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// SPDX-License-Identifier: BSD-3-Clause
/* Copyright (c) 2016-2018, NXP Semiconductors
* Copyright (c) 2018, Sensor-Technik Wiedemann GmbH
* Copyright (c) 2018-2019, Vladimir Oltean <olteanv@gmail.com>
*/
#include <linux/spi/spi.h>
#include <linux/packing.h>
#include "sja1105.h"
#define SJA1105_SIZE_RESET_CMD 4
#define SJA1105_SIZE_SPI_MSG_HEADER 4
#define SJA1105_SIZE_SPI_MSG_MAXLEN (64 * 4)
struct sja1105_chunk {
u8 *buf;
size_t len;
u64 reg_addr;
};
static void
sja1105_spi_message_pack(void *buf, const struct sja1105_spi_message *msg)
{
const int size = SJA1105_SIZE_SPI_MSG_HEADER;
memset(buf, 0, size);
sja1105_pack(buf, &msg->access, 31, 31, size);
sja1105_pack(buf, &msg->read_count, 30, 25, size);
sja1105_pack(buf, &msg->address, 24, 4, size);
}
#define sja1105_hdr_xfer(xfers, chunk) \
((xfers) + 2 * (chunk))
#define sja1105_chunk_xfer(xfers, chunk) \
((xfers) + 2 * (chunk) + 1)
#define sja1105_hdr_buf(hdr_bufs, chunk) \
((hdr_bufs) + (chunk) * SJA1105_SIZE_SPI_MSG_HEADER)
/* If @rw is:
* - SPI_WRITE: creates and sends an SPI write message at absolute
* address reg_addr, taking @len bytes from *buf
* - SPI_READ: creates and sends an SPI read message from absolute
* address reg_addr, writing @len bytes into *buf
*/
static int sja1105_xfer(const struct sja1105_private *priv,
sja1105_spi_rw_mode_t rw, u64 reg_addr, u8 *buf,
size_t len, struct ptp_system_timestamp *ptp_sts)
{
struct sja1105_chunk chunk = {
.len = min_t(size_t, len, SJA1105_SIZE_SPI_MSG_MAXLEN),
.reg_addr = reg_addr,
.buf = buf,
};
struct spi_device *spi = priv->spidev;
struct spi_transfer *xfers;
int num_chunks;
int rc, i = 0;
u8 *hdr_bufs;
num_chunks = DIV_ROUND_UP(len, SJA1105_SIZE_SPI_MSG_MAXLEN);
/* One transfer for each message header, one for each message
* payload (chunk).
*/
xfers = kcalloc(2 * num_chunks, sizeof(struct spi_transfer),
GFP_KERNEL);
if (!xfers)
return -ENOMEM;
/* Packed buffers for the num_chunks SPI message headers,
* stored as a contiguous array
*/
hdr_bufs = kcalloc(num_chunks, SJA1105_SIZE_SPI_MSG_HEADER,
GFP_KERNEL);
if (!hdr_bufs) {
kfree(xfers);
return -ENOMEM;
}
for (i = 0; i < num_chunks; i++) {
struct spi_transfer *chunk_xfer = sja1105_chunk_xfer(xfers, i);
struct spi_transfer *hdr_xfer = sja1105_hdr_xfer(xfers, i);
u8 *hdr_buf = sja1105_hdr_buf(hdr_bufs, i);
struct spi_transfer *ptp_sts_xfer;
struct sja1105_spi_message msg;
/* Populate the transfer's header buffer */
msg.address = chunk.reg_addr;
msg.access = rw;
if (rw == SPI_READ)
msg.read_count = chunk.len / 4;
else
/* Ignored */
msg.read_count = 0;
sja1105_spi_message_pack(hdr_buf, &msg);
hdr_xfer->tx_buf = hdr_buf;
hdr_xfer->len = SJA1105_SIZE_SPI_MSG_HEADER;
/* Populate the transfer's data buffer */
if (rw == SPI_READ)
chunk_xfer->rx_buf = chunk.buf;
else
chunk_xfer->tx_buf = chunk.buf;
chunk_xfer->len = chunk.len;
/* Request timestamping for the transfer. Instead of letting
* callers specify which byte they want to timestamp, we can
* make certain assumptions:
* - A read operation will request a software timestamp when
* what's being read is the PTP time. That is snapshotted by
* the switch hardware at the end of the command portion
* (hdr_xfer).
