Add clock driver. Clock is a hardware function discovered by walking xclbin metadata. A xrt device node will be created for it. Other part of driver configures clock through clock driver. Signed-off-by: Sonal Santan <sonal.santan@xxxxxxxxxx> Signed-off-by: Max Zhen <max.zhen@xxxxxxxxxx> Signed-off-by: Lizhi Hou <lizhi.hou@xxxxxxxxxx> --- drivers/fpga/xrt/include/xleaf/clock.h | 29 ++ drivers/fpga/xrt/lib/xleaf/clock.c | 652 +++++++++++++++++++++++++ 2 files changed, 681 insertions(+) create mode 100644 drivers/fpga/xrt/include/xleaf/clock.h create mode 100644 drivers/fpga/xrt/lib/xleaf/clock.c diff --git a/drivers/fpga/xrt/include/xleaf/clock.h b/drivers/fpga/xrt/include/xleaf/clock.h new file mode 100644 index 000000000000..6858473fd096 --- /dev/null +++ b/drivers/fpga/xrt/include/xleaf/clock.h @@ -0,0 +1,29 @@ +/* SPDX-License-Identifier: GPL-2.0 */ +/* + * Copyright (C) 2020-2021 Xilinx, Inc. + * + * Authors: + * Lizhi Hou <Lizhi.Hou@xxxxxxxxxx> + */ + +#ifndef _XRT_CLOCK_H_ +#define _XRT_CLOCK_H_ + +#include "xleaf.h" +#include <linux/xrt/xclbin.h> + +/* + * CLOCK driver leaf calls. + */ +enum xrt_clock_leaf_cmd { + XRT_CLOCK_SET = XRT_XLEAF_CUSTOM_BASE, /* See comments in xleaf.h */ + XRT_CLOCK_GET, + XRT_CLOCK_VERIFY, +}; + +struct xrt_clock_get { + u16 freq; + u32 freq_cnter; +}; + +#endif /* _XRT_CLOCK_H_ */ diff --git a/drivers/fpga/xrt/lib/xleaf/clock.c b/drivers/fpga/xrt/lib/xleaf/clock.c new file mode 100644 index 000000000000..7303be55c07a --- /dev/null +++ b/drivers/fpga/xrt/lib/xleaf/clock.c @@ -0,0 +1,652 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * Xilinx Alveo FPGA Clock Wizard Driver + * + * Copyright (C) 2020-2021 Xilinx, Inc. + * + * Authors: + * Lizhi Hou<Lizhi.Hou@xxxxxxxxxx> + * Sonal Santan <sonals@xxxxxxxxxx> + * David Zhang <davidzha@xxxxxxxxxx> + */ + +#include <linux/mod_devicetable.h> +#include <linux/delay.h> +#include <linux/device.h> +#include <linux/regmap.h> +#include <linux/io.h> +#include "metadata.h" +#include "xleaf.h" +#include "xleaf/clock.h" +#include "xleaf/clkfreq.h" + +/* XRT_CLOCK_MAX_NUM_CLOCKS should be a concept from XCLBIN_ in the future */ +#define XRT_CLOCK_MAX_NUM_CLOCKS 4 +#define XRT_CLOCK_STATUS_MASK 0xffff +#define XRT_CLOCK_STATUS_MEASURE_START 0x1 +#define XRT_CLOCK_STATUS_MEASURE_DONE 0x2 + +#define XRT_CLOCK_STATUS_REG 0x4 +#define XRT_CLOCK_CLKFBOUT_REG 0x200 +#define XRT_CLOCK_CLKOUT0_REG 0x208 +#define XRT_CLOCK_LOAD_SADDR_SEN_REG 0x25C +#define XRT_CLOCK_DEFAULT_EXPIRE_SECS 1 + +#define CLOCK_ERR(clock, fmt, arg...) \ + xrt_err((clock)->xdev, fmt "\n", ##arg) +#define CLOCK_WARN(clock, fmt, arg...) \ + xrt_warn((clock)->xdev, fmt "\n", ##arg) +#define CLOCK_INFO(clock, fmt, arg...) \ + xrt_info((clock)->xdev, fmt "\n", ##arg) +#define CLOCK_DBG(clock, fmt, arg...) \ + xrt_dbg((clock)->xdev, fmt "\n", ##arg) + +#define