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|
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2021-2022, NVIDIA CORPORATION. All rights reserved
*
* The driver handles Error's from Control Backbone(CBB) version 2.0.
* generated due to illegal accesses. The driver prints debug information
* about failed transaction on receiving interrupt from Error Notifier.
* Error types supported by CBB2.0 are:
* UNSUPPORTED_ERR, PWRDOWN_ERR, TIMEOUT_ERR, FIREWALL_ERR, DECODE_ERR,
* SLAVE_ERR
*/
#include <linux/acpi.h>
#include <linux/clk.h>
#include <linux/cpufeature.h>
#include <linux/debugfs.h>
#include <linux/module.h>
#include <linux/of.h>
#include <linux/of_device.h>
#include <linux/platform_device.h>
#include <linux/device.h>
#include <linux/io.h>
#include <linux/of_irq.h>
#include <linux/of_address.h>
#include <linux/interrupt.h>
#include <linux/ioport.h>
#include <linux/version.h>
#include <soc/tegra/fuse.h>
#include <soc/tegra/tegra-cbb.h>
#define FABRIC_EN_CFG_INTERRUPT_ENABLE_0_0 0x0
#define FABRIC_EN_CFG_STATUS_0_0 0x40
#define FABRIC_EN_CFG_ADDR_INDEX_0_0 0x60
#define FABRIC_EN_CFG_ADDR_LOW_0 0x80
#define FABRIC_EN_CFG_ADDR_HI_0 0x84
#define FABRIC_MN_MASTER_ERR_EN_0 0x200
#define FABRIC_MN_MASTER_ERR_FORCE_0 0x204
#define FABRIC_MN_MASTER_ERR_STATUS_0 0x208
#define FABRIC_MN_MASTER_ERR_OVERFLOW_STATUS_0 0x20c
#define FABRIC_MN_MASTER_LOG_ERR_STATUS_0 0x300
#define FABRIC_MN_MASTER_LOG_ADDR_LOW_0 0x304
#define FABRIC_MN_MASTER_LOG_ADDR_HIGH_0 0x308
#define FABRIC_MN_MASTER_LOG_ATTRIBUTES0_0 0x30c
#define FABRIC_MN_MASTER_LOG_ATTRIBUTES1_0 0x310
#define FABRIC_MN_MASTER_LOG_ATTRIBUTES2_0 0x314
#define FABRIC_MN_MASTER_LOG_USER_BITS0_0 0x318
#define AXI_SLV_TIMEOUT_STATUS_0_0 0x8
#define APB_BLOCK_TMO_STATUS_0 0xc00
#define APB_BLOCK_NUM_TMO_OFFSET 0x20
#define FAB_EM_EL_MSTRID GENMASK(29, 24)
#define FAB_EM_EL_VQC GENMASK(17, 16)
#define FAB_EM_EL_GRPSEC GENMASK(14, 8)
#define FAB_EM_EL_FALCONSEC GENMASK(1, 0)
#define FAB_EM_EL_FABID GENMASK(20, 16)
#define FAB_EM_EL_SLAVEID GENMASK(7, 0)
#define FAB_EM_EL_ACCESSID GENMASK(7, 0)
#define FAB_EM_EL_AXCACHE GENMASK(27, 24)
#define FAB_EM_EL_AXPROT GENMASK(22, 20)
#define FAB_EM_EL_BURSTLENGTH GENMASK(19, 12)
#define FAB_EM_EL_BURSTTYPE GENMASK(9, 8)
#define FAB_EM_EL_BEATSIZE GENMASK(6, 4)
#define FAB_EM_EL_ACCESSTYPE GENMASK(0, 0)
#define USRBITS_MSTR_ID GENMASK(29, 24)
#define REQ_SOCKET_ID GENMASK(27, 24)
enum tegra234_cbb_fabric_ids {
CBB_FAB_ID,
SCE_FAB_ID,
RCE_FAB_ID,
DCE_FAB_ID,
AON_FAB_ID,
PSC_FAB_ID,
BPMP_FAB_ID,
FSI_FAB_ID,
MAX_FAB_ID,
};
struct tegra234_slave_lookup {
const char *name;
unsigned int offset;
};
struct tegra234_cbb_fabric {
const char *name;
phys_addr_t off_mask_erd;
bool erd_mask_inband_err;
const char * const *master_id;
unsigned int notifier_offset;
const struct tegra_cbb_error *errors;
const struct tegra234_slave_lookup *slave_map;
};
struct tegra234_cbb {
struct tegra_cbb base;
const struct tegra234_cbb_fabric *fabric;
struct resource *res;
void __iomem *regs;
int num_intr;
int sec_irq;
/* record */
void __iomem *mon;
unsigned int type;
u32 mask;
u64 access;
u32 mn_attr0;
u32 mn_attr1;
u32 mn_attr2;
u32 mn_user_bits;
};
static inline struct tegra234_cbb *to_tegra234_cbb(struct tegra_cbb *cbb)
{
return container_of(cbb, struct tegra234_cbb, base);
}
static LIST_HEAD(cbb_list);
static DEFINE_SPINLOCK(cbb_lock);
static void tegra234_cbb_fault_enable(struct tegra_cbb *cbb)
{
struct tegra234_cbb *priv = to_tegra234_cbb(cbb);
void __iomem *addr;
addr = priv->regs + priv->fabric->notifier_offset;
writel(0x1ff, addr + FABRIC_EN_CFG_INTERRUPT_ENABLE_0_0);
dsb(sy);
}
static void tegra234_cbb_error_clear(struct tegra_cbb *cbb)
{
struct tegra234_cbb *priv = to_tegra234_cbb(cbb);
writel(0x3f, priv->mon + FABRIC_MN_MASTER_ERR_STATUS_0);
dsb(sy);
}
static u32 tegra234_cbb_get_status(struct tegra_cbb *cbb)
{
struct tegra234_cbb *priv = to_tegra234_cbb(cbb);