* - A write operation will request a software timestamp on
* actions that modify the PTP time. Taking clock stepping as
* an example, the switch writes the PTP time at the end of
* the data portion (chunk_xfer).
*/
if (rw == SPI_READ)
ptp_sts_xfer = hdr_xfer;
else
ptp_sts_xfer = chunk_xfer;
ptp_sts_xfer->ptp_sts_word_pre = ptp_sts_xfer->len - 1;
ptp_sts_xfer->ptp_sts_word_post = ptp_sts_xfer->len - 1;
ptp_sts_xfer->ptp_sts = ptp_sts;
/* Calculate next chunk */
chunk.buf += chunk.len;
chunk.reg_addr += chunk.len / 4;
chunk.len = min_t(size_t, (ptrdiff_t)(buf + len - chunk.buf),
SJA1105_SIZE_SPI_MSG_MAXLEN);
/* De-assert the chip select after each chunk. */
if (chunk.len)
chunk_xfer->cs_change = 1;
}
rc = spi_sync_transfer(spi, xfers, 2 * num_chunks);
if (rc < 0)
dev_err(&spi->dev, "SPI transfer failed: %d\n", rc);
kfree(hdr_bufs);
kfree(xfers);
return rc;
}
int sja1105_xfer_buf(const struct sja1105_private *priv,
sja1105_spi_rw_mode_t rw, u64 reg_addr,
u8 *buf, size_t len)
{
return sja1105_xfer(priv, rw, reg_addr, buf, len, NULL);
}
/* If @rw is:
* - SPI_WRITE: creates and sends an SPI write message at absolute
* address reg_addr
* - SPI_READ: creates and sends an SPI read message from absolute
* address reg_addr
*
* The u64 *value is unpacked, meaning that it's stored in the native
* CPU endianness and directly usable by software running on the core.
*/
int sja1105_xfer_u64(const struct sja1105_private *priv,
sja1105_spi_rw_mode_t rw, u64 reg_addr, u64 *value,
struct ptp_system_timestamp *ptp_sts)
{
u8 packed_buf[8];
int rc;
if (rw == SPI_WRITE)
sja1105_pack(packed_buf, value, 63, 0, 8);
rc = sja1105_xfer(priv, rw, reg_addr, packed_buf, 8, ptp_sts);
if (rw == SPI_READ)
sja1105_unpack(packed_buf, value, 63, 0, 8);
return rc;
}
/* Same as above, but transfers only a 4 byte word */
int sja1105_xfer_u32(const struct sja1105_private *priv,
sja1105_spi_rw_mode_t rw, u64 reg_addr, u32 *value,
struct ptp_system_timestamp *ptp_sts)
{
u8 packed_buf[4];
u64 tmp;
int rc;
if (rw == SPI_WRITE) {
/* The packing API only supports u64 as CPU word size,
* so we need to convert.
