priority(unsigned int priority)
{
int idx, cur_pri_idx;
unsigned int old_mask, run_pri;
int cur_pri_idx;
unsigned int old_mask, run_pri, idx;
pe_exc_data_t *pe_data = this_cpu_data();
/*
@ -118,7 +120,8 @@ void ehf_activate_priority(unsigned int priority)
*/
cur_pri_idx = get_pe_highest_active_idx(pe_data);
idx = pri_to_idx(priority);
if ((cur_pri_idx != EHF_INVALID_IDX) && (idx >= cur_pri_idx)) {
if ((cur_pri_idx != EHF_INVALID_IDX) &&
(idx >= ((unsigned int) cur_pri_idx))) {
ERROR("Activation priority mismatch: req=0x%x current=0x%x\n",
priority, IDX_TO_PRI(cur_pri_idx));
panic();
@ -144,7 +147,7 @@ void ehf_activate_priority(unsigned int priority)
* restored after the last deactivation.
*/
if (cur_pri_idx == EHF_INVALID_IDX)
pe_data->init_pri_mask = old_mask;
pe_data->init_pri_mask = (uint8_t) old_mask;
EHF_LOG("activate prio=%d\n", get_pe_highest_active_idx(pe_data));
}
@ -161,9 +164,9 @@ void ehf_activate_priority(unsigned int priority)
*/
void ehf_deactivate_priority(unsigned int priority)
{
int idx, cur_pri_idx;
int cur_pri_idx;
pe_exc_data_t *pe_data = this_cpu_data();
unsigned int old_mask, run_pri;
unsigned int old_mask, run_pri, idx;
/*
* Query interrupt controller for the running priority, or idle priority
@ -184,21 +187,22 @@ void ehf_deactivate_priority(unsigned int priority)
*/
cur_pri_idx = get_pe_highest_active_idx(pe_data);
idx = pri_to_idx(priority);
if ((cur_pri_idx == EHF_INVALID_IDX) || (idx != cur_pri_idx)) {
if ((cur_pri_idx == EHF_INVALID_IDX) ||
(idx != ((unsigned int) cur_pri_idx))) {
ERROR("Deactivation priority mismatch: req=0x%x current=0x%x\n",
priority, IDX_TO_PRI(cur_pri_idx));
panic();
}
/* Clear bit corresponding to highest priority */
pe_data->active_pri_bits &= (pe_data->active_pri_bits - 1);
pe_data->active_pri_bits &= (pe_data->active_pri_bits - 1u);
/*
* Restore priority mask corresponding to the next priority, or the
* one stashed earlier if there are no more to deactivate.
*/
idx = get_pe_highest_active_idx(pe_data);
if (idx == EHF_INVALID_IDX)
cur_pri_idx = get_pe_highest_active_idx(pe_data);
if (cur_pri_idx == EHF_INVALID_IDX)
old_mask = plat_ic_set_priority_mask(pe_data->init_pri_mask);
else
old_mask = plat_ic_set_priority_mask(priority);
@ -231,16 +235,16 @@ static void *ehf_exited_normal_world(const void *arg)
/* If the running priority is in the secure range, do nothing */
run_pri = plat_ic_get_running_priority();
if (IS_PRI_SECURE(run_pri))
return 0;
return NULL;
/* Do nothing if there are explicit activations */
if (has_valid_pri_activations(pe_data))
return 0;
return NULL;
assert(pe_data->ns_pri_mask == 0);
assert(pe_data->ns_pri_mask == 0u);
pe_data->ns_pri_mask =
plat_ic_set_priority_mask(GIC_HIGHEST_NS_PRIORITY);
(uint8_t) plat_ic_set_priority_mask(GIC_HIGHEST_NS_PRIORITY);
/* The previous Priority Mask is not expected to be in secure range */
if (IS_PRI_SECURE(pe_data->ns_pri_mask)) {
@ -252,7 +256,7 @@ static void *ehf_exited_normal_world(const void *arg)
EHF_LOG("Priority Mask: 0x%x => 0x%x\n", pe_data->ns_pri_mask,
GIC_HIGHEST_NS_PRIORITY);
return 0;
return NULL;
}
/*
@ -274,18 +278,18 @@ static void *ehf_entering_normal_world(const void *arg)
/* If the running priority is in the secure range, do nothing */
run_pri = plat_ic_get_running_priority();
if (IS_PRI_SECURE(run_pri))
return 0;
return NULL;
/*
* If there are explicit activations, do nothing. The Priority Mask will
* be restored upon the last deactivation.
*/
if (has_valid_pri_activations(pe_data))
return 0;
return NULL;
/* Do nothing if we don't have a valid Priority Mask to restore */
if (pe_data->ns_pri_mask == 0)
return 0;
if (pe_data->ns_pri_mask == 0U)
return NULL;
old_pmr = plat_ic_set_priority_mask(pe_data->ns_pri_mask);
@ -304,7 +308,7 @@ static void *ehf_entering_normal_world(const void *arg)
pe_data->ns_pri_mask = 0;
return 0;
return NULL;
}
/*