void __iomem *addr;
u32 value;
addr = priv->regs + priv->fabric->notifier_offset;
value = readl(addr + FABRIC_EN_CFG_STATUS_0_0);
dsb(sy);
return value;
}
static void tegra234_cbb_mask_serror(struct tegra234_cbb *cbb)
{
writel(0x1, cbb->regs + cbb->fabric->off_mask_erd);
dsb(sy);
}
static u32 tegra234_cbb_get_tmo_slv(void __iomem *addr)
{
u32 timeout;
timeout = readl(addr);
return timeout;
}
static void tegra234_cbb_tmo_slv(struct seq_file *file, const char *slave, void __iomem *addr,
u32 status)
{
tegra_cbb_print_err(file, "\t %s : %#x\n", slave, status);
}
static void tegra234_cbb_lookup_apbslv(struct seq_file *file, const char *slave,
void __iomem *base)
{
unsigned int block = 0;
void __iomem *addr;
char name[64];
u32 status;
status = tegra234_cbb_get_tmo_slv(base);
if (status)
tegra_cbb_print_err(file, "\t %s_BLOCK_TMO_STATUS : %#x\n", slave, status);
while (status) {
if (status & BIT(0)) {
u32 timeout, clients, client = 0;
addr = base + APB_BLOCK_NUM_TMO_OFFSET + (block * 4);
timeout = tegra234_cbb_get_tmo_slv(addr);
clients = timeout;
while (timeout) {
if (timeout & BIT(0)) {
if (clients != 0xffffffff)
clients &= BIT(client);
sprintf(name, "%s_BLOCK%d_TMO", slave, block);
tegra234_cbb_tmo_slv(file, name, addr, clients);
}
timeout >>= 1;
client++;
}
}
status >>= 1;
block++;
}
}
static void tegra234_lookup_slave_timeout(struct seq_file *file, struct tegra234_cbb *cbb,
u8 slave_id, u8 fab_id)
{
const struct tegra234_slave_lookup *map = cbb->fabric->slave_map;
void __iomem *addr;
/*
* 1) Get slave node name and address mapping using slave_id.
* 2) Check if the timed out slave node is APB or AXI.
* 3) If AXI, then print timeout register and reset axi slave
* using <FABRIC>_SN_<>_SLV_TIMEOUT_STATUS_0_0 register.
* 4) If APB, then perform an additional lookup to find the client
* which timed out.
* a) Get block number from the index of set bit in
* <FABRIC>_SN_AXI2APB_<>_BLOCK_TMO_STATUS_0 register.
* b) Get address of register repective to block number i.e.
* <FABRIC>_SN_AXI2APB_<>_BLOCK<index-set-bit>_TMO_0.
* c) Read the register in above step to get client_id which
* timed out as per the set bits.
* d) Reset the timedout client and print details.
* e) Goto step-a till all bits are set.
*/
addr = cbb->regs + map[slave_id].offset;
if (strstr(map[slave_id].name, "AXI2APB")) {
addr += APB_BLOCK_TMO_STATUS_0;
tegra234_cbb_lookup_apbslv(file, map[slave_id].name, addr);
} else {
char name[64];
u32 status;
addr += AXI_SLV_TIMEOUT_STATUS_0_0;
status = tegra234_cbb_get_tmo_slv(addr);
if (status) {
sprintf(name, "%s_SLV_TIMEOUT_STATUS", map[slave_id].name);
tegra234_cbb_tmo_slv(file, name, addr, status);
}
}
}
static void tegra234_cbb_print_error(struct seq_file *file, struct tegra234_cbb *cbb, u32 status,
u32 overflow)
{
unsigned int type = 0;
if (status & (status - 1))
tegra_cbb_print_err(file, "\t Multiple type of errors reported\n");
while (status) {
if (status & 0x1)
tegra_cbb_print_err(file, "\t Error Code\t\t: %s\n",
cbb->fabric->errors[type].code);
status >>= 1;
type++;
}
type = 0;
while (overflow) {
if (overflow & 0x1)
tegra_cbb_print_err(file, "\t Overflow\t\t: Multiple %s\n",
cbb->fabric->errors[type].code);
overflow >>= 1;
type++;
}
}
static void print_errlog_err(struct seq_file *file, struct tegra234_cbb *cbb)
{
u8 cache_type, prot_type, burst_length, mstr_id, grpsec, vqc, falconsec, beat_size;
u8 access_type, access_id, requester_socket_id, local_socket_id, slave_id, fab_id;
char fabric_name[20];
bool is_numa = false;
u8 burst_type;
if (num_possible_nodes() > 1)
is_numa = true;
mstr_id = FIELD_GET(FAB_EM_EL_MSTRID, cbb->mn_user_bits);
vqc = FIELD_GET(FAB_EM_EL_VQC, cbb->mn_user_bits);
grpsec = FIELD_GET(FAB_EM_EL_GRPSEC, cbb->mn_user_bits);
falconsec = FIELD_GET(FAB_EM_EL_FALCONSEC, cbb->mn_user_bits);
/*
* For SOC with multiple NUMA nodes, print cross socket access
* errors only if initiator/master_id is CCPLEX, CPMU or GPU.
