inteltool: Support dumping IOBP register values

This patch also adds LynxPoint and WildcatPoint-LP IOBP registers,
which is used to get the USB and SATA configuration values for
autoport.

Change-Id: I1f11640fdff59a5317f19057476f7e48c2956ab9
Signed-off-by: Iru Cai <mytbk920423@gmail.com>
Reviewed-on: https://review.coreboot.org/c/coreboot/+/41473
Reviewed-by: Angel Pons <th3fanbus@gmail.com>
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
This commit is contained in:
Iru Cai 2019-07-14 23:04:05 +08:00 committed by Felix Held
parent 60d0a30497
commit ab5cac2c79
4 changed files with 324 additions and 1 deletions

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@ -16,7 +16,7 @@ CPPFLAGS += -I$(top)/src/arch/x86/include
OBJS = inteltool.o pcr.o cpu.o gpio.o gpio_groups.o rootcmplx.o powermgt.o \ OBJS = inteltool.o pcr.o cpu.o gpio.o gpio_groups.o rootcmplx.o powermgt.o \
memory.o pcie.o amb.o ivy_memory.o spi.o gfx.o ahci.o lpc.o memory.o pcie.o amb.o ivy_memory.o spi.o gfx.o ahci.o lpc.o iobp.o
OS_ARCH = $(shell uname) OS_ARCH = $(shell uname)
ifeq ($(OS_ARCH), Darwin) ifeq ($(OS_ARCH), Darwin)

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@ -401,6 +401,7 @@ int print_mchbar(struct pci_dev *nb, struct pci_access *pacc, const char *dump_s
int print_pmbase(struct pci_dev *sb, struct pci_access *pacc); int print_pmbase(struct pci_dev *sb, struct pci_access *pacc);
int print_lpc(struct pci_dev *sb, struct pci_access *pacc); int print_lpc(struct pci_dev *sb, struct pci_access *pacc);
int print_rcba(struct pci_dev *sb); int print_rcba(struct pci_dev *sb);
void print_iobp(struct pci_dev *sb, volatile uint8_t *rcba);
int print_gpios(struct pci_dev *sb, int show_all, int show_diffs); int print_gpios(struct pci_dev *sb, int show_all, int show_diffs);
const struct gpio_community *const *get_gpio_communities(struct pci_dev *const sb, const struct gpio_community *const *get_gpio_communities(struct pci_dev *const sb,
size_t* community_count, size_t* community_count,

