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hardware_samsung/exynos4/hal/libUMP/arch_011_udd/ump_arch.c

339 lines
9.5 KiB

/*
* Copyright (C) 2010-2013 ARM Limited. All rights reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/**
* @file ump_arch.c
*
* UMP arch layer for UMP-UDD
*/
#include "ump.h"
#include "ump_arch.h"
#include <ump/ump_debug.h>
#include <ump/ump_uk_types.h>
#include "../os/ump_uku.h"
#include <cutils/log.h>
/** Pointer to an OS-Specific context that we should pass in _uku_ calls */
void *ump_uk_ctx = NULL;
/** Reference counting of ump_arch_open() and ump_arch_close(). */
static volatile int ump_ref_count = 0;
/** Lock for critical section in open/close */
_ump_osu_lock_t * ump_lock_arch = NULL;
ump_result ump_arch_open(void)
{
ump_result retval = UMP_OK;
_ump_osu_lock_auto_init( &ump_lock_arch, _UMP_OSU_LOCKFLAG_DEFAULT, 0, 0 );
/* Check that the lock was initialized */
if (NULL == ump_lock_arch)
{
UMP_DEBUG_PRINT(1, ("UMP: ump_arch_open() failed to init lock\n"));
return UMP_ERROR;
}
/* Attempt to obtain a lock */
if( _UMP_OSU_ERR_OK != _ump_osu_lock_wait( ump_lock_arch, _UMP_OSU_LOCKMODE_RW ) )
{
UMP_DEBUG_PRINT(1, ("UMP: ump_arch_open() failed to acquire lock\n"));
return UMP_ERROR;
}
/* ASSERT NEEDED */
UMP_DEBUG_ASSERT(0 <= ump_ref_count, ("UMP: Reference count invalid at _ump_base_arch_open()"));
ump_ref_count++;
if (1 == ump_ref_count)
{
/* We are the first, open the UMP device driver */
if (_UMP_OSU_ERR_OK != _ump_uku_open( &ump_uk_ctx ))
{
UMP_DEBUG_PRINT(1, ("UMP: ump_arch_open() failed to open UMP device driver\n"));
retval = UMP_ERROR;
ump_ref_count--;
}
}
/* Signal the lock so someone else can use it */
_ump_osu_lock_signal( ump_lock_arch, _UMP_OSU_LOCKMODE_RW );
return retval;
}
void ump_arch_close(void)
{
_ump_osu_lock_auto_init( &ump_lock_arch, _UMP_OSU_LOCKFLAG_DEFAULT, 0, 0 );
/* Check that the lock was initialized */
if(NULL == ump_lock_arch)
{
UMP_DEBUG_PRINT(1, ("UMP: ump_arch_close() failed to init lock\n"));
return;
}
/* Attempt to obtain a lock */
if( _UMP_OSU_ERR_OK != _ump_osu_lock_wait( ump_lock_arch, _UMP_OSU_LOCKMODE_RW ) )
{
UMP_DEBUG_PRINT(1, ("UMP: ump_arch_close() failed to acquire lock\n"));
return;
}
UMP_DEBUG_ASSERT(0 < ump_ref_count, ("UMP: ump_arch_close() called while no references exist"));
if (ump_ref_count > 0)
{
ump_ref_count--;
if (0 == ump_ref_count)
{
_ump_osu_errcode_t retval = _ump_uku_close(&ump_uk_ctx);
UMP_DEBUG_ASSERT(retval == _UMP_OSU_ERR_OK, ("UMP: Failed to close UMP interface"));
UMP_IGNORE(retval);
ump_uk_ctx = NULL;
_ump_osu_lock_signal( ump_lock_arch, _UMP_OSU_LOCKMODE_RW );
_ump_osu_lock_term( ump_lock_arch ); /* Not 100% thread safe, since another thread can already be waiting for this lock in ump_arch_open() */
ump_lock_arch = NULL;
return;
}
}
/* Signal the lock so someone else can use it */
_ump_osu_lock_signal( ump_lock_arch, _UMP_OSU_LOCKMODE_RW );
}
ump_secure_id ump_arch_allocate(unsigned long * size, ump_alloc_constraints constraints)