*/
if (is_numa) {
local_socket_id = numa_node_id();
requester_socket_id = FIELD_GET(REQ_SOCKET_ID, cbb->mn_attr2);
if (requester_socket_id != local_socket_id) {
if ((mstr_id != 0x1) && (mstr_id != 0x2) && (mstr_id != 0xB))
return;
}
}
fab_id = FIELD_GET(FAB_EM_EL_FABID, cbb->mn_attr2);
slave_id = FIELD_GET(FAB_EM_EL_SLAVEID, cbb->mn_attr2);
access_id = FIELD_GET(FAB_EM_EL_ACCESSID, cbb->mn_attr1);
cache_type = FIELD_GET(FAB_EM_EL_AXCACHE, cbb->mn_attr0);
prot_type = FIELD_GET(FAB_EM_EL_AXPROT, cbb->mn_attr0);
burst_length = FIELD_GET(FAB_EM_EL_BURSTLENGTH, cbb->mn_attr0);
burst_type = FIELD_GET(FAB_EM_EL_BURSTTYPE, cbb->mn_attr0);
beat_size = FIELD_GET(FAB_EM_EL_BEATSIZE, cbb->mn_attr0);
access_type = FIELD_GET(FAB_EM_EL_ACCESSTYPE, cbb->mn_attr0);
tegra_cbb_print_err(file, "\n");
tegra_cbb_print_err(file, "\t Error Code\t\t: %s\n",
cbb->fabric->errors[cbb->type].code);
tegra_cbb_print_err(file, "\t MASTER_ID\t\t: %s\n", cbb->fabric->master_id[mstr_id]);
tegra_cbb_print_err(file, "\t Address\t\t: %#llx\n", cbb->access);
tegra_cbb_print_cache(file, cache_type);
tegra_cbb_print_prot(file, prot_type);
tegra_cbb_print_err(file, "\t Access_Type\t\t: %s", (access_type) ? "Write\n" : "Read\n");
tegra_cbb_print_err(file, "\t Access_ID\t\t: %#x", access_id);
if (fab_id == PSC_FAB_ID)
strcpy(fabric_name, "psc-fabric");
else if (fab_id == FSI_FAB_ID)
strcpy(fabric_name, "fsi-fabric");
else
strcpy(fabric_name, cbb->fabric->name);
if (is_numa) {
tegra_cbb_print_err(file, "\t Requester_Socket_Id\t: %#x\n",
requester_socket_id);
tegra_cbb_print_err(file, "\t Local_Socket_Id\t: %#x\n",
local_socket_id);
tegra_cbb_print_err(file, "\t No. of NUMA_NODES\t: %#x\n",
num_possible_nodes());
}
tegra_cbb_print_err(file, "\t Fabric\t\t: %s\n", fabric_name);
tegra_cbb_print_err(file, "\t Slave_Id\t\t: %#x\n", slave_id);
tegra_cbb_print_err(file, "\t Burst_length\t\t: %#x\n", burst_length);
tegra_cbb_print_err(file, "\t Burst_type\t\t: %#x\n", burst_type);
tegra_cbb_print_err(file, "\t Beat_size\t\t: %#x\n", beat_size);
tegra_cbb_print_err(file, "\t VQC\t\t\t: %#x\n", vqc);
tegra_cbb_print_err(file, "\t GRPSEC\t\t: %#x\n", grpsec);
tegra_cbb_print_err(file, "\t FALCONSEC\t\t: %#x\n", falconsec);
if ((fab_id == PSC_FAB_ID) || (fab_id == FSI_FAB_ID))
return;
if (!strcmp(cbb->fabric->errors[cbb->type].code, "TIMEOUT_ERR")) {
tegra234_lookup_slave_timeout(file, cbb, slave_id, fab_id);
return;
}
tegra_cbb_print_err(file, "\t Slave\t\t\t: %s\n", cbb->fabric->slave_map[slave_id].name);
}
static int print_errmonX_info(struct seq_file *file, struct tegra234_cbb *cbb)
{
u32 overflow, status, error;
status = readl(cbb->mon + FABRIC_MN_MASTER_ERR_STATUS_0);
if (!status) {
pr_err("Error Notifier received a spurious notification\n");
return -ENODATA;
}
if (status == 0xffffffff) {
pr_err("CBB registers returning all 1's which is invalid\n");
return -EINVAL;
}
overflow = readl(cbb->mon + FABRIC_MN_MASTER_ERR_OVERFLOW_STATUS_0);