@ -328,7 +332,7 @@ void ehf_allow_ns_preemption(uint64_t preempt_ret_code)
* We should have been notified earlier of entering secure world, and
* therefore have stashed the Non-secure priority mask.
*/
assert(pe_data->ns_pri_mask != 0);
assert(pe_data->ns_pri_mask != 0U);
/* Make sure no priority levels are active when requesting this */
if (has_valid_pri_activations(pe_data)) {
@ -343,7 +347,7 @@ void ehf_allow_ns_preemption(uint64_t preempt_ret_code)
* to populate it, the caller would find the correct return value.
*/
ns_ctx = cm_get_context(NON_SECURE);
assert(ns_ctx);
assert(ns_ctx != NULL);
write_ctx_reg(get_gpregs_ctx(ns_ctx), CTX_GPREG_X0, preempt_ret_code);
old_pmr = plat_ic_set_priority_mask(pe_data->ns_pri_mask);
@ -376,7 +380,7 @@ unsigned int ehf_is_ns_preemption_allowed(void)
*/
if (has_valid_pri_activations(pe_data))
return 0;
if (pe_data->ns_pri_mask != 0)
if (pe_data->ns_pri_mask != 0U)
return 0;
return 1;
@ -388,7 +392,9 @@ unsigned int ehf_is_ns_preemption_allowed(void)
static uint64_t ehf_el3_interrupt_handler(uint32_t id, uint32_t flags,
void *handle, void *cookie)
{
int pri, idx, intr, intr_raw, ret = 0;
int ret = 0;
uint32_t intr_raw;
unsigned int intr, pri, idx;
ehf_handler_t handler;
/*
@ -425,8 +431,9 @@ static uint64_t ehf_el3_interrupt_handler(uint32_t id, uint32_t flags,
/* Validate priority */
assert(pri == IDX_TO_PRI(idx));
handler = RAW_HANDLER(exception_data.ehf_priorities[idx].ehf_handler);
if (!handler) {
handler = (ehf_handler_t) RAW_HANDLER(
exception_data.ehf_priorities[idx].ehf_handler);
if (handler == NULL) {
ERROR("No EL3 exception handler for priority 0x%x\n",
IDX_TO_PRI(idx));
panic();
@ -438,7 +445,7 @@ static uint64_t ehf_el3_interrupt_handler(uint32_t id, uint32_t flags,
*/
ret = handler(intr_raw, flags, handle, cookie);
return ret;
return (uint64_t) ret;
}
/*
@ -450,21 +457,22 @@ void ehf_init(void)
int ret __unused;
/* Ensure EL3 interrupts are supported */
assert(plat_ic_has_interrupt_type(INTR_TYPE_EL3));
assert(plat_ic_has_interrupt_type(INTR_TYPE_EL3) != 0);
/*
* Make sure that priority water mark has enough bits to represent the
* whole priority array.
*/
assert(exception_data.num_priorities <= (sizeof(ehf_pri_bits_t) * 8));
assert(exception_data.num_priorities <= (sizeof(ehf_pri_bits_t) * 8U));
assert(exception_data.ehf_priorities);
assert(exception_data.ehf_priorities != NULL);
/*
* Bit 7 of GIC priority must be 0 for secure interrupts. This means
* platforms must use at least 1 of the remaining 7 bits.
*/
assert((exception_data.pri_bits >= 1) || (exception_data.pri_bits < 8));
assert((exception_data.pri_bits >= 1U) ||
(exception_data.pri_bits < 8U));
/* Route EL3 interrupts when in Secure and Non-secure. */
set_interrupt_rm_flag(flags, NON_SECURE);
@ -484,13 +492,13 @@ void ehf_init(void)
*/
void ehf_register_priority_handler(unsigned int pri, ehf_handler_t handler)
{
int idx;
unsigned int idx;
/* Sanity check for handler */
assert(handler != NULL);
/* Handler ought to be 4-byte aligned */
assert((((uintptr_t) handler) & 3) == 0);
assert((((uintptr_t) handler) & 3U) == 0U);
/* Ensure we register for valid priority */
idx = pri_to_idx(pri);
@ -498,7 +506,7 @@ void ehf_register_priority_handler(unsigned int pri, ehf_handler_t handler)
assert(IDX_TO_PRI(idx) == pri);
/* Return failure if a handler was already registered */
if (exception_data.ehf_priorities[idx].ehf_handler != _EHF_NO_HANDLER) {
if (exception_data.ehf_priorities[idx].ehf_handler != EHF_NO_HANDLER_) {
ERROR("Handler already registered for priority 0x%x\n", pri);
panic();
}
@ -508,7 +516,7 @@ void ehf_register_priority_handler(unsigned int pri, ehf_handler_t handler)
* is 4-byte aligned, which is usually the case.
*/
exception_data.ehf_priorities[idx].ehf_handler =
(((uintptr_t) handler) | _EHF_PRI_VALID);
(((uintptr_t) handler) | EHF_PRI_VALID_);
EHF_LOG("register pri=0x%x handler=%p\n", pri, handler);
}