*/
tmp = *value;
sja1105_pack(packed_buf, &tmp, 31, 0, 4);
}
rc = sja1105_xfer(priv, rw, reg_addr, packed_buf, 4, ptp_sts);
if (rw == SPI_READ) {
sja1105_unpack(packed_buf, &tmp, 31, 0, 4);
*value = tmp;
}
return rc;
}
static int sja1105et_reset_cmd(struct dsa_switch *ds)
{
struct sja1105_private *priv = ds->priv;
const struct sja1105_regs *regs = priv->info->regs;
u8 packed_buf[SJA1105_SIZE_RESET_CMD] = {0};
const int size = SJA1105_SIZE_RESET_CMD;
u64 cold_rst = 1;
sja1105_pack(packed_buf, &cold_rst, 3, 3, size);
return sja1105_xfer_buf(priv, SPI_WRITE, regs->rgu, packed_buf,
SJA1105_SIZE_RESET_CMD);
}
static int sja1105pqrs_reset_cmd(struct dsa_switch *ds)
{
struct sja1105_private *priv = ds->priv;
const struct sja1105_regs *regs = priv->info->regs;
u8 packed_buf[SJA1105_SIZE_RESET_CMD] = {0};
const int size = SJA1105_SIZE_RESET_CMD;
u64 cold_rst = 1;
sja1105_pack(packed_buf, &cold_rst, 2, 2, size);
return sja1105_xfer_buf(priv, SPI_WRITE, regs->rgu, packed_buf,
SJA1105_SIZE_RESET_CMD);
}
int sja1105_inhibit_tx(const struct sja1105_private *priv,
unsigned long port_bitmap, bool tx_inhibited)
{
const struct sja1105_regs *regs = priv->info->regs;
u32 inhibit_cmd;
int rc;
rc = sja1105_xfer_u32(priv, SPI_READ, regs->port_control,
&inhibit_cmd, NULL);
if (rc < 0)
return rc;
if (tx_inhibited)
inhibit_cmd |= port_bitmap;
else
inhibit_cmd &= ~port_bitmap;
return sja1105_xfer_u32(priv, SPI_WRITE, regs->port_control,
&inhibit_cmd, NULL);
}
struct sja1105_status {
u64 configs;
u64 crcchkl;
u64 ids;
u64 crcchkg;
};
/* This is not reading the entire General Status area, which is also
* divergent between E/T and P/Q/R/S, but only the relevant bits for
* ensuring that the static config upload procedure was successful.
*/
static void sja1105_status_unpack(void *buf, struct sja1105_status *status)
{
/* So that addition translates to 4 bytes */
u32 *p = buf;
/* device_id is missing from the buffer, but we don't
* want to diverge from the manual definition of the
* register addresses, so we'll back off one step with
* the register pointer, and never access p[0].
*/
p--;
sja1105_unpack(p + 0x1, &status->configs, 31, 31, 4);
sja1105_unpack(p + 0x1, &status->crcchkl, 30, 30, 4);
sja1105_unpack(p + 0x1, &status->ids, 29, 29, 4);
sja1105_unpack(p + 0x1, &status->crcchkg, 28, 28, 4);
}
static int sja1105_status_get(struct sja1105_private *priv,
struct sja1105_status *status)
{
const struct sja1105_regs *regs = priv->info->regs;
u8 packed_buf[4];
int rc;
rc = sja1105_xfer_buf(priv, SPI_READ, regs->status, packed_buf, 4);
if (rc < 0)
return rc;
sja1105_status_unpack(packed_buf, status);
return 0;
}
/* Not const because unpacking priv->static_config into buffers and preparing
* for upload requires the recalculation of table CRCs and updating the
* structures with these.
*/
static int
static_config_buf_prepare_for_upload(struct sja1105_private *priv,
void *config_buf, int buf_len)
{
struct sja1105_static_config *config = &priv->static_config;
struct sja1105_table_header final_header;
sja1105_config_valid_t valid;
char *final_header_ptr;
int crc_len;
valid = sja1105_static_config_check_valid(config);
if (valid != SJA1105_CONFIG_OK) {
dev_err(&priv->spidev->dev,
sja1105_static_config_error_msg[valid]);
return -EINVAL;
}
/* Write Device ID and config tables to config_buf */
sja1105_static_config_pack(config_buf, config);
/* Recalculate CRC of the last header (right now 0xDEADBEEF).
* Don't include the CRC field itself.
*/
crc_len = buf_len - 4;
/* Read the whole table header */
final_header_ptr = config_buf + buf_len - SJA1105_SIZE_TABLE_HEADER;
sja1105_table_header_packing(final_header_ptr, &final_header, UNPACK);
/* Modify */
final_header.crc = sja1105_crc32(config_buf, crc_len);
/* Rewrite */
sja1105_table_header_packing(final_header_ptr, &final_header, PACK);
return 0;
}
#define RETRIES 10
int sja1105_static_config_upload(struct sja1105_private *priv)
{
unsigned long port_bitmap = GENMASK_ULL(SJA1105_NUM_PORTS - 1, 0);
struct sja1105_static_config *config = &priv->static_config;
const struct sja1105_regs *regs = priv->info->regs;
struct device *dev = &priv->spidev->dev;
struct sja1105_status status;
int rc, retries = RETRIES;
u8 *config_buf;
int buf_len;
buf_len = sja1105_static_config_get_length(config);
config_buf = kcalloc(buf_len, sizeof(char), GFP_KERNEL);
if (!config_buf)
return -ENOMEM;
rc = static_config_buf_prepare_for_upload(priv, config_buf, buf_len);
if (rc < 0) {
dev_err(dev, "Invalid config, cannot upload\n");
rc = -EINVAL;
goto out;
}
/* Prevent PHY jabbering during switch reset by inhibiting
* Tx on all ports and waiting for current packet to drain.