tegra234_cbb_print_error(file, cbb, status, overflow);
error = readl(cbb->mon + FABRIC_MN_MASTER_LOG_ERR_STATUS_0);
if (!error) {
pr_info("Error Monitor doesn't have Error Logger\n");
return -EINVAL;
}
cbb->type = 0;
while (error) {
if (error & BIT(0)) {
u32 hi, lo;
hi = readl(cbb->mon + FABRIC_MN_MASTER_LOG_ADDR_HIGH_0);
lo = readl(cbb->mon + FABRIC_MN_MASTER_LOG_ADDR_LOW_0);
cbb->access = (u64)hi << 32 | lo;
cbb->mn_attr0 = readl(cbb->mon + FABRIC_MN_MASTER_LOG_ATTRIBUTES0_0);
cbb->mn_attr1 = readl(cbb->mon + FABRIC_MN_MASTER_LOG_ATTRIBUTES1_0);
cbb->mn_attr2 = readl(cbb->mon + FABRIC_MN_MASTER_LOG_ATTRIBUTES2_0);
cbb->mn_user_bits = readl(cbb->mon + FABRIC_MN_MASTER_LOG_USER_BITS0_0);
print_errlog_err(file, cbb);
}
cbb->type++;
error >>= 1;
}
return 0;
}
static int print_err_notifier(struct seq_file *file, struct tegra234_cbb *cbb, u32 status)
{
unsigned int index = 0;
int err;
pr_crit("**************************************\n");
pr_crit("CPU:%d, Error:%s, Errmon:%d\n", smp_processor_id(),
cbb->fabric->name, status);
while (status) {
if (status & BIT(0)) {
unsigned int notifier = cbb->fabric->notifier_offset;
u32 hi, lo, mask = BIT(index);
phys_addr_t addr;
u64 offset;
writel(mask, cbb->regs + notifier + FABRIC_EN_CFG_ADDR_INDEX_0_0);
hi = readl(cbb->regs + notifier + FABRIC_EN_CFG_ADDR_HI_0);
lo = readl(cbb->regs + notifier + FABRIC_EN_CFG_ADDR_LOW_0);
addr = (u64)hi << 32 | lo;
offset = addr - cbb->res->start;
cbb->mon = cbb->regs + offset;
cbb->mask = BIT(index);
err = print_errmonX_info(file, cbb);
tegra234_cbb_error_clear(&cbb->base);
if (err)
return err;
}
status >>= 1;
index++;
}
tegra_cbb_print_err(file, "\t**************************************\n");
return 0;
}
#ifdef CONFIG_DEBUG_FS
static DEFINE_MUTEX(cbb_debugfs_mutex);
static int tegra234_cbb_debugfs_show(struct tegra_cbb *cbb, struct seq_file *file, void *data)
{
int err = 0;
mutex_lock(&cbb_debugfs_mutex);
list_for_each_entry(cbb, &cbb_list, node) {
struct tegra234_cbb *priv = to_tegra234_cbb(cbb);
u32 status;
status = tegra_cbb_get_status(&priv->base);
if (status) {
err = print_err_notifier(file, priv, status);
if (err)
break;
}
}
mutex_unlock(&cbb_debugfs_mutex);
return err;
}
#endif
/*
* Handler for CBB errors
*/
static irqreturn_t tegra234_cbb_isr(int irq, void *data)
{
bool is_inband_err = false;
struct tegra_cbb *cbb;
unsigned long flags;
u8 mstr_id;
int err;
spin_lock_irqsave(&cbb_lock, flags);
list_for_each_entry(cbb, &cbb_list, node) {
struct tegra234_cbb *priv = to_tegra234_cbb(cbb);
u32 status = tegra_cbb_get_status(cbb);
if (status && (irq == priv->sec_irq)) {
tegra_cbb_print_err(NULL, "CPU:%d, Error: %s@%llx, irq=%d\n",
smp_processor_id(), priv->fabric->name,
priv->res->start, irq);
err = print_err_notifier(NULL, priv, status);
if (err)
goto unlock;
mstr_id = FIELD_GET(USRBITS_MSTR_ID, priv->mn_user_bits);
/*
* If illegal request is from CCPLEX(id:0x1) master then call BUG() to
* crash system.
