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/* SPDX-License-Identifier: GPL-2.0-only */
#define __SIMPLE_DEVICE__
#include <assert.h>
#include <commonlib/bsd/helpers.h>
#include <console/console.h>
#include <device/mmio.h>
#include <device/pci_def.h>
#include <device/pci_ops.h>
#include <device/pci_type.h>
#include <intelblocks/pcr.h>
#include <soc/pci_devs.h>
#include <timer.h>
#include <types.h>
#if (CONFIG_PCR_BASE_ADDRESS == 0)
#error "PCR_BASE_ADDRESS need to be non-zero!"
#endif
#if !CONFIG(PCR_COMMON_IOSF_1_0)
#define PCR_SBI_CMD_TIMEOUT 10 /* 10ms */
/* P2SB PCI configuration register */
#define P2SB_CR_SBI_ADDR 0xd0
#define P2SB_CR_SBI_DESTID 24
#define P2SB_CR_SBI_DATA 0xd4
#define P2SB_CR_SBI_STATUS 0xd8
/* Bit 15:8 */
#define P2SB_CR_SBI_OPCODE 8
#define P2SB_CR_SBI_OPCODE_MASK 0xFF00
/* Bit 7 */
#define P2SB_CR_SBI_POSTED 7
#define P2SB_CR_SBI_POSTED_MASK 0x0080
/* Bit 2-1 */
#define P2SB_CR_SBI_STATUS_MASK 0x0006
#define P2SB_CR_SBI_STATUS_SUCCESS 0
#define P2SB_CR_SBI_STATUS_NOT_SUPPORTED 1
#define P2SB_CR_SBI_STATUS_POWERED_DOWN 2
#define P2SB_CR_SBI_STATUS_MULTI_CAST_MIXED 3
/* Bit 0 */
#define P2SB_CR_SBI_STATUS_READY 0
#define P2SB_CR_SBI_STATUS_BUSY 1
#define P2SB_CR_SBI_ROUTE_IDEN 0xda
/* Bit 15-12 */
#define P2SB_CR_SBI_FBE 12
#define P2SB_CR_SBI_FBE_MASK 0xF
/* Bit 10-8 */
#define P2SB_CR_SBI_BAR 8
#define P2SB_CR_SBI_MASK 0x7
/* Bit 7-0 */
#define P2SB_CR_SBI_FID 0
#define P2SB_CR_SBI_FID_MASK 0xFF
#define P2SB_CR_SBI_EXT_ADDR 0xdc
#endif
static void *__pcr_reg_address(uint8_t pid, uint16_t offset)
{
uintptr_t reg_addr;
/* Create an address based off of port id and offset. */
reg_addr = CONFIG_PCR_BASE_ADDRESS;
reg_addr += ((uintptr_t)pid) << PCR_PORTID_SHIFT;
reg_addr += (uintptr_t)offset;
return (void *)reg_addr;
}
void *pcr_reg_address(uint8_t pid, uint16_t offset)
{
if (CONFIG(PCR_COMMON_IOSF_1_0))
assert(IS_ALIGNED(offset, sizeof(uint32_t)));
return __pcr_reg_address(pid, offset);
}
/*
* The mapping of addresses via the SBREG_BAR assumes the IOSF-SB
* agents are using 32-bit aligned accesses for their configuration
* registers. For IOSF versions greater than 1_0, IOSF-SB
* agents can use any access (8/16/32 bit aligned) for their
* configuration registers
*/
static inline void check_pcr_offset_align(uint16_t offset, size_t size)
{
const size_t align = CONFIG(PCR_COMMON_IOSF_1_0) ?
sizeof(uint32_t) : size;
assert(IS_ALIGNED(offset, align));
}
uint32_t pcr_read32(uint8_t pid, uint16_t offset)
{
/* Ensure the PCR offset is correctly aligned. */
assert(IS_ALIGNED(offset, sizeof(uint32_t)));
return read32(__pcr_reg_address(pid, offset));
}
uint16_t pcr_read16(uint8_t pid, uint16_t offset)
{
/* Ensure the PCR offset is correctly aligned. */
check_pcr_offset_align(offset, sizeof(uint16_t));
return read16(__pcr_reg_address(pid, offset));
}
uint8_t pcr_read8(uint8_t pid, uint16_t offset)
{
/* Ensure the PCR offset is correctly aligned. */
check_pcr_offset_align(offset, sizeof(uint8_t));
return read8(__pcr_reg_address(pid, offset));
}
/*
* After every write one needs to perform a read an innocuous register to
* ensure the writes are completed for certain ports. This is done for
* all ports so that the callers don't need the per-port knowledge for
* each transaction.