{
_ump_uk_allocate_s call_arg;
if ( NULL == size )
{
return UMP_INVALID_SECURE_ID;
}
call_arg.ctx = ump_uk_ctx;
call_arg.secure_id = UMP_INVALID_SECURE_ID;
call_arg.size = *size;
#ifdef UMP_DEBUG_SKIP_CODE
/** Run-time ASSERTing that _ump_uk_api_version_s and ump_alloc_constraints are
* interchangable */
switch (constraints)
{
case UMP_REF_DRV_CONSTRAINT_NONE:
UMP_DEBUG_ASSERT( UMP_REF_DRV_UK_CONSTRAINT_NONE == constraints, ("ump_uk_alloc_constraints out of sync with ump_alloc_constraints") );
break;
case UMP_REF_DRV_CONSTRAINT_PHYSICALLY_LINEAR:
UMP_DEBUG_ASSERT( UMP_REF_DRV_UK_CONSTRAINT_PHYSICALLY_LINEAR == constraints, ("ump_uk_alloc_constraints out of sync with ump_alloc_constraints") );
break;
default:
UMP_DEBUG_ASSERT( 1, ("ump_uk_alloc_constraints out of sync with ump_alloc_constraints: %d unrecognized", constraints) );
break;
}
#endif
call_arg.constraints = (ump_uk_alloc_constraints)constraints;
if ( _UMP_OSU_ERR_OK != _ump_uku_allocate(&call_arg) )
{
return UMP_INVALID_SECURE_ID;
}
*size = call_arg.size;
UMP_DEBUG_PRINT(4, ("UMP: Allocated ID %u, size %ul", call_arg.secure_id, call_arg.size));
return call_arg.secure_id;
}
ump_secure_id ump_arch_ion_import(int ion_fd, unsigned long *size, ump_alloc_constraints constraints)
{
_ump_uk_ion_import_s call_arg;
call_arg.ctx = ump_uk_ctx;
call_arg.ion_fd = ion_fd;
call_arg.secure_id = UMP_INVALID_SECURE_ID;
call_arg.size = *size;
call_arg.constraints = (ump_uk_alloc_constraints)constraints;
UMP_DEBUG_PRINT(4, ("%s ion_fd=%d size=%x constraints=x", __func__, ion_fd, size, constraints));
if ( _UMP_OSU_ERR_OK != _ump_uku_ion_import(&call_arg) )
{
return UMP_INVALID_SECURE_ID;
}
*size = call_arg.size;
UMP_DEBUG_PRINT(4, ("%s Allocated ID %u, size %ul", __func__, call_arg.secure_id, call_arg.size));
return call_arg.secure_id;
}
unsigned long ump_arch_size_get(ump_secure_id secure_id)
{
_ump_uk_size_get_s dd_size_call_arg;
dd_size_call_arg.ctx = ump_uk_ctx;
dd_size_call_arg.secure_id = secure_id;
dd_size_call_arg.size = 0;
if (_UMP_OSU_ERR_OK == _ump_uku_size_get( &dd_size_call_arg ) )
{
return dd_size_call_arg.size;
}
return 0;
}
void ump_arch_reference_release(ump_secure_id secure_id)
{
_ump_uk_release_s dd_release_call_arg;
_ump_osu_errcode_t retval;
dd_release_call_arg.ctx = ump_uk_ctx;
dd_release_call_arg.secure_id = secure_id;
UMP_DEBUG_PRINT(4, ("UMP: Releasing ID %u", secure_id));
retval = _ump_uku_release( &dd_release_call_arg );
UMP_DEBUG_ASSERT(retval == _UMP_OSU_ERR_OK, ("UMP: Failed to release reference to UMP memory"));
UMP_IGNORE(retval);
}
void* ump_arch_map(ump_secure_id secure_id, unsigned long size, ump_cache_enabled cache, unsigned long *cookie_out)
{
_ump_uk_map_mem_s dd_map_call_arg;
UMP_DEBUG_ASSERT_POINTER( cookie_out );
dd_map_call_arg.ctx = ump_uk_ctx;
dd_map_call_arg.secure_id = secure_id;
dd_map_call_arg.size = size;
dd_map_call_arg.is_cached = (u32) (UMP_CACHE_ENABLE==cache);
if ( -1 == _ump_uku_map_mem( &dd_map_call_arg ) )
{