*/
if ((mstr_id == 0x1) && priv->fabric->off_mask_erd)
is_inband_err = 1;
}
}
unlock:
spin_unlock_irqrestore(&cbb_lock, flags);
WARN_ON(is_inband_err);
return IRQ_HANDLED;
}
/*
* Register handler for CBB_SECURE interrupt for reporting errors
*/
static int tegra234_cbb_interrupt_enable(struct tegra_cbb *cbb)
{
struct tegra234_cbb *priv = to_tegra234_cbb(cbb);
if (priv->sec_irq) {
int err = devm_request_irq(cbb->dev, priv->sec_irq, tegra234_cbb_isr, 0,
dev_name(cbb->dev), priv);
if (err) {
dev_err(cbb->dev, "failed to register interrupt %u: %d\n", priv->sec_irq,
err);
return err;
}
}
return 0;
}
static void tegra234_cbb_error_enable(struct tegra_cbb *cbb)
{
tegra_cbb_fault_enable(cbb);
}
static const struct tegra_cbb_ops tegra234_cbb_ops = {
.get_status = tegra234_cbb_get_status,
.error_clear = tegra234_cbb_error_clear,
.fault_enable = tegra234_cbb_fault_enable,
.error_enable = tegra234_cbb_error_enable,
.interrupt_enable = tegra234_cbb_interrupt_enable,
#ifdef CONFIG_DEBUG_FS
.debugfs_show = tegra234_cbb_debugfs_show,
#endif
};
static const char * const tegra234_master_id[] = {
[0x00] = "TZ",
[0x01] = "CCPLEX",
[0x02] = "CCPMU",
[0x03] = "BPMP_FW",
[0x04] = "AON",
[0x05] = "SCE",
[0x06] = "GPCDMA_P",
[0x07] = "TSECA_NONSECURE",
[0x08] = "TSECA_LIGHTSECURE",
[0x09] = "TSECA_HEAVYSECURE",
[0x0a] = "CORESIGHT",
[0x0b] = "APE",
[0x0c] = "PEATRANS",
[0x0d] = "JTAGM_DFT",
[0x0e] = "RCE",
[0x0f] = "DCE",
[0x10] = "PSC_FW_USER",
[0x11] = "PSC_FW_SUPERVISOR",
[0x12] = "PSC_FW_MACHINE",
[0x13] = "PSC_BOOT",
[0x14] = "BPMP_BOOT",
[0x15] = "NVDEC_NONSECURE",
[0x16] = "NVDEC_LIGHTSECURE",
[0x17] = "NVDEC_HEAVYSECURE",
[0x18] = "CBB_INTERNAL",
[0x19] = "RSVD"
};
static const struct tegra_cbb_error tegra234_cbb_errors[] = {
{
.code = "SLAVE_ERR",
.desc = "Slave being accessed responded with an error"
}, {
.code = "DECODE_ERR",
.desc = "Attempt to access an address hole"
}, {
.code = "FIREWALL_ERR",
.desc = "Attempt to access a region which is firewall protected"
}, {
.code = "TIMEOUT_ERR",
.desc = "No response returned by slave"
}, {
.code = "PWRDOWN_ERR",
.desc = "Attempt to access a portion of fabric that is powered down"
}, {
.code = "UNSUPPORTED_ERR",
.desc = "Attempt to access a slave through an unsupported access"
}
};
static const struct tegra234_slave_lookup tegra234_aon_slave_map[] = {
{ "AXI2APB", 0x00000 },
{ "AST", 0x14000 },
{ "CBB", 0x15000 },
{ "CPU", 0x16000 },
};
static const struct tegra234_cbb_fabric tegra234_aon_fabric = {
.name = "aon-fabric",
.master_id = tegra234_master_id,
.slave_map = tegra234_aon_slave_map,
.errors = tegra234_cbb_errors,
.notifier_offset = 0x17000,
};
static const struct tegra234_slave_lookup tegra234_bpmp_slave_map[] = {
{ "AXI2APB", 0x00000 },
{ "AST0", 0x15000 },
{ "AST1", 0x16000 },
{ "CBB", 0x17000 },
{ "CPU", 0x18000 },
};
static const struct tegra234_cbb_fabric tegra234_bpmp_fabric = {
.name = "bpmp-fabric",
.master_id = tegra234_master_id,
.slave_map = tegra234_bpmp_slave_map,
.errors = tegra234_cbb_errors,
.notifier_offset = 0x19000,
};
static const struct tegra234_slave_lookup tegra234_cbb_slave_map[] = {
{ "AON", 0x40000 },
{ "BPMP", 0x41000 },
{ "CBB", 0x42000 },
{ "HOST1X", 0x43000 },
{ "STM", 0x44000 },
{ "FSI", 0x45000 },
{ "PSC", 0x46000 },
{ "PCIE_C1", 0x47000 },
{ "PCIE_C2", 0x48000 },
{ "PCIE_C3", 0x49000 },
{ "PCIE_C0", 0x4a000 },
{ "PCIE_C4", 0x4b000 },
{ "GPU", 0x4c000 },
{ "SMMU0", 0x4d000 },
{ "SMMU1", 0x4e000 },
{ "SMMU2", 0x4f000 },
{ "SMMU3", 0x50000 },
{ "SMMU4", 0x51000 },
{ "PCIE_C10", 0x52000 },