XRT_CLOCK "xrt_clock" + +XRT_DEFINE_REGMAP_CONFIG(clock_regmap_config); + +struct clock { + struct xrt_device *xdev; + struct regmap *regmap; + struct mutex clock_lock; /* clock dev lock */ + + const char *clock_ep_name; +}; + +/* + * Precomputed table with config0 and config2 register values together with + * target frequency. The steps are approximately 5 MHz apart. Table is + * generated by platform creation tool. + */ +static const struct xmgnt_ocl_clockwiz { + /* target frequency */ + u16 ocl; + /* config0 register */ + u32 config0; + /* config2 register */ + u32 config2; +} frequency_table[] = { + /*1275.000*/ { 10, 0x02EE0C01, 0x0001F47F }, + /*1575.000*/ { 15, 0x02EE0F01, 0x00000069}, + /*1600.000*/ { 20, 0x00001001, 0x00000050}, + /*1600.000*/ { 25, 0x00001001, 0x00000040}, + /*1575.000*/ { 30, 0x02EE0F01, 0x0001F434}, + /*1575.000*/ { 35, 0x02EE0F01, 0x0000002D}, + /*1600.000*/ { 40, 0x00001001, 0x00000028}, + /*1575.000*/ { 45, 0x02EE0F01, 0x00000023}, + /*1600.000*/ { 50, 0x00001001, 0x00000020}, + /*1512.500*/ { 55, 0x007D0F01, 0x0001F41B}, + /*1575.000*/ { 60, 0x02EE0F01, 0x0000FA1A}, + /*1462.500*/ { 65, 0x02710E01, 0x0001F416}, + /*1575.000*/ { 70, 0x02EE0F01, 0x0001F416}, + /*1575.000*/ { 75, 0x02EE0F01, 0x00000015}, + /*1600.000*/ { 80, 0x00001001, 0x00000014}, + /*1487.500*/ { 85, 0x036B0E01, 0x0001F411}, + /*1575.000*/ { 90, 0x02EE0F01, 0x0001F411}, + /*1425.000*/ { 95, 0x00FA0E01, 0x0000000F}, + /*1600.000*/ { 100, 0x00001001, 0x00000010}, + /*1575.000*/ { 105, 0x02EE0F01, 0x0000000F}, + /*1512.500*/ { 110, 0x007D0F01, 0x0002EE0D}, + /*1437.500*/ { 115, 0x01770E01, 0x0001F40C}, + /*1575.000*/ { 120, 0x02EE0F01, 0x00007D0D}, + /*1562.500*/ { 125, 0x02710F01, 0x0001F40C}, + /*1462.500*/ { 130, 0x02710E01, 0x0000FA0B}, + /*1350.000*/ { 135, 0x01F40D01, 0x0000000A}, + /*1575.000*/ { 140, 0x02EE0F01, 0x0000FA0B}, + /*1450.000*/ { 145, 0x01F40E01, 0x0000000A}, + /*1575.000*/ { 150, 0x02EE0F01, 0x0001F40A}, + /*1550.000*/ { 155, 0x01F40F01, 0x0000000A}, + /*1600.000*/ { 160, 0x00001001, 0x0000000A}, + /*1237.500*/ { 165, 0x01770C01, 0x0001F407}, + /*1487.500*/ { 170, 0x036B0E01, 0x0002EE08}, + /*1575.000*/ { 175, 0x02EE0F01, 0x00000009}, + /*1575.000*/ { 180, 0x02EE0F01, 0x0002EE08}, + /*1387.500*/ { 185, 0x036B0D01, 0x0001F407}, + /*1425.000*/ { 190, 0x00FA0E01, 0x0001F407}, + /*1462.500*/ { 195, 0x02710E01, 0x0001F407}, + /*1600.000*/ { 200, 0x00001001, 0x00000008}, + /*1537.500*/ { 205, 0x01770F01, 0x0001F407}, + /*1575.000*/ { 210, 0x02EE0F01, 0x0001F407}, + /*1075.000*/ { 215, 0x02EE0A01, 0x00000005}, + /*1512.500*/ { 220, 0x007D0F01, 0x00036B06}, + /*1575.000*/ { 225, 0x02EE0F01, 0x00000007}, + /*1437.500*/ { 230, 0x01770E01, 0x0000FA06}, + /*1175.000*/ { 235, 0x02EE0B01, 0x00000005}, + /*1500.000*/ { 240, 0x00000F01, 0x0000FA06}, + /*1225.000*/ { 245, 