Release 4.7 drivers/thunderbolt/eeprom.c
/*
* Thunderbolt Cactus Ridge driver - eeprom access
*
* Copyright (c) 2014 Andreas Noever <andreas.noever@gmail.com>
*/
#include <linux/crc32.h>
#include <linux/slab.h>
#include "tb.h"
/**
* tb_eeprom_ctl_write() - write control word
*/
static int tb_eeprom_ctl_write(struct tb_switch *sw, struct tb_eeprom_ctl *ctl)
{
return tb_sw_write(sw, ctl, TB_CFG_SWITCH, sw->cap_plug_events + 4, 1);
}
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/**
* tb_eeprom_ctl_write() - read control word
*/
static int tb_eeprom_ctl_read(struct tb_switch *sw, struct tb_eeprom_ctl *ctl)
{
return tb_sw_read(sw, ctl, TB_CFG_SWITCH, sw->cap_plug_events + 4, 1);
}
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enum tb_eeprom_transfer {
TB_EEPROM_IN,
TB_EEPROM_OUT,
};
/**
* tb_eeprom_active - enable rom access
*
* WARNING: Always disable access after usage. Otherwise the controller will
* fail to reprobe.
*/
static int tb_eeprom_active(struct tb_switch *sw, bool enable)
{
struct tb_eeprom_ctl ctl;
int res = tb_eeprom_ctl_read(sw, &ctl);
if (res)
return res;
if (enable) {
ctl.access_high = 1;
res = tb_eeprom_ctl_write(sw, &ctl);
if (res)
return res;
ctl.access_low = 0;
return tb_eeprom_ctl_write(sw, &ctl);
} else {
ctl.access_low = 1;
res = tb_eeprom_ctl_write(sw, &ctl);
if (res)
return res;
ctl.access_high = 0;
return tb_eeprom_ctl_write(sw, &ctl);
}
}
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/**
* tb_eeprom_transfer - transfer one bit
*
* If TB_EEPROM_IN is passed, then the bit can be retrieved from ctl->data_in.
* If TB_EEPROM_OUT is passed, then ctl->data_out will be written.
*/
static int tb_eeprom_transfer(struct tb_switch *sw, struct tb_eeprom_ctl *ctl,
enum tb_eeprom_transfer direction)
{
int res;
if (direction == TB_EEPROM_OUT) {
res = tb_eeprom_ctl_write(sw, ctl);
if (res)
return res;
}
ctl->clock = 1;
res = tb_eeprom_ctl_write(sw, ctl);
if (res)
return res;
if (direction == TB_EEPROM_IN) {
res = tb_eeprom_ctl_read(sw, ctl);
if (res)
return res;
}
ctl->clock = 0;
return tb_eeprom_ctl_write(sw, ctl);
}
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/**
* tb_eeprom_out - write one byte to the bus
*/
static int tb_eeprom_out(struct tb_switch *sw, u8 val)
{
struct tb_eeprom_ctl ctl;
int i;
int res = tb_eeprom_ctl_read(sw, &ctl);
if (res)
return res;
for (i = 0; i < 8; i++) {
ctl.data_out = val & 0x80;
res = tb_eeprom_transfer(sw, &ctl, TB_EEPROM_OUT);
if (res)
return res;
val <<= 1;
}
return 0;
}
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/**
* tb_eeprom_in - read one byte from the bus
*/
static int tb_eeprom_in(struct tb_switch *sw, u8 *val)
{
struct tb_eeprom_ctl ctl;
int i;
int res = tb_eeprom_ctl_read(sw, &ctl);
if (res)
return res;
*val = 0;
for (i = 0; i < 8; i++) {
*val <<= 1;
res = tb_eeprom_transfer(sw, &ctl, TB_EEPROM_IN);
if (res)
return res;
*val |= ctl.data_in;
}
return 0;
}
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/**
* tb_eeprom_read_n - read count bytes from offset into val
*/
static int tb_eeprom_read_n(struct tb_switch *sw, u16 offset, u8 *val,
size_t count)
{
int i, res;
res = tb_eeprom_active(sw, true);
if (res)
return res;
res = tb_eeprom_out(sw, 3);
if (res)
return res;
res = tb_eeprom_out(sw, offset >> 8);
if (res)
return res;
res = tb_eeprom_out(sw, offset);
if (res)
return res;
for (i = 0; i < count; i++) {
res = tb_eeprom_in(sw, val + i);
if (res)
return res;
}
return tb_eeprom_active(sw, false);
}
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static u8 tb_crc8(u8 *data, int len)
{
int i, j;
u8 val = 0xff;
for (i = 0; i < len; i++) {
val ^= data[i];
for (j = 0; j < 8; j++)
val = (val << 1) ^ ((val & 0x80) ? 7 : 0);
}
return val;
}
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static u32 tb_crc32(void *data, size_t len)