{ "PCIE_C7", 0x53000 },
{ "PCIE_C8", 0x54000 },
{ "PCIE_C9", 0x55000 },
{ "PCIE_C5", 0x56000 },
{ "PCIE_C6", 0x57000 },
{ "DCE", 0x58000 },
{ "RCE", 0x59000 },
{ "SCE", 0x5a000 },
{ "AXI2APB_1", 0x70000 },
{ "AXI2APB_10", 0x71000 },
{ "AXI2APB_11", 0x72000 },
{ "AXI2APB_12", 0x73000 },
{ "AXI2APB_13", 0x74000 },
{ "AXI2APB_14", 0x75000 },
{ "AXI2APB_15", 0x76000 },
{ "AXI2APB_16", 0x77000 },
{ "AXI2APB_17", 0x78000 },
{ "AXI2APB_18", 0x79000 },
{ "AXI2APB_19", 0x7a000 },
{ "AXI2APB_2", 0x7b000 },
{ "AXI2APB_20", 0x7c000 },
{ "AXI2APB_21", 0x7d000 },
{ "AXI2APB_22", 0x7e000 },
{ "AXI2APB_23", 0x7f000 },
{ "AXI2APB_25", 0x80000 },
{ "AXI2APB_26", 0x81000 },
{ "AXI2APB_27", 0x82000 },
{ "AXI2APB_28", 0x83000 },
{ "AXI2APB_29", 0x84000 },
{ "AXI2APB_30", 0x85000 },
{ "AXI2APB_31", 0x86000 },
{ "AXI2APB_32", 0x87000 },
{ "AXI2APB_33", 0x88000 },
{ "AXI2APB_34", 0x89000 },
{ "AXI2APB_35", 0x92000 },
{ "AXI2APB_4", 0x8b000 },
{ "AXI2APB_5", 0x8c000 },
{ "AXI2APB_6", 0x8d000 },
{ "AXI2APB_7", 0x8e000 },
{ "AXI2APB_8", 0x8f000 },
{ "AXI2APB_9", 0x90000 },
{ "AXI2APB_3", 0x91000 },
};
static const struct tegra234_cbb_fabric tegra234_cbb_fabric = {
.name = "cbb-fabric",
.master_id = tegra234_master_id,
.slave_map = tegra234_cbb_slave_map,
.errors = tegra234_cbb_errors,
.notifier_offset = 0x60000,
.off_mask_erd = 0x3a004
};
static const struct tegra234_slave_lookup tegra234_dce_slave_map[] = {
{ "AXI2APB", 0x00000 },
{ "AST0", 0x15000 },
{ "AST1", 0x16000 },
{ "CPU", 0x18000 },
};
static const struct tegra234_cbb_fabric tegra234_dce_fabric = {
.name = "dce-fabric",
.master_id = tegra234_master_id,
.slave_map = tegra234_dce_slave_map,
.errors = tegra234_cbb_errors,
.notifier_offset = 0x19000,
};
static const struct tegra234_slave_lookup tegra234_rce_slave_map[] = {
{ "AXI2APB", 0x00000 },
{ "AST0", 0x15000 },
{ "AST1", 0x16000 },
{ "CPU", 0x18000 },
};
static const struct tegra234_cbb_fabric tegra234_rce_fabric = {
.name = "rce-fabric",
.master_id = tegra234_master_id,
.slave_map = tegra234_rce_slave_map,
.errors = tegra234_cbb_errors,
.notifier_offset = 0x19000,
};
static const struct tegra234_slave_lookup tegra234_sce_slave_map[] = {
{ "AXI2APB", 0x00000 },
{ "AST0", 0x15000 },
{ "AST1", 0x16000 },
{ "CBB", 0x17000 },
{ "CPU", 0x18000 },
};
static const struct tegra234_cbb_fabric tegra234_sce_fabric = {
.name = "sce-fabric",
.master_id = tegra234_master_id,
.slave_map = tegra234_sce_slave_map,
.errors = tegra234_cbb_errors,
.notifier_offset = 0x19000,
};
static const char * const tegra241_master_id[] = {
[0x0] = "TZ",
[0x1] = "CCPLEX",
[0x2] = "CCPMU",
[0x3] = "BPMP_FW",
[0x4] = "PSC_FW_USER",
[0x5] = "PSC_FW_SUPERVISOR",
[0x6] = "PSC_FW_MACHINE",
[0x7] = "PSC_BOOT",
[0x8] = "BPMP_BOOT",
[0x9] = "JTAGM_DFT",
[0xa] = "CORESIGHT",
[0xb] = "GPU",
[0xc] = "PEATRANS",
[0xd ... 0x3f] = "RSVD"
};
/*
* Possible causes for Slave and Timeout errors.
* SLAVE_ERR:
* Slave being accessed responded with an error. Slave could return
* an error for various cases :
* Unsupported access, clamp setting when power gated, register
* level firewall(SCR), address hole within the slave, etc
*
* TIMEOUT_ERR:
* No response returned by slave. Can be due to slave being clock
* gated, under reset, powered down or slave inability to respond
* for an internal slave issue
*/
static const struct tegra_cbb_error tegra241_cbb_errors[] = {
{
.code = "SLAVE_ERR",
.desc = "Slave being accessed responded with an error."
}, {
.code = "DECODE_ERR",
.desc = "Attempt to access an address hole or Reserved region of memory."