0x00FA0C01, 0x00000005}, + /*1562.500*/ { 250, 0x02710F01, 0x0000FA06}, + /*1275.000*/ { 255, 0x02EE0C01, 0x00000005}, + /*1462.500*/ { 260, 0x02710E01, 0x00027105}, + /*1325.000*/ { 265, 0x00FA0D01, 0x00000005}, + /*1350.000*/ { 270, 0x01F40D01, 0x00000005}, + /*1512.500*/ { 275, 0x007D0F01, 0x0001F405}, + /*1575.000*/ { 280, 0x02EE0F01, 0x00027105}, + /*1425.000*/ { 285, 0x00FA0E01, 0x00000005}, + /*1450.000*/ { 290, 0x01F40E01, 0x00000005}, + /*1475.000*/ { 295, 0x02EE0E01, 0x00000005}, + /*1575.000*/ { 300, 0x02EE0F01, 0x0000FA05}, + /*1525.000*/ { 305, 0x00FA0F01, 0x00000005}, + /*1550.000*/ { 310, 0x01F40F01, 0x00000005}, + /*1575.000*/ { 315, 0x02EE0F01, 0x00000005}, + /*1600.000*/ { 320, 0x00001001, 0x00000005}, + /*1462.500*/ { 325, 0x02710E01, 0x0001F404}, + /*1237.500*/ { 330, 0x01770C01, 0x0002EE03}, + /* 837.500*/ { 335, 0x01770801, 0x0001F402}, + /*1487.500*/ { 340, 0x036B0E01, 0x00017704}, + /* 862.500*/ { 345, 0x02710801, 0x0001F402}, + /*1575.000*/ { 350, 0x02EE0F01, 0x0001F404}, + /* 887.500*/ { 355, 0x036B0801, 0x0001F402}, + /*1575.000*/ { 360, 0x02EE0F01, 0x00017704}, + /* 912.500*/ { 365, 0x007D0901, 0x0001F402}, + /*1387.500*/ { 370, 0x036B0D01, 0x0002EE03}, + /*1500.000*/ { 375, 0x00000F01, 0x00000004}, + /*1425.000*/ { 380, 0x00FA0E01, 0x0002EE03}, + /* 962.500*/ { 385, 0x02710901, 0x0001F402}, + /*1462.500*/ { 390, 0x02710E01, 0x0002EE03}, + /* 987.500*/ { 395, 0x036B0901, 0x0001F402}, + /*1600.000*/ { 400, 0x00001001, 0x00000004}, + /*1012.500*/ { 405, 0x007D0A01, 0x0001F402}, + /*1537.500*/ { 410, 0x01770F01, 0x0002EE03}, + /*1037.500*/ { 415, 0x01770A01, 0x0001F402}, + /*1575.000*/ { 420, 0x02EE0F01, 0x0002EE03}, + /*1487.500*/ { 425, 0x036B0E01, 0x0001F403}, + /*1075.000*/ { 430, 0x02EE0A01, 0x0001F402}, + /*1087.500*/ { 435, 0x036B0A01, 0x0001F402}, + /*1375.000*/ { 440, 0x02EE0D01, 0x00007D03}, + /*1112.500*/ { 445, 0x007D0B01, 0x0001F402}, + /*1575.000*/ { 450, 0x02EE0F01, 0x0001F403}, + /*1137.500*/ { 455, 0x01770B01, 0x0001F402}, + /*1437.500*/ { 460, 0x01770E01, 0x00007D03}, + /*1162.500*/ { 465, 0x02710B01, 0x0001F402}, + /*1175.000*/ { 470, 0x02EE0B01, 0x0001F402}, + /*1425.000*/ { 475, 0x00FA0E01, 0x00000003}, + /*1500.000*/ { 480, 0x00000F01, 0x00007D03}, + /*1212.500*/ { 485, 0x007D0C01, 0x0001F402}, + /*1225.000*/ { 490, 0x00FA0C01, 0x0001F402}, + /*1237.500*/ { 495, 0x01770C01, 0x0001F402}, + /*1562.500*/ { 500, 0x02710F01, 0x00007D03}, + /*1262.500*/ { 505, 0x02710C01, 0x0001F402}, + /*1275.000*/ { 510, 0x02EE0C01, 0x0001F402}, + /*1287.500*/ { 515, 0x036B0C01, 0x0001F402}, + /*1300.000*/ { 520, 0x00000D01, 0x0001F402}, + /*1575.000*/ { 525, 0x02EE0F01, 0x00000003}, + /*1325.000*/ { 530, 0x00FA0D01, 0x0001F402}, + /*1337.500*/ { 535, 0x01770D01, 0x0001F402}, + /*1350.000*/ { 540, 0x01F40D01, 0x0001F402}, + /*1362.500*/ { 545, 0x02710D01, 