24
include/bl31/ehf.h
View File

@ -4,8 +4,8 @@
* SPDX-License-Identifier: BSD-3-Clause
*/
#ifndef __EHF_H__
#define __EHF_H__
#ifndef EHF_H
#define EHF_H
#ifndef __ASSEMBLY__
@ -13,27 +13,27 @@
#include <utils_def.h>
/* Valid priorities set bit 0 of the priority handler. */
#define _EHF_PRI_VALID (((uintptr_t) 1) << 0)
#define EHF_PRI_VALID_ (((uintptr_t) 1) << 0)
/* Marker for no handler registered for a valid priority */
#define _EHF_NO_HANDLER (0 | _EHF_PRI_VALID)
#define EHF_NO_HANDLER_ (0U | EHF_PRI_VALID_)
/* Extract the specified number of top bits from 7 lower bits of priority */
#define EHF_PRI_TO_IDX(pri, plat_bits) \
((pri & 0x7f) >> (7 - plat_bits))
((((unsigned) (pri)) & 0x7fu) >> (7u - (plat_bits)))
/* Install exception priority descriptor at a suitable index */
#define EHF_PRI_DESC(plat_bits, priority) \
[EHF_PRI_TO_IDX(priority, plat_bits)] = { \
.ehf_handler = _EHF_NO_HANDLER, \
.ehf_handler = EHF_NO_HANDLER_, \
}
/* Macro for platforms to regiter its exception priorities */
#define EHF_REGISTER_PRIORITIES(priorities, num, bits) \
const ehf_priorities_t exception_data = { \
.num_priorities = num, \
.ehf_priorities = priorities, \
.pri_bits = bits, \
.num_priorities = (num), \
.ehf_priorities = (priorities), \
.pri_bits = (bits), \
}
/*
@ -72,10 +72,10 @@ typedef struct ehf_pri_desc {
uintptr_t ehf_handler;
} ehf_pri_desc_t;
typedef struct ehf_priorities {
typedef struct ehf_priority_type {
ehf_pri_desc_t *ehf_priorities;
unsigned int num_priorities;
int pri_bits;
unsigned int pri_bits;
} ehf_priorities_t;
void ehf_init(void);
@ -87,4 +87,4 @@ unsigned int ehf_is_ns_preemption_allowed(void);
#endif /* __ASSEMBLY__ */
#endif /* __EHF_H__ */
#endif /* EHF_H */

8
include/bl31/interrupt_mgmt.h
View File

@ -61,10 +61,10 @@
#define INTR_RM_FROM_SEC_SHIFT SECURE /* BIT[0] */
#define INTR_RM_FROM_NS_SHIFT NON_SECURE /* BIT[1] */
#define INTR_RM_FROM_FLAG_MASK U(1)
#define get_interrupt_rm_flag(flag, ss) (((flag >> INTR_RM_FLAGS_SHIFT) >> ss) \
& INTR_RM_FROM_FLAG_MASK)
#define set_interrupt_rm_flag(flag, ss) (flag |= U(1) << ss)
#define clr_interrupt_rm_flag(flag, ss) (flag &= ~(U(1) << ss))
#define get_interrupt_rm_flag(flag, ss) \
((((flag) >> INTR_RM_FLAGS_SHIFT) >> (ss)) & INTR_RM_FROM_FLAG_MASK)
#define set_interrupt_rm_flag(flag, ss) ((flag) |= U(1) << (ss))
#define clr_interrupt_rm_flag(flag, ss) ((flag) &= ~(U(1) << (ss)))
/*******************************************************************************

10
include/drivers/arm/gic_common.h
View File

@ -7,6 +7,8 @@
#ifndef __GIC_COMMON_H__
#define __GIC_COMMON_H__
#include <utils_def.h>
/*******************************************************************************
* GIC Distributor interface general definitions
******************************************************************************/
@ -34,10 +36,10 @@
#define GIC_INTR_CFG_EDGE (1 << 1)
/* Constants to categorise priorities */
#define GIC_HIGHEST_SEC_PRIORITY 0x0
#define GIC_LOWEST_SEC_PRIORITY 0x7f
#define GIC_HIGHEST_NS_PRIORITY 0x80
#define GIC_LOWEST_NS_PRIORITY 0xfe /* 0xff would disable all interrupts */
#define GIC_HIGHEST_SEC_PRIORITY U(0x00)
#define GIC_LOWEST_SEC_PRIORITY U(0x7f)
#define GIC_HIGHEST_NS_PRIORITY U(0x80)
#define GIC_LOWEST_NS_PRIORITY U(0xfe) /* 0xff would disable all interrupts */
/*******************************************************************************
* GIC Distributor interface register offsets that are common to GICv3 & GICv2