* Otherwise, the PHY will see an unterminated Ethernet packet.
*/
rc = sja1105_inhibit_tx(priv, port_bitmap, true);
if (rc < 0) {
dev_err(dev, "Failed to inhibit Tx on ports\n");
rc = -ENXIO;
goto out;
}
/* Wait for an eventual egress packet to finish transmission
* (reach IFG). It is guaranteed that a second one will not
* follow, and that switch cold reset is thus safe
*/
usleep_range(500, 1000);
do {
/* Put the SJA1105 in programming mode */
rc = priv->info->reset_cmd(priv->ds);
if (rc < 0) {
dev_err(dev, "Failed to reset switch, retrying...\n");
continue;
}
/* Wait for the switch to come out of reset */
usleep_range(1000, 5000);
/* Upload the static config to the device */
rc = sja1105_xfer_buf(priv, SPI_WRITE, regs->config,
config_buf, buf_len);
if (rc < 0) {
dev_err(dev, "Failed to upload config, retrying...\n");
continue;
}
/* Check that SJA1105 responded well to the config upload */
rc = sja1105_status_get(priv, &status);
if (rc < 0)
continue;
if (status.ids == 1) {
dev_err(dev, "Mismatch between hardware and static config "
"device id. Wrote 0x%llx, wants 0x%llx\n",
config->device_id, priv->info->device_id);
continue;
}
if (status.crcchkl == 1) {
dev_err(dev, "Switch reported invalid local CRC on "
"the uploaded config, retrying...\n");
continue;
}
if (status.crcchkg == 1) {
dev_err(dev, "Switch reported invalid global CRC on "
"the uploaded config, retrying...\n");
continue;
}
if (status.configs == 0) {
dev_err(dev, "Switch reported that configuration is "
"invalid, retrying...\n");
continue;
}
/* Success! */
break;
} while (--retries);
if (!retries) {
rc = -EIO;
dev_err(dev, "Failed to upload config to device, giving up\n");
goto out;
} else if (retries != RETRIES) {
dev_info(dev, "Succeeded after %d tried\n", RETRIES - retries);
}
out:
kfree(config_buf);
return rc;
}
static struct sja1105_regs sja1105et_regs = {
.device_id = 0x0,
.prod_id = 0x100BC3,
.status = 0x1,
.port_control = 0x11,
.vl_status = 0x10000,
.config = 0x020000,
.rgu = 0x100440,
/* UM10944.pdf, Table 86, ACU Register overview */
.pad_mii_tx = {0x100800, 0x100802, 0x100804, 0x100806, 0x100808},
.pad_mii_rx = {0x100801, 0x100803, 0x100805, 0x100807, 0x100809},
.rmii_pll1 = 0x10000A,
.cgu_idiv = {0x10000B, 0x10000C, 0x10000D, 0x10000E, 0x10000F},
.mac = {0x200, 0x202, 0x204, 0x206, 0x208},
.mac_hl1 = {0x400, 0x410, 0x420, 0x430, 0x440},
.mac_hl2 = {0x600, 0x610, 0x620, 0x630, 0x640},
/* UM10944.pdf, Table 78, CGU Register overview */
.mii_tx_clk = {0x100013, 0x10001A, 0x100021, 0x100028, 0x10002F},
.mii_rx_clk = {0x100014, 0x10001B, 0x100022, 0x100029, 0x100030},