0x0001F402}, + /*1512.500*/ { 550, 0x007D0F01, 0x0002EE02}, + /*1387.500*/ { 555, 0x036B0D01, 0x0001F402}, + /*1400.000*/ { 560, 0x00000E01, 0x0001F402}, + /*1412.500*/ { 565, 0x007D0E01, 0x0001F402}, + /*1425.000*/ { 570, 0x00FA0E01, 0x0001F402}, + /*1437.500*/ { 575, 0x01770E01, 0x0001F402}, + /*1450.000*/ { 580, 0x01F40E01, 0x0001F402}, + /*1462.500*/ { 585, 0x02710E01, 0x0001F402}, + /*1475.000*/ { 590, 0x02EE0E01, 0x0001F402}, + /*1487.500*/ { 595, 0x036B0E01, 0x0001F402}, + /*1575.000*/ { 600, 0x02EE0F01, 0x00027102}, + /*1512.500*/ { 605, 0x007D0F01, 0x0001F402}, + /*1525.000*/ { 610, 0x00FA0F01, 0x0001F402}, + /*1537.500*/ { 615, 0x01770F01, 0x0001F402}, + /*1550.000*/ { 620, 0x01F40F01, 0x0001F402}, + /*1562.500*/ { 625, 0x02710F01, 0x0001F402}, + /*1575.000*/ { 630, 0x02EE0F01, 0x0001F402}, + /*1587.500*/ { 635, 0x036B0F01, 0x0001F402}, + /*1600.000*/ { 640, 0x00001001, 0x0001F402}, + /*1290.000*/ { 645, 0x01F44005, 0x00000002}, + /*1462.500*/ { 650, 0x02710E01, 0x0000FA02} +}; + +static u32 find_matching_freq_config(unsigned short freq, + const struct xmgnt_ocl_clockwiz *table, + int size) +{ + u32 end = size - 1; + u32 start = 0; + u32 idx; + + if (freq < table[0].ocl) + return 0; + + if (freq > table[size - 1].ocl) + return size - 1; + + while (start < end) { + idx = (start + end) / 2; + if (freq == table[idx].ocl) + break; + if (freq < table[idx].ocl) + end = idx; + else + start = idx + 1; + } + if (freq < table[idx].ocl) + idx--; + + return idx; +} + +static u32 find_matching_freq(u32 freq, + const struct xmgnt_ocl_clockwiz *freq_table, + int freq_table_size) +{ + int idx = find_matching_freq_config(freq, freq_table, freq_table_size); + + return freq_table[idx].ocl; +} + +static inline int clock_wiz_busy(struct clock *clock, int cycle, int interval) +{ + u32 val = 0; + int count; + int ret; + + for (count = 0; count < cycle; count++) { + ret = regmap_read(clock->regmap, XRT_CLOCK_STATUS_REG, &val); + if (ret) { + CLOCK_ERR(clock, "read status failed %d", ret); + return ret; + } + if (val == 1) + break; + + mdelay(interval); + } + if (val != 1) { + CLOCK_ERR(clock, "clockwiz is (%u) busy after %d ms", + val, cycle * interval); + return -EBUSY; + } + + return 0; +} + +static int get_freq(struct clock *clock, u16 *freq) +{ + u32 mul_frac0 = 0; + u32 div_frac1 = 0; + u32 mul0, div0; + u64 input; + u32 div1; + u32 val; + int ret; + + WARN_ON(!mutex_is_locked(&clock->clock_lock)); + + ret = regmap_read(clock->regmap, XRT_CLOCK_STATUS_REG, &val); + if (ret) { + CLOCK_ERR(clock, "read status failed %d", ret); + return ret; + } + + if ((val & 0x1) == 0) { + CLOCK_ERR(clock, "clockwiz is busy %x", val); + *freq = 0; + return -EBUSY; + } + + ret = regmap_read(clock->regmap, XRT_CLOCK_CLKFBOUT_REG, &val); + if (ret) { + CLOCK_ERR(clock, "read clkfbout failed %d", ret); + return