*/
static inline void write_completion(uint8_t pid, uint16_t offset)
{
read32(__pcr_reg_address(pid, ALIGN_DOWN(offset, sizeof(uint32_t))));
}
void pcr_write32(uint8_t pid, uint16_t offset, uint32_t indata)
{
/* Ensure the PCR offset is correctly aligned. */
assert(IS_ALIGNED(offset, sizeof(indata)));
write32(__pcr_reg_address(pid, offset), indata);
/* Ensure the writes complete. */
write_completion(pid, offset);
}
void pcr_write16(uint8_t pid, uint16_t offset, uint16_t indata)
{
/* Ensure the PCR offset is correctly aligned. */
check_pcr_offset_align(offset, sizeof(uint16_t));
write16(__pcr_reg_address(pid, offset), indata);
/* Ensure the writes complete. */
write_completion(pid, offset);
}
void pcr_write8(uint8_t pid, uint16_t offset, uint8_t indata)
{
/* Ensure the PCR offset is correctly aligned. */
check_pcr_offset_align(offset, sizeof(uint8_t));
write8(__pcr_reg_address(pid, offset), indata);
/* Ensure the writes complete. */
write_completion(pid, offset);
}
void pcr_rmw32(uint8_t pid, uint16_t offset, uint32_t anddata, uint32_t ordata)
{
uint32_t data32;
data32 = pcr_read32(pid, offset);
data32 &= anddata;
data32 |= ordata;
pcr_write32(pid, offset, data32);
}
void pcr_rmw16(uint8_t pid, uint16_t offset, uint16_t anddata, uint16_t ordata)
{
uint16_t data16;
data16 = pcr_read16(pid, offset);
data16 &= anddata;
data16 |= ordata;
pcr_write16(pid, offset, data16);
}
void pcr_rmw8(uint8_t pid, uint16_t offset, uint8_t anddata, uint8_t ordata)
{
uint8_t data8;
data8 = pcr_read8(pid, offset);
data8 &= anddata;
data8 |= ordata;
pcr_write8(pid, offset, data8);
}
void pcr_or32(uint8_t pid, uint16_t offset, uint32_t ordata)
{
uint32_t data32;
data32 = pcr_read32(pid, offset);
data32 |= ordata;
pcr_write32(pid, offset, data32);
}
void pcr_or16(uint8_t pid, uint16_t offset, uint16_t ordata)
{
uint16_t data16;
data16 = pcr_read16(pid, offset);
data16 |= ordata;
pcr_write16(pid, offset, data16);
}
void pcr_or8(uint8_t pid, uint16_t offset, uint8_t ordata)
{
uint8_t data8;
data8 = pcr_read8(pid, offset);
data8 |= ordata;
pcr_write8(pid, offset, data8);
}
#if !CONFIG(PCR_COMMON_IOSF_1_0)
static int pcr_wait_for_completion(const pci_devfn_t dev)
{
struct stopwatch sw;
stopwatch_init_msecs_expire(&sw, PCR_SBI_CMD_TIMEOUT);
do {
if ((pci_read_config16(dev, P2SB_CR_SBI_STATUS) &
P2SB_CR_SBI_STATUS_BUSY) == 0)
return 0;
} while (!stopwatch_expired(&sw));
return -1;
}
/*
* API to perform sideband communication
*
* Input:
* struct pcr_sbi_msg
* data - read/write for sbi message
* response -
* 0 - successful
* 1 - unsuccessful
* 2 - powered down
* 3 - multi-cast mixed
*
* Output:
* 0: SBI message is successfully completed
* -1: SBI message failure
*/
int pcr_execute_sideband_msg(pci_devfn_t dev, struct pcr_sbi_msg *msg, uint32_t *data,
uint8_t *response)
{
uint32_t sbi_data;
uint16_t sbi_status;
uint16_t sbi_rid;
if (!msg || !data || !response) {
printk(BIOS_ERR, "Pointer checked for NULL Fail! "
"msg = %p \t data = %p \t response = %p\n",
msg, data, response);
return -1;
}
switch (msg->opcode) {
case MEM_READ:
case MEM_WRITE:
case PCI_CONFIG_READ:
case PCI_CONFIG_WRITE:
case PCR_READ:
case PCR_WRITE:
case GPIO_LOCK_UNLOCK:
break;
default:
printk(BIOS_ERR, "SBI Failure: Wrong Input = %x!\n",
msg->opcode);
return -1;
}
if (pci_read_config16(dev, PCI_VENDOR_ID) == 0xffff) {
printk(BIOS_ERR, "SBI Failure: P2SB device Hidden!\n");
return -1;
}
/*
* BWG Section 2.2.1
* 1. Poll P2SB PCI offset D8h[0] = 0b
* Make sure the previous operation is completed.