.mii_ext_tx_clk = {0x100018, 0x10001F, 0x100026, 0x10002D, 0x100034},
.mii_ext_rx_clk = {0x100019, 0x100020, 0x100027, 0x10002E, 0x100035},
.rgmii_tx_clk = {0x100016, 0x10001D, 0x100024, 0x10002B, 0x100032},
.rmii_ref_clk = {0x100015, 0x10001C, 0x100023, 0x10002A, 0x100031},
.rmii_ext_tx_clk = {0x100018, 0x10001F, 0x100026, 0x10002D, 0x100034},
.ptpegr_ts = {0xC0, 0xC2, 0xC4, 0xC6, 0xC8},
.ptpschtm = 0x12, /* Spans 0x12 to 0x13 */
.ptppinst = 0x14,
.ptppindur = 0x16,
.ptp_control = 0x17,
.ptpclkval = 0x18, /* Spans 0x18 to 0x19 */
.ptpclkrate = 0x1A,
.ptpclkcorp = 0x1D,
};
static struct sja1105_regs sja1105pqrs_regs = {
.device_id = 0x0,
.prod_id = 0x100BC3,
.status = 0x1,
.port_control = 0x12,
.vl_status = 0x10000,
.config = 0x020000,
.rgu = 0x100440,
/* UM10944.pdf, Table 86, ACU Register overview */
.pad_mii_tx = {0x100800, 0x100802, 0x100804, 0x100806, 0x100808},
.pad_mii_rx = {0x100801, 0x100803, 0x100805, 0x100807, 0x100809},
.pad_mii_id = {0x100810, 0x100811, 0x100812, 0x100813, 0x100814},
.sgmii = 0x1F0000,
.rmii_pll1 = 0x10000A,
.cgu_idiv = {0x10000B, 0x10000C, 0x10000D, 0x10000E, 0x10000F},
.mac = {0x200, 0x202, 0x204, 0x206, 0x208},
.mac_hl1 = {0x400, 0x410, 0x420, 0x430, 0x440},
.mac_hl2 = {0x600, 0x610, 0x620, 0x630, 0x640},
.ether_stats = {0x1400, 0x1418, 0x1430, 0x1448, 0x1460},
/* UM11040.pdf, Table 114 */
.mii_tx_clk = {0x100013, 0x100019, 0x10001F, 0x100025, 0x10002B},
.mii_rx_clk = {0x100014, 0x10001A, 0x100020, 0x100026, 0x10002C},
.mii_ext_tx_clk = {0x100017, 0x10001D, 0x100023, 0x100029, 0x10002F},
.mii_ext_rx_clk = {0x100018, 0x10001E, 0x100024, 0x10002A, 0x100030},
.rgmii_tx_clk = {0x100016, 0x10001C, 0x100022, 0x100028, 0x10002E},
.rmii_ref_clk = {0x100015, 0x10001B, 0x100021, 0x100027, 0x10002D},
.rmii_ext_tx_clk = {0x100017, 0x10001D, 0x100023, 0x100029, 0x10002F},
.qlevel = {0x604, 0x614, 0x624, 0x634, 0x644},
.ptpegr_ts = {0xC0, 0xC4, 0xC8, 0xCC, 0xD0},
.ptpschtm = 0x13, /* Spans 0x13 to 0x14 */
.ptppinst = 0x15,
.ptppindur = 0x17,
.ptp_control = 0x18,
.ptpclkval = 0x19,
.ptpclkrate = 0x1B,
.ptpclkcorp = 0x1E,
.ptpsyncts = 0x1F,
};
struct sja1105_info sja1105e_info = {
.device_id = SJA1105E_DEVICE_ID,
.part_no = SJA1105ET_PART_NO,
.static_ops = sja1105e_table_ops,
.dyn_ops = sja1105et_dyn_ops,
.qinq_tpid = ETH_P_8021Q,
.ptp_ts_bits = 24,
.ptpegr_ts_bytes = 4,
.num_cbs_shapers = SJA1105ET_MAX_CBS_COUNT,
.reset_cmd = sja1105et_reset_cmd,
.fdb_add_cmd = sja1105et_fdb_add,
.fdb_del_cmd = sja1105et_fdb_del,
.ptp_cmd_packing = sja1105et_ptp_cmd_packing,
.regs = &sja1105et_regs,
.name = "SJA1105E",
};
struct sja1105_info sja1105t_info = {
.device_id = SJA1105T_DEVICE_ID,