ret; + } + + div0 = val & 0xff; + mul0 = (val & 0xff00) >> 8; + if (val & BIT(26)) { + mul_frac0 = val >> 16; + mul_frac0 &= 0x3ff; + } + + /* + * Multiply both numerator (mul0) and the denominator (div0) with 1000 + * to account for fractional portion of multiplier + */ + mul0 *= 1000; + mul0 += mul_frac0; + div0 *= 1000; + + ret = regmap_read(clock->regmap, XRT_CLOCK_CLKOUT0_REG, &val); + if (ret) { + CLOCK_ERR(clock, "read clkout0 failed %d", ret); + return ret; + } + + div1 = val & 0xff; + if (val & BIT(18)) { + div_frac1 = val >> 8; + div_frac1 &= 0x3ff; + } + + /* + * Multiply both numerator (mul0) and the denominator (div1) with + * 1000 to account for fractional portion of divider + */ + + div1 *= 1000; + div1 += div_frac1; + div0 *= div1; + mul0 *= 1000; + if (div0 == 0) { + CLOCK_ERR(clock, "clockwiz 0 divider"); + return 0; + } + + input = mul0 * 100; + do_div(input, div0); + *freq = (u16)input; + + return 0; +} + +static int set_freq(struct clock *clock, u16 freq) +{ + int err = 0; + u32 idx = 0; + u32 val = 0; + u32 config; + + mutex_lock(&clock->clock_lock); + idx = find_matching_freq_config(freq, frequency_table, + ARRAY_SIZE(frequency_table)); + + CLOCK_INFO(clock, "New: %d Mhz", freq); + err = clock_wiz_busy(clock, 20, 50); + if (err) + goto fail; + + config = frequency_table[idx].config0; + err = regmap_write(clock->regmap, XRT_CLOCK_CLKFBOUT_REG, config); + if (err) { + CLOCK_ERR(clock, "write clkfbout failed %d", err); + goto fail; + } + + config = frequency_table[idx].config2; + err = regmap_write(clock->regmap, XRT_CLOCK_CLKOUT0_REG, config); + if (err) { + CLOCK_ERR(clock, "write clkout0 failed %d", err); + goto fail; + } + + mdelay(10); + err = regmap_write(clock->regmap, XRT_CLOCK_LOAD_SADDR_SEN_REG, 7); + if (err) { + CLOCK_ERR(clock, "write load_saddr_sen failed %d", err); + goto fail; + } + + mdelay(1); + err = regmap_write(clock->regmap, XRT_CLOCK_LOAD_SADDR_SEN_REG, 2); + if (err) { + CLOCK_ERR(clock, "write saddr failed %d", err); + goto fail; + } + + CLOCK_INFO(clock, "clockwiz waiting for locked signal"); + + err = clock_wiz_busy(clock, 100, 100); + if (err) { + CLOCK_ERR(clock, "clockwiz MMCM/PLL did not lock"); + /* restore */ + regmap_write(clock->regmap, XRT_CLOCK_LOAD_SADDR_SEN_REG, 4); + mdelay(10); + regmap_write(clock->regmap, XRT_CLOCK_LOAD_SADDR_SEN_REG, 0); + goto fail; + } + regmap_read(clock->regmap, XRT_CLOCK_CLKFBOUT_REG, &val); + CLOCK_INFO(clock, "clockwiz CONFIG(0) 0x%x", val); + regmap_read(clock->regmap, XRT_CLOCK_CLKOUT0_REG, &val); + CLOCK_INFO(clock, "clockwiz CONFIG(2) 0x%x", val); + +fail: + mutex_unlock(&clock->clock_lock); + return err; +} + +static int get_freq_counter(struct clock *clock, u32 *freq) +{ + struct xrt_subdev_platdata *pdata = DEV_PDATA(clock->xdev); + struct xrt_device *xdev = clock->xdev; + struct xrt_device *counter_leaf; + const void *counter; + int err; + + WARN_ON(!mutex_is_locked(&clock->clock_lock)); + + err = xrt_md_get_prop(DEV(xdev), pdata->xsp_dtb, clock->clock_ep_name, + NULL, XRT_MD_PROP_CLK_CNT, &counter, NULL); + if (err) { + xrt_err(xdev, "no counter specified"); + return err; + } + + counter_leaf = xleaf_get_leaf_by_epname(xdev, counter); + if (!counter_leaf) { + xrt_err(xdev, "can't find counter"); + return -ENOENT; + } + + err = xleaf_call(counter_leaf, XRT_CLKFREQ_READ, freq); + if (err) + xrt_err(xdev, "can't read counter"); + xleaf_put_leaf(clock->xdev, counter_leaf); + + return err; +} + +static int clock_get_freq(struct clock *clock, u16 *freq, u32 *freq_cnter) +{ + int err = 0; + + mutex_lock(&clock->clock_lock); + + if (err == 0 && freq) + err = get_freq(clock, freq); + + if (err == 0 && freq_cnter) + err = get_freq_counter(clock, freq_cnter); + + mutex_unlock(&clock->clock_lock); + return err; +} + +static int clock_verify_freq(struct clock *clock) +{ + u32 lookup_freq, clock_freq_counter, request_in_khz, tolerance; + int err = 0; + u16 freq; + + mutex_lock(&clock->clock_lock); + + err = get_freq(clock, &freq); + if (err) { + xrt_err(clock->xdev, "get freq failed, %d", err); + goto end; + } + + err = get_freq_counter(clock, &clock_freq_counter); + if (err) { + xrt_err(clock->xdev, "get freq counter failed, %d", err); + goto end; + } + + lookup_freq = find_matching_freq(freq, frequency_table, + ARRAY_SIZE(frequency_table)); + request_in_khz = lookup_freq * 1000; + tolerance = lookup_freq * 50; + if (tolerance < abs(clock_freq_counter - request_in_khz)) { + CLOCK_ERR(clock, + "set clock(%s) failed, request %ukhz, actual %dkhz", + clock->clock_ep_name, request_in_khz, clock_freq_counter); + err = -EDOM; + } else { + CLOCK_INFO(clock, "verified clock (%s)", clock->clock_ep_name); + } + +end: + mutex_unlock(&clock->clock_lock); + return err; +} + +static int clock_init(struct clock *clock) +{ + struct xrt_subdev_platdata *pdata = DEV_PDATA(clock->xdev); + const u16 *freq; + int err = 0; + + err = xrt_md_get_prop(DEV(clock->xdev), pdata->xsp_dtb, + clock->clock_ep_name, NULL, XRT_MD_PROP_CLK_FREQ, + (const void **)&freq, NULL); + if (err) { + xrt_info(clock->xdev, "no default freq"); + return 0; + } + + err = set_freq(clock, be16_to_cpu(*freq)); + + return err; +} + +static ssize_t freq_show(struct device *dev, struct device_attribute *attr, char *buf) +{ + struct clock *clock = xrt_get_drvdata(to_xrt_dev(dev)); + ssize_t count; + u16 freq = 0; + + count = clock_get_freq(clock, &freq, NULL); + if (count < 0) + return count; + + count = snprintf(buf, 64, "%u\n", freq); + + return count; +} +static DEVICE_ATTR_RO(freq); + +static struct attribute *clock_attrs[] = { + &dev_attr_freq.attr, + NULL, +}; + +static struct attribute_group clock_attr_group = { + .attrs = clock