UMP_DEBUG_PRINT(4, ("UMP: Mapping failed for ID %u", secure_id));
return NULL;
}
UMP_DEBUG_PRINT(4, ("Mapped %u at 0x%08lx", secure_id, (unsigned long)dd_map_call_arg.mapping));
*cookie_out = dd_map_call_arg.cookie;
return dd_map_call_arg.mapping;
}
void ump_arch_unmap(void* mapping, unsigned long size, unsigned long cookie)
{
_ump_uk_unmap_mem_s dd_unmap_call_arg;
dd_unmap_call_arg.ctx = ump_uk_ctx;
dd_unmap_call_arg.mapping = mapping;
dd_unmap_call_arg.size = size;
dd_unmap_call_arg.cookie = cookie;
UMP_DEBUG_PRINT(4, ("Unmapping 0x%08lx", (unsigned long)mapping));
_ump_uku_unmap_mem( &dd_unmap_call_arg );
}
/** Memory synchronization - cache flushing of mapped memory */
ump_cache_enabled ump_arch_msync(ump_secure_id secure_id, void* mapping, unsigned long cookie, void * address, unsigned long size, ump_cpu_msync_op op)
{
_ump_uk_msync_s dd_msync_call_arg;
dd_msync_call_arg.ctx = ump_uk_ctx;
dd_msync_call_arg.mapping = mapping;
dd_msync_call_arg.address = address;
dd_msync_call_arg.size = size;
dd_msync_call_arg.op = (ump_uk_msync_op)op;
dd_msync_call_arg.cookie = cookie;
dd_msync_call_arg.secure_id = secure_id;
dd_msync_call_arg.is_cached = 0;
UMP_DEBUG_PRINT(4, ("Msync 0x%08lx", (unsigned long)mapping));
_ump_uku_msynch( &dd_msync_call_arg );
if ( 0==dd_msync_call_arg.is_cached )
{
UMP_DEBUG_PRINT(4, ("Trying to flush uncached UMP mem ID: %d", secure_id));
}
return (ump_cache_enabled)(dd_msync_call_arg.is_cached);
}
/** Cache operation control. Tell when cache maintenance operations start and end.
This will allow the kernel to merge cache operations togheter, thus making them faster */
int ump_arch_cache_operations_control(ump_cache_op_control op)
{
_ump_uk_cache_operations_control_s dd_cache_control_arg;
dd_cache_control_arg.op = (ump_uk_cache_op_control)op;
dd_cache_control_arg.ctx = ump_uk_ctx;
UMP_DEBUG_PRINT(4, ("Cache control op:%d",(u32)op ));
_ump_uku_cache_operations_control( &dd_cache_control_arg );
return 1; /* Always success */
}
int ump_arch_switch_hw_usage( ump_secure_id secure_id, ump_hw_usage new_user )
{
_ump_uk_switch_hw_usage_s dd_sitch_user_arg;
dd_sitch_user_arg.secure_id = secure_id;
dd_sitch_user_arg.new_user = (ump_uk_user)new_user;
dd_sitch_user_arg.ctx = ump_uk_ctx;
UMP_DEBUG_PRINT(4, ("Switch user UMP:%d User:%d",secure_id, (u32)new_user ));
_ump_uku_switch_hw_usage( &dd_sitch_user_arg );
return 1; /* Always success */
}
int ump_arch_lock( ump_secure_id secure_id, ump_lock_usage lock_usage )
{
_ump_uk_lock_s dd_lock_arg;
dd_lock_arg.ctx = ump_uk_ctx;
dd_lock_arg.secure_id = secure_id;
dd_lock_arg.lock_usage = (ump_uk_lock_usage) lock_usage;
UMP_DEBUG_PRINT(4, ("Lock UMP:%d ",secure_id));
_ump_uku_lock( &dd_lock_arg );
return 1; /* Always success */
}
int ump_arch_unlock( ump_secure_id secure_id )
{
_ump_uk_unlock_s dd_unlock_arg;
dd_unlock_arg.ctx = ump_uk_ctx;
dd_unlock_arg.secure_id = secure_id;
UMP_DEBUG_PRINT(4, ("Lock UMP:%d ",secure_id));
_ump_uku_unlock( &dd_unlock_arg );
return 1; /* Always success */
}