{
return ~__crc32c_le(~0, data, len);
}
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#define TB_DROM_DATA_START 13
struct tb_drom_header {
/* BYTE 0 */
u8 uid_crc8; /* checksum for uid */
/* BYTES 1-8 */
u64 uid;
/* BYTES 9-12 */
u32 data_crc32; /* checksum for data_len bytes starting at byte 13 */
/* BYTE 13 */
u8 device_rom_revision; /* should be <= 1 */
u16 data_len:10;
u8 __unknown1:6;
/* BYTES 16-21 */
u16 vendor_id;
u16 model_id;
u8 model_rev;
u8 eeprom_rev;
}
__packed;
enum tb_drom_entry_type {
/* force unsigned to prevent "one-bit signed bitfield" warning */
TB_DROM_ENTRY_GENERIC = 0U,
TB_DROM_ENTRY_PORT,
};
struct tb_drom_entry_header {
u8 len;
u8 index:6;
bool port_disabled:1; /* only valid if type is TB_DROM_ENTRY_PORT */
enum tb_drom_entry_type type:1;
}
__packed;
struct tb_drom_entry_port {
/* BYTES 0-1 */
struct tb_drom_entry_header header;
/* BYTE 2 */
u8 dual_link_port_rid:4;
u8 link_nr:1;
u8 unknown1:2;
bool has_dual_link_port:1;
/* BYTE 3 */
u8 dual_link_port_nr:6;
u8 unknown2:2;
/* BYTES 4 - 5 TODO decode */
u8 micro2:4;
u8 micro1:4;
u8 micro3;
/* BYTES 6-7, TODO: verify (find hardware that has these set) */
u8 peer_port_rid:4;
u8 unknown3:3;
bool has_peer_port:1;
u8 peer_port_nr:6;
u8 unknown4:2;
}
__packed;
/**
* tb_eeprom_get_drom_offset - get drom offset within eeprom
*/
static int tb_eeprom_get_drom_offset(struct tb_switch *sw, u16 *offset)
{
struct tb_cap_plug_events cap;
int res;
if (!sw->cap_plug_events) {
tb_sw_warn(sw, "no TB_CAP_PLUG_EVENTS, cannot read eeprom\n");
return -ENOSYS;
}
res = tb_sw_read(sw, &cap, TB_CFG_SWITCH, sw->cap_plug_events,
sizeof(cap) / 4);
if (res)
return res;
if (!cap.eeprom_ctl.present || cap.eeprom_ctl.not_present) {
tb_sw_warn(sw, "no NVM\n");
return -ENOSYS;
}
if (cap.drom_offset > 0xffff) {
tb_sw_warn(sw, "drom offset is larger than 0xffff: %#x\n",
cap.drom_offset);
return -ENXIO;
}
*offset = cap.drom_offset;
return 0;
}
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/**
* tb_drom_read_uid_only - read uid directly from drom
*
* Does not use the cached copy in sw->drom. Used during resume to check switch
* identity.
*/
int tb_drom_read_uid_only(struct tb_switch *sw, u64 *uid)
{
u8 data[9];
u16 drom_offset;
u8 crc;
int res = tb_eeprom_get_drom_offset(sw, &drom_offset);
if (res)
return res;
/* read uid */
res = tb_eeprom_read_n(sw, drom_offset, data, 9);
if (res)
return res;
crc = tb_crc8(data + 1, 8);
if (crc != data[0]) {
tb_sw_warn(sw, "uid crc8 missmatch (expected: %#x, got: %#x)\n",
data[0], crc);
return -EIO;
}
*uid = *(u64 *)(data+1);
return 0;
}
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static void tb_drom_parse_port_entry(struct tb_port *port,
struct tb_drom_entry_port *entry)
{
port->link_nr = entry->link_nr;
if (entry->has_dual_link_port)
port->dual_link_port =
&port->sw->ports[entry->dual_link_port_nr];
}
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static int tb_drom_parse_entry(struct tb_switch *sw,
struct tb_drom_entry_header *header)
{
struct tb_port *port;
int res;
enum tb_port_type type;
if (header->type != TB_DROM_ENTRY_PORT)
return 0;
port = &sw->ports[header->index];
port->disabled = header->port_disabled;
if (port->disabled)
return 0;
res = tb_port_read(port, &type, TB_CFG_PORT, 2, 1);
if (res)
return res;
type &= 0xffffff;
if (type == TB_TYPE_PORT) {
struct tb_drom_entry_port *entry = (void *) header;
if (header->len != sizeof(*entry)) {
tb_sw_warn(sw,
"port entry has size %#x (expected %#zx)\n",
header->len, sizeof(struct tb_drom_entry_port));
return -EIO;
}
tb_drom_parse_port_entry(port, entry);
}
return 0;
}
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/**
* tb_drom_parse_entries - parse the linked list of drom entries
*
* Drom must have been copied to sw->drom.