}, {
.code = "FIREWALL_ERR",
.desc = "Attempt to access a region which is firewalled."
}, {
.code = "TIMEOUT_ERR",
.desc = "No response returned by slave."
}, {
.code = "PWRDOWN_ERR",
.desc = "Attempt to access a portion of the fabric that is powered down."
}, {
.code = "UNSUPPORTED_ERR",
.desc = "Attempt to access a slave through an unsupported access."
}, {
.code = "POISON_ERR",
.desc = "Slave responds with poison error to indicate error in data."
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "RSVD"
}, {
.code = "NO_SUCH_ADDRESS_ERR",
.desc = "The address belongs to the pri_target range but there is no register "
"implemented at the address."
}, {
.code = "TASK_ERR",
.desc = "Attempt to update a PRI task when the current task has still not "
"completed."
}, {
.code = "EXTERNAL_ERR",
.desc = "Indicates that an external PRI register access met with an error due to "
"any issue in the unit."
}, {
.code = "INDEX_ERR",
.desc = "Applicable to PRI index aperture pair, when the programmed index is "
"outside the range defined in the manual."
}, {
.code = "RESET_ERR",
.desc = "Target in Reset Error: Attempt to access a SubPri or external PRI "
"register but they are in reset."
}, {
.code = "REGISTER_RST_ERR",
.desc = "Attempt to access a PRI register but the register is partial or "
"completely in reset."
}, {
.code = "POWER_GATED_ERR",
.desc = "Returned by external PRI client when the external access goes to a power "
"gated domain."
}, {
.code = "SUBPRI_FS_ERR",
.desc = "Subpri is floorswept: Attempt to access a subpri through the main pri "
"target but subPri logic is floorswept."
}, {
.code = "SUBPRI_CLK_OFF_ERR",
.desc = "Subpri clock is off: Attempt to access a subpri through the main pri "
"target but subPris clock is gated/off."
},
};
static const struct tegra234_slave_lookup tegra241_cbb_slave_map[] = {
{ "CCPLEX", 0x50000 },
{ "PCIE_C8", 0x51000 },
{ "PCIE_C9", 0x52000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "AON", 0x5b000 },
{ "BPMP", 0x5c000 },
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "PSC", 0x5d000 },
{ "STM", 0x5e000 },
{ "AXI2APB_1", 0x70000 },
{ "AXI2APB_10", 0x71000 },
{ "AXI2APB_11", 0x72000 },
{ "AXI2APB_12", 0x73000 },
{ "AXI2APB_13", 0x74000 },
{ "AXI2APB_14", 0x75000 },
{ "AXI2APB_15", 0x76000 },
{ "AXI2APB_16", 0x77000 },
{ "AXI2APB_17", 0x78000 },
{ "AXI2APB_18", 0x79000 },
{ "AXI2APB_19", 0x7a000 },
{ "AXI2APB_2", 0x7b000 },
{ "AXI2APB_20", 0x7c000 },
{ "AXI2APB_4", 0x87000 },
{ "AXI2APB_5", 0x88000 },
{ "AXI2APB_6", 0x89000 },
{ "AXI2APB_7", 0x8a000 },
{ "AXI2APB_8", 0x8b000 },
{ "AXI2APB_9", 0x8c000 },
{ "AXI2APB_3", 0x8d000 },
{ "AXI2APB_21", 0x7d000 },
{ "AXI2APB_22", 0x7e000 },
{ "AXI2APB_23", 0x7f000 },
{ "AXI2APB_24", 0x80000 },
{ "AXI2APB_25", 0x81000 },
{ "AXI2APB_26", 0x82000 },
{ "AXI2APB_27", 0x83000 },
{ "AXI2APB_28", 0x84000 },
{ "PCIE_C4", 0x53000 },
{ "PCIE_C5", 0x54000 },
{ "PCIE_C6", 0x55000 },
{ "PCIE_C7", 0x56000 },
{ "PCIE_C2", 0x57000 },
{ "PCIE_C3", 0x58000 },
{ "PCIE_C0", 0x59000 },
{ "PCIE_C1", 0x5a000 },
{ "AXI2APB_29", 0x85000 },
{ "AXI2APB_30", 0x86000 },
};
static const struct tegra234_cbb_fabric tegra241_cbb_fabric = {
.name = "cbb-fabric",
.master_id = tegra241_master_id,
.slave_map = tegra241_cbb_slave_map,
.errors = tegra241_cbb_errors,
.notifier_offset = 0x60000,
.off_mask_erd = 0x40004,
};
static const struct tegra234_slave_lookup tegra241_bpmp_slave_map[] = {
{ "RSVD", 0x00000 },
{ "RSVD", 0x00000 },
{ "CBB", 0x15000 },
{ "CPU", 0x16000 },
{ "AXI2APB", 0x00000 },
{ "DBB0", 0x17000 },
{ "DBB1", 0x18000 },
};
static const struct tegra234_cbb_fabric tegra241_bpmp_fabric = {
.name = "bpmp-fabric",
.master_id = tegra241_master_id,