*/
if (pcr_wait_for_completion(dev)) {
printk(BIOS_ERR, "SBI Failure: Time Out!\n");
return -1;
}
/* Initial Response status */
*response = P2SB_CR_SBI_STATUS_NOT_SUPPORTED;
/*
* 2. Write P2SB PCI offset D0h[31:0] with Address
* and Destination Port ID
*/
pci_write_config32(dev, P2SB_CR_SBI_ADDR,
(msg->pid << P2SB_CR_SBI_DESTID) | msg->offset);
/*
* 3. Write P2SB PCI offset DCh[31:0] with extended address,
* which is expected to be 0
*/
pci_write_config32(dev, P2SB_CR_SBI_EXT_ADDR, msg->offset >> 16);
/*
* 4. Set P2SB PCI offset D8h[15:8] = 00000110b for read
* Set P2SB PCI offset D8h[15:8] = 00000111b for write
*
* Set SBISTAT[15:8] to the opcode passed in
* Set SBISTAT[7] to the posted passed in
*/
sbi_status = pci_read_config16(dev, P2SB_CR_SBI_STATUS);
sbi_status &= ~(P2SB_CR_SBI_OPCODE_MASK | P2SB_CR_SBI_POSTED_MASK);
sbi_status |= (msg->opcode << P2SB_CR_SBI_OPCODE) |
(msg->is_posted << P2SB_CR_SBI_POSTED);
pci_write_config16(dev, P2SB_CR_SBI_STATUS, sbi_status);
/*
* 5. Write P2SB PCI offset DAh[15:0] = F000h
*
* Set RID[15:0] = Fbe << 12 | Bar << 8 | Fid
*/
sbi_rid = ((msg->fast_byte_enable & P2SB_CR_SBI_FBE_MASK)
<< P2SB_CR_SBI_FBE) |
((msg->bar & P2SB_CR_SBI_MASK) << P2SB_CR_SBI_BAR) |
(msg->fid & P2SB_CR_SBI_FID_MASK);
pci_write_config16(dev, P2SB_CR_SBI_ROUTE_IDEN, sbi_rid);
switch (msg->opcode) {
case MEM_WRITE:
case PCI_CONFIG_WRITE:
case PCR_WRITE:
case GPIO_LOCK_UNLOCK:
/*
* 6. Write P2SB PCI offset D4h[31:0] with the
* intended data accordingly
*/
sbi_data = *data;
pci_write_config32(dev, P2SB_CR_SBI_DATA, sbi_data);
break;
default:
/* 6. Write P2SB PCI offset D4h[31:0] with dummy data */
pci_write_config32(dev, P2SB_CR_SBI_DATA, 0);
break;
}
/*
* 7. Set P2SB PCI offset D8h[0] = 1b, Poll P2SB PCI offset D8h[0] = 0b
*
* Set SBISTAT[0] = 1b, trigger the SBI operation
*/
sbi_status = pci_read_config16(dev, P2SB_CR_SBI_STATUS);
sbi_status |= P2SB_CR_SBI_STATUS_BUSY;
pci_write_config16(dev, P2SB_CR_SBI_STATUS, sbi_status);
/* Poll SBISTAT[0] = 0b, Polling for Busy bit */
if (pcr_wait_for_completion(dev)) {
printk(BIOS_ERR, "SBI Failure: Time Out!\n");
return -1;
}
/*
* 8. Check if P2SB PCI offset D8h[2:1] = 00b for
* successful transaction
*/
*response = (sbi_status & P2SB_CR_SBI_STATUS_MASK) >> 1;
if (*response == P2SB_CR_SBI_STATUS_SUCCESS) {
switch (msg->opcode) {
case MEM_READ:
case PCI_CONFIG_READ:
case PCR_READ:
sbi_data = pci_read_config32(dev, P2SB_CR_SBI_DATA);
*data = sbi_data;
break;
default:
break;
}
return 0;
}
printk(BIOS_ERR, "SBI Failure: Transaction Status = %x\n",
*response);
return -1;
}
#endif
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