*/
static int tb_drom_parse_entries(struct tb_switch *sw)
{
struct tb_drom_header *header = (void *) sw->drom;
u16 pos = sizeof(*header);
u16 drom_size = header->data_len + TB_DROM_DATA_START;
while (pos < drom_size) {
struct tb_drom_entry_header *entry = (void *) (sw->drom + pos);
if (pos + 1 == drom_size || pos + entry->len > drom_size
|| !entry->len) {
tb_sw_warn(sw, "drom buffer overrun, aborting\n");
return -EIO;
}
tb_drom_parse_entry(sw, entry);
pos += entry->len;
}
return 0;
}
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/**
* tb_drom_read - copy drom to sw->drom and parse it
*/
int tb_drom_read(struct tb_switch *sw)
{
u16 drom_offset;
u16 size;
u32 crc;
struct tb_drom_header *header;
int res;
if (sw->drom)
return 0;
if (tb_route(sw) == 0) {
/*
* The root switch contains only a dummy drom (header only,
* no entries). Hardcode the configuration here.
*/
tb_drom_read_uid_only(sw, &sw->uid);
sw->ports[1].link_nr = 0;
sw->ports[2].link_nr = 1;
sw->ports[1].dual_link_port = &sw->ports[2];
sw->ports[2].dual_link_port = &sw->ports[1];
sw->ports[3].link_nr = 0;
sw->ports[4].link_nr = 1;
sw->ports[3].dual_link_port = &sw->ports[4];
sw->ports[4].dual_link_port = &sw->ports[3];
/* Port 5 is inaccessible on this gen 1 controller */
if (sw->config.device_id == PCI_DEVICE_ID_INTEL_LIGHT_RIDGE)
sw->ports[5].disabled = true;
return 0;
}
res = tb_eeprom_get_drom_offset(sw, &drom_offset);
if (res)
return res;
res = tb_eeprom_read_n(sw, drom_offset + 14, (u8 *) &size, 2);
if (res)
return res;
size &= 0x3ff;
size += TB_DROM_DATA_START;
tb_sw_info(sw, "reading drom (length: %#x)\n", size);
if (size < sizeof(*header)) {
tb_sw_warn(sw, "drom too small, aborting\n");
return -EIO;
}
sw->drom = kzalloc(size, GFP_KERNEL);
if (!sw->drom)
return -ENOMEM;
res = tb_eeprom_read_n(sw, drom_offset, sw->drom, size);
if (res)
goto err;
header = (void *) sw->drom;
if (header->data_len + TB_DROM_DATA_START != size) {
tb_sw_warn(sw, "drom size mismatch, aborting\n");
goto err;
}
crc = tb_crc8((u8 *) &header->uid, 8);
if (crc != header->uid_crc8) {
tb_sw_warn(sw,
"drom uid crc8 mismatch (expected: %#x, got: %#x), aborting\n",
header->uid_crc8, crc);
goto err;
}
sw->uid = header->uid;
crc = tb_crc32(sw->drom + TB_DROM_DATA_START, header->data_len);
if (crc != header->data_crc32) {
tb_sw_warn(sw,
"drom data crc32 mismatch (expected: %#x, got: %#x), aborting\n",
header->data_crc32, crc);
goto err;
}
if (header->device_rom_revision > 1)
tb_sw_warn(sw, "drom device_rom_revision %#x unknown\n",
header->device_rom_revision);
return tb_drom_parse_entries(sw);
err:
kfree(sw->drom);
sw->drom = NULL;
return -EIO;
}
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