.slave_map = tegra241_bpmp_slave_map,
.errors = tegra241_cbb_errors,
.notifier_offset = 0x19000,
};
static const struct of_device_id tegra234_cbb_dt_ids[] = {
{ .compatible = "nvidia,tegra234-cbb-fabric", .data = &tegra234_cbb_fabric },
{ .compatible = "nvidia,tegra234-aon-fabric", .data = &tegra234_aon_fabric },
{ .compatible = "nvidia,tegra234-bpmp-fabric", .data = &tegra234_bpmp_fabric },
{ .compatible = "nvidia,tegra234-dce-fabric", .data = &tegra234_dce_fabric },
{ .compatible = "nvidia,tegra234-rce-fabric", .data = &tegra234_rce_fabric },
{ .compatible = "nvidia,tegra234-sce-fabric", .data = &tegra234_sce_fabric },
{ /* sentinel */ },
};
MODULE_DEVICE_TABLE(of, tegra234_cbb_dt_ids);
struct tegra234_cbb_acpi_uid {
const char *hid;
const char *uid;
const struct tegra234_cbb_fabric *fabric;
};
static const struct tegra234_cbb_acpi_uid tegra234_cbb_acpi_uids[] = {
{ "NVDA1070", "1", &tegra241_cbb_fabric },
{ "NVDA1070", "2", &tegra241_bpmp_fabric },
{ },
};
static const struct
tegra234_cbb_fabric *tegra234_cbb_acpi_get_fabric(struct acpi_device *adev)
{
const struct tegra234_cbb_acpi_uid *entry;
for (entry = tegra234_cbb_acpi_uids; entry->hid; entry++) {
if (acpi_dev_hid_uid_match(adev, entry->hid, entry->uid))
return entry->fabric;
}
return NULL;
}
static const struct acpi_device_id tegra241_cbb_acpi_ids[] = {
{ "NVDA1070" },
{ },
};
MODULE_DEVICE_TABLE(acpi, tegra241_cbb_acpi_ids);
static int tegra234_cbb_probe(struct platform_device *pdev)
{
const struct tegra234_cbb_fabric *fabric;
struct tegra234_cbb *cbb;
unsigned long flags = 0;
int err;
if (pdev->dev.of_node) {
fabric = of_device_get_match_data(&pdev->dev);
} else {
struct acpi_device *device = ACPI_COMPANION(&pdev->dev);
if (!device)
return -ENODEV;
fabric = tegra234_cbb_acpi_get_fabric(device);
if (!fabric) {
dev_err(&pdev->dev, "no device match found\n");
return -ENODEV;
}
}
cbb = devm_kzalloc(&pdev->dev, sizeof(*cbb), GFP_KERNEL);
if (!cbb)
return -ENOMEM;
INIT_LIST_HEAD(&cbb->base.node);
cbb->base.ops = &tegra234_cbb_ops;
cbb->base.dev = &pdev->dev;
cbb->fabric = fabric;
cbb->regs = devm_platform_get_and_ioremap_resource(pdev, 0, &cbb->res);
if (IS_ERR(cbb->regs))
return PTR_ERR(cbb->regs);
err = tegra_cbb_get_irq(pdev, NULL, &cbb->sec_irq);
if (err)
return err;
platform_set_drvdata(pdev, cbb);
spin_lock_irqsave(&cbb_lock, flags);
list_add(&cbb->base.node, &cbb_list);
spin_unlock_irqrestore(&cbb_lock, flags);
/* set ERD bit to mask SError and generate interrupt to report error */
if (cbb->fabric->off_mask_erd)
tegra234_cbb_mask_serror(cbb);
return tegra_cbb_register(&cbb->base);
}
static int tegra234_cbb_remove(struct platform_device *pdev)
{
return 0;
}
static int __maybe_unused tegra234_cbb_resume_noirq(struct device *dev)
{
struct tegra234_cbb *cbb = dev_get_drvdata(dev);
tegra234_cbb_error_enable(&cbb->base);
dev_dbg(dev, "%s resumed\n", cbb->fabric->name);
return 0;
}
static const struct dev_pm_ops tegra234_cbb_pm = {
SET_NOIRQ_SYSTEM_SLEEP_PM_OPS(NULL, tegra234_cbb_resume_noirq)
};
static struct platform_driver tegra234_cbb_driver = {
.probe = tegra234_cbb_probe,
.remove = tegra234_cbb_remove,
.driver = {
.name = "tegra234-cbb",
.of_match_table = tegra234_cbb_dt_ids,
.acpi_match_table = tegra241_cbb_acpi_ids,
.pm = &tegra234_cbb_pm,
},
};
static int __init tegra234_cbb_init(void)
{
return platform_driver_register(&tegra234_cbb_driver);
}
pure_initcall(tegra234_cbb_init);
static void __exit tegra234_cbb_exit(void)
{
platform_driver_unregister(&tegra234_cbb_driver);
}
module_exit(tegra234_cbb_exit);
MODULE_DESCRIPTION("Control Backbone 2.0 error handling driver for Tegra234");
MODULE_LICENSE("GPL");
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