.part_no = SJA1105ET_PART_NO,
.static_ops = sja1105t_table_ops,
.dyn_ops = sja1105et_dyn_ops,
.qinq_tpid = ETH_P_8021Q,
.ptp_ts_bits = 24,
.ptpegr_ts_bytes = 4,
.num_cbs_shapers = SJA1105ET_MAX_CBS_COUNT,
.reset_cmd = sja1105et_reset_cmd,
.fdb_add_cmd = sja1105et_fdb_add,
.fdb_del_cmd = sja1105et_fdb_del,
.ptp_cmd_packing = sja1105et_ptp_cmd_packing,
.regs = &sja1105et_regs,
.name = "SJA1105T",
};
struct sja1105_info sja1105p_info = {
.device_id = SJA1105PR_DEVICE_ID,
.part_no = SJA1105P_PART_NO,
.static_ops = sja1105p_table_ops,
.dyn_ops = sja1105pqrs_dyn_ops,
.qinq_tpid = ETH_P_8021AD,
.ptp_ts_bits = 32,
.ptpegr_ts_bytes = 8,
.num_cbs_shapers = SJA1105PQRS_MAX_CBS_COUNT,
.setup_rgmii_delay = sja1105pqrs_setup_rgmii_delay,
.reset_cmd = sja1105pqrs_reset_cmd,
.fdb_add_cmd = sja1105pqrs_fdb_add,
.fdb_del_cmd = sja1105pqrs_fdb_del,
.ptp_cmd_packing = sja1105pqrs_ptp_cmd_packing,
.regs = &sja1105pqrs_regs,
.name = "SJA1105P",
};
struct sja1105_info sja1105q_info = {
.device_id = SJA1105QS_DEVICE_ID,
.part_no = SJA1105Q_PART_NO,
.static_ops = sja1105q_table_ops,
.dyn_ops = sja1105pqrs_dyn_ops,
.qinq_tpid = ETH_P_8021AD,
.ptp_ts_bits = 32,
.ptpegr_ts_bytes = 8,
.num_cbs_shapers = SJA1105PQRS_MAX_CBS_COUNT,
.setup_rgmii_delay = sja1105pqrs_setup_rgmii_delay,
.reset_cmd = sja1105pqrs_reset_cmd,
.fdb_add_cmd = sja1105pqrs_fdb_add,
.fdb_del_cmd = sja1105pqrs_fdb_del,
.ptp_cmd_packing = sja1105pqrs_ptp_cmd_packing,
.regs = &sja1105pqrs_regs,
.name = "SJA1105Q",
};
struct sja1105_info sja1105r_info = {
.device_id = SJA1105PR_DEVICE_ID,
.part_no = SJA1105R_PART_NO,
.static_ops = sja1105r_table_ops,
.dyn_ops = sja1105pqrs_dyn_ops,
.qinq_tpid = ETH_P_8021AD,
.ptp_ts_bits = 32,
.ptpegr_ts_bytes = 8,
.num_cbs_shapers = SJA1105PQRS_MAX_CBS_COUNT,
.setup_rgmii_delay = sja1105pqrs_setup_rgmii_delay,
.reset_cmd = sja1105pqrs_reset_cmd,
.fdb_add_cmd = sja1105pqrs_fdb_add,
.fdb_del_cmd = sja1105pqrs_fdb_del,
.ptp_cmd_packing = sja1105pqrs_ptp_cmd_packing,
.regs = &sja1105pqrs_regs,
.name = "SJA1105R",
};
struct sja1105_info sja1105s_info = {
.device_id = SJA1105QS_DEVICE_ID,
.part_no = SJA1105S_PART_NO,
.static_ops = sja1105s_table_ops,
.dyn_ops = sja1105pqrs_dyn_ops,
.regs = &sja1105pqrs_regs,
.qinq_tpid = ETH_P_8021AD,
.ptp_ts_bits = 32,
.ptpegr_ts_bytes = 8,
.num_cbs_shapers = SJA1105PQRS_MAX_CBS_COUNT,
.setup_rgmii_delay = sja1105pqrs_setup_rgmii_delay,
.reset_cmd = sja1105pqrs_reset_cmd,
.fdb_add_cmd = sja1105pqrs_fdb_add,
.fdb_del_cmd = sja1105pqrs_fdb_del,
.ptp_cmd_packing = sja1105pqrs_ptp_cmd_packing,
.name = "SJA1105S",
};
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