/*
* Copyright (c) 2015-2017, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <assert.h>
#include <cci.h>
#include <debug.h>
#include <mmio.h>
#include <stdint.h>
#define MAKE_CCI_PART_NUMBER(hi, lo) ((hi << 8) | lo)
#define CCI_PART_LO_MASK 0xff
#define CCI_PART_HI_MASK 0xf
/* CCI part number codes read from Peripheral ID registers 0 and 1 */
#define CCI400_PART_NUM 0x420
#define CCI500_PART_NUM 0x422
#define CCI550_PART_NUM 0x423
#define CCI400_SLAVE_PORTS 5
#define CCI500_SLAVE_PORTS 7
#define CCI550_SLAVE_PORTS 7
static uintptr_t cci_base;
static const int *cci_slave_if_map;
#if ENABLE_ASSERTIONS
static unsigned int max_master_id;
static int cci_num_slave_ports;
static int validate_cci_map(const int *map)
{
unsigned int valid_cci_map = 0;
int slave_if_id;
int i;
/* Validate the map */
for (i = 0; i <= max_master_id; i++) {
slave_if_id = map[i];
if (slave_if_id < 0)
continue;
if (slave_if_id >= cci_num_slave_ports) {
ERROR("Slave interface ID is invalid\n");
return 0;
}
if (valid_cci_map & (1 << slave_if_id)) {
ERROR("Multiple masters are assigned same slave interface ID\n");
return 0;
}
valid_cci_map |= 1 << slave_if_id;
}
if (!valid_cci_map) {
ERROR("No master is assigned a valid slave interface\n");
return 0;
}
return 1;
}
/*
* Read CCI part number from Peripheral ID registers
*/
static unsigned int read_cci_part_number(uintptr_t base)
{
unsigned int part_lo, part_hi;
part_lo = mmio_read_32(base + PERIPHERAL_ID0) & CCI_PART_LO_MASK;
part_hi = mmio_read_32(base + PERIPHERAL_ID1) & CCI_PART_HI_MASK;
return MAKE_CCI_PART_NUMBER(part_hi, part_lo);
}
/*
* Identify a CCI device, and return the number of slaves. Return -1 for an
* unidentified device.
*/
static int get_slave_ports(unsigned int part_num)
{
/* Macro to match CCI products */
#define RET_ON_MATCH(product) \
case CCI ## product ## _PART_NUM: \
return CCI ## product ## _SLAVE_PORTS
switch (part_num) {
RET_ON_MATCH(400);
RET_ON_MATCH(500);
RET_ON_MATCH(550);
default:
return -1;
}
#undef RET_ON_MATCH
}
#endif /* ENABLE_ASSERTIONS */
void cci_init(uintptr_t base, const int *map, unsigned int num_cci_masters)
{
assert(map);
assert(base);
cci_base = base;
cci_slave_if_map = map;
#if ENABLE_ASSERTIONS
/*
* Master Id's are assigned from zero, So in an array of size n
* the max master id is (n - 1).
*/
max_master_id = num_cci_masters - 1;
cci_num_slave_ports = get_slave_ports(read_cci_part_number(base));
#endif
assert(cci_num_slave_ports >= 0);
assert(validate_cci_map(map));
}
void cci_enable_snoop_dvm_reqs(unsigned int master_id)
{
int slave_if_id = cci_slave_if_map[master_id];
assert(master_id <= max_master_id);
assert((slave_if_id < cci_num_slave_ports) && (slave_if_id >= 0));
assert(cci_base);
/*
* Enable Snoops and DVM messages, no need for Read/Modify/Write as
* rest of bits are write ignore
*/
mmio_write_32(cci_base +
SLAVE_IFACE_OFFSET(slave_if_id) + SNOOP_CTRL_REG,
DVM_EN_BIT | SNOOP_EN_BIT);
/* Wait for the dust to settle down */
while (mmio_read_32(cci_base + STATUS_REG) & CHANGE_PENDING_BIT)
;
}
void cci_disable_snoop_dvm_reqs(unsigned int master_id)
{
int slave_if_id = cci_slave_if_map[master_id];
assert(master_id <= max_master_id);
assert((slave_if_id < cci_num_slave_ports) && (slave_if_id >= 0));
assert(cci_base);
/*
* Disable Snoops and DVM messages, no need for Read/Modify/Write as
* rest of bits are write ignore.
*/
mmio_write_32(cci_base +
SLAVE_IFACE_OFFSET(slave_if_id) + SNOOP_CTRL_REG,
~(DVM_EN_BIT | SNOOP_EN_BIT));
/* Wait for the dust to settle down */
while (mmio_read_32(cci_base + STATUS_REG) & CHANGE_PENDING_BIT)
;
}