320
util/inteltool/iobp.c Normal file
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@ -0,0 +1,320 @@
/* inteltool - dump all registers on an Intel CPU + chipset based system */
/* SPDX-License-Identifier: GPL-2.0-only */
#include <stdio.h>
#include <stdlib.h>
#include "inteltool.h"
#define RCBA16(rcba, x) (*((volatile u16 *)((rcba) + (x))))
#define RCBA32(rcba, x) (*((volatile u32 *)((rcba) + (x))))
/* IO Buffer Programming */
#define IOBPIRI 0x2330
#define IOBPD 0x2334
#define IOBPS 0x2338
#define IOBPS_READY 0x0001
#define IOBPS_TX_MASK 0x0006
#define IOBPS_MASK 0xff00
#define IOBPS_READ 0x0600
#define IOBPS_WRITE 0x0700
#define IOBPU 0x233a
#define IOBPU_MAGIC 0xf000
#define IOBP_RETRY 1000
static inline int iobp_poll(volatile uint8_t *rcba)
{
for (int try = IOBP_RETRY; try > 0; try--) {
u16 status = RCBA16(rcba, IOBPS);
if ((status & IOBPS_READY) == 0)
return 1;
// udelay(10);
}
printf("IOBP: timeout waiting for transaction to complete\n");
return 0;
}
static u32 pch_iobp_read(volatile uint8_t *rcba, u32 address)
{
u16 status;
if (!iobp_poll(rcba))
return 0;
/* Set the address */
RCBA32(rcba, IOBPIRI) = address;
/* READ OPCODE */
status = RCBA16(rcba, IOBPS);
status &= ~IOBPS_MASK;
status |= IOBPS_READ;
RCBA16(rcba, IOBPS) = status;
/* Undocumented magic */
RCBA16(rcba, IOBPU) = IOBPU_MAGIC;
/* Set ready bit */
status = RCBA16(rcba, IOBPS);
status |= IOBPS_READY;
RCBA16(rcba, IOBPS) = status;
if (!iobp_poll(rcba))
return 0;
/* Check for successful transaction */
status = RCBA16(rcba, IOBPS);
if (status & IOBPS_TX_MASK) {
printf("IOBP: read 0x%08x failed\n", address);
return 0;
}
/* Read IOBP data */
return RCBA32(rcba, IOBPD);
}
struct iobp_register {
u32 addr;
const char *name;
};
static const struct iobp_register lynxpoint_iobp_registers[] = {
/* SATA Electrical Control Register */
{0xea002488, "SECRT88P0"},
{0xea00248c, "SECRT8CP0"},
{0xea002490, "SECRT90P0"},
{0xea002498, "SECRT98P0"},
{0xea00251c, "SECRR1CP0"},
{0xea002550, "SECRR50P0"},
{0xea002554, "SECRR54P0"},
{0xea002558, "SECRR58P0"},
{0xea002688, "SECRT88P1"},
{0xea00268c, "SECRT8CP1"},
{0xea002690, "SECRT90P1"},
{0xea002698, "SECRT98P1"},
{0xea00271c, "SECRR1CP1"},
{0xea002750, "SECRR50P1"},
{0xea002754, "SECRR54P1"},
{0xea002758, "SECRR58P1"},
{0xea000888, "SECRT88P2"},
{0xea00088c, "SECRT8CP2"},
{0xea000890, "SECRT90P2"},
{0xea000898, "SECRT98P2"},
{0xea00091c, "SECRR1CP2"},
{0xea000950, "SECRR50P2"},
{0xea000954, "SECRR54P2"},
{0xea000958, "SECRR58P2"},
{0xea000a88, "SECRT88P3"},
{0xea000a8c, "SECRT8CP3"},
{0xea000a90, "SECRT90P3"},
{0xea000a98, "SECRT98P3"},
{0xea000b1c, "SECRR1CP3"},
{0xea000b50, "SECRR50P3"},
{0xea000b54, "SECRR54P3"},
{0xea000b58, "SECRR58P3"},
{0xea002088, "SECRT88P4"},
{0xea00208c, "SECRT8CP4"},
{0xea002090, "SECRT90P4"},
{0xea002098, "SECRT98P4"},
{0xea00211c, "SECRR1CP4"},
{0xea002150, "SECRR50P4"},
{0xea002154, "SECRR54P4"},
{0xea002158, "SECRR58P4"},
{0xea002288, "SECRT88P5"},
{0xea00228c, "SECRT8CP5"},
{0xea002290, "SECRT90P5"},
{0xea002298, "SECRT98P5"},
{0xea00231c, "SECRR1CP5"},
{0xea002350, "SECRR50P5"},
{0xea002354, "SECRR54P5"},
{0xea002358, "SECRR58P5"},
{0xea008100, "SECRF00"},
{0xea008104, "SECRF04"},
/* USB 2.0 Electrical Control Register */
{0xe5004100, "U2ECRP01"},
{0xe5004200, "U2ECRP02"},
{0xe5004300, "U2ECRP03"},
{0xe5004400, "U2ECRP04"},
{0xe5004500, "U2ECRP05"},
{0xe5004600, "U2ECRP06"},
{0xe5004700, "U2ECRP07"},
{0xe5004800, "U2ECRP08"},
{0xe5004900, "U2ECRP09"},
{0xe5004a00, "U2ECRP10"},
{0xe5004b00, "U2ECRP11"},
{0xe5004c00, "U2ECRP12"},
{0xe5004d00, "U2ECRP13"},
{0xe5004e00, "U2ECRP14"},
/* IOBP related to USB 3.0 ports */
/* port 1 */
{0xe900175c, ""},
{0xe9001760, ""},
{0xe9001768, ""},
{0xe9001770, ""},
{0xe90017cc, ""},
/* port 2 */
{0xe900155c, ""},
{0xe9001560, ""},
{0xe9001568, ""},
{0xe9001570, ""},
{0xe90015cc, ""},
/* port 3 */
{0xe9002f5c, ""},
{0xe9002f60, ""},
{0xe9002f68, ""},
{0xe9002f70, ""},
{0xe9002fcc, ""},
/* port 4 */
{0xe9002d5c, ""},
{0xe9002d60, ""},
{0xe9002d68, ""},
{0xe9002d70, ""},
{0xe9002dcc, ""},
/* port 5 */
{0xe900335c, ""},
{0xe9003360, ""},
{0xe9003368, ""},
{0xe9003370, ""},
{0xe90033cc, ""},
/* port 6 */
{0xe900315c, ""},
{0xe9003160, ""},
{0xe9003168, ""},
{0xe9003170, ""},
{0xe90031cc, ""},
};
static const struct iobp_register lynxpoint_lp_iobp_registers[] = {
/* SATA Electrical Control Register */
{0xea002688, "SECRT88P0"},
{0xea00268c, "SECRT8CP0"},
{0xea002690, "SECRT90P0"},
{0xea002698, "SECRT98P0"},
{0xea00271c, "SECRR1CP0"},
{0xea002750, "SECRR50P0"},
{0xea002754, "SECRR54P0"},
{0xea002758, "SECRR58P0"},
{0xea002488, "SECRT88P1"},
{0xea00248c, "SECRT8CP1"},
{0xea002490, "SECRT90P1"},
{0xea002498, "SECRT98P1"},
{0xea00251c, "SECRR1CP1"},
{0xea002550, "SECRR50P1"},
{0xea002554, "SECRR54P1"},
{0xea002558, "SECRR58P1"},
{0xea002288, "SECRT88P2"},
{0xea00228c, "SECRT8CP2"},
{0xea002290, "SECRT90P2"},
{0xea002298, "SECRT98P2"},
{0xea00231c, "SECRR1CP2"},
{0xea002350, "SECRR50P2"},
{0xea002354, "SECRR54P2"},
{0xea002358, "SECRR58P2"},
{0xea002088, "SECRT88P3"},
{0xea00208c, "SECRT8CP3"},
{0xea002090, "SECRT90P3"},
{0xea002098, "SECRT98P3"},
{0xea00211c, "SECRR1CP3"},
{0xea002150, "SECRR50P3"},
{0xea002154, "SECRR54P3"},
{0xea002158, "SECRR58P3"},
{0xea008100, "SECRF00"},
{0xea008104, "SECRF04"},
/* USB 2.0 Electrical Control Register, 8 for -U SoC and 10 for Core-M */
{0xe5004100, "U2ECRP01"},
{0xe5004200, "U2ECRP02"},
{0xe5004300, "U2ECRP03"},
{0xe5004400, "U2ECRP04"},
{0xe5004500, "U2ECRP05"},
{0xe5004600, "U2ECRP06"},
{0xe5004700, "U2ECRP07"},
{0xe5004800, "U2ECRP08"},
{0xe5004900, "U2ECRP09"},
{0xe5004a00, "U2ECRP10"},
/* IOBP related to USB 3.0 ports */
/* port 1 */
{0xe900215c, ""},
{0xe9002160, ""},
{0xe9002168, ""},
{0xe9002170, ""},
{0xe90021cc, ""},
/* port 2 */
{0xe900235c, ""},
{0xe9002360, ""},
{0xe9002368, ""},
{0xe9002370, ""},
{0xe90023cc, ""},
/* port 3 */
{0xe900255c, ""},
{0xe9002560, ""},
{0xe9002568, ""},
{0xe9002570, ""},
{0xe90025cc, ""},
/* port 4 */
{0xe900275c, ""},
{0xe9002760, ""},
{0xe9002768, ""},
{0xe9002770, ""},
{0xe90027cc, ""},
};
void print_iobp(struct pci_dev *sb, volatile uint8_t *rcba)
{
const struct iobp_register *iobp_registers = NULL;
size_t iobp_size = 0;
switch (sb->device_id) {
case PCI_DEVICE_ID_INTEL_C8_MOBILE:
case PCI_DEVICE_ID_INTEL_C8_DESKTOP:
case PCI_DEVICE_ID_INTEL_Z87:
case PCI_DEVICE_ID_INTEL_Z85:
case PCI_DEVICE_ID_INTEL_HM86:
case PCI_DEVICE_ID_INTEL_H87:
case PCI_DEVICE_ID_INTEL_HM87:
case PCI_DEVICE_ID_INTEL_Q85:
case PCI_DEVICE_ID_INTEL_Q87:
case PCI_DEVICE_ID_INTEL_QM87:
case PCI_DEVICE_ID_INTEL_B85:
case PCI_DEVICE_ID_INTEL_C222:
case PCI_DEVICE_ID_INTEL_C224:
case PCI_DEVICE_ID_INTEL_C226:
case PCI_DEVICE_ID_INTEL_H81:
iobp_registers = lynxpoint_iobp_registers;
iobp_size = ARRAY_SIZE(lynxpoint_iobp_registers);
break;
case PCI_DEVICE_ID_INTEL_LYNXPOINT_LP_FULL:
case PCI_DEVICE_ID_INTEL_LYNXPOINT_LP_PREM:
case PCI_DEVICE_ID_INTEL_LYNXPOINT_LP_BASE:
case PCI_DEVICE_ID_INTEL_WILDCATPOINT_LP_PREM:
case PCI_DEVICE_ID_INTEL_WILDCATPOINT_LP:
iobp_registers = lynxpoint_lp_iobp_registers;
iobp_size = ARRAY_SIZE(lynxpoint_lp_iobp_registers);
break;
default:
break;
}
if (iobp_size == 0)
return;
printf("\n============= IOBP ==============\n\n");
for (size_t i = 0; i < iobp_size; i++) {
u32 address = iobp_registers[i].addr;
const char *name = iobp_registers[i].name;
u32 v = pch_iobp_read(rcba, address);
printf("0x%08x: 0x%08x (%s)\n", address, v, name);
}
}

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@ -139,6 +139,8 @@ int print_rcba(struct pci_dev *sb)
printf("0x%04x: 0x%08x\n", i, read32(rcba + i)); printf("0x%04x: 0x%08x\n", i, read32(rcba + i));
} }
print_iobp(sb, rcba);
unmap_physical((void *)rcba, size); unmap_physical((void *)rcba, size);
return 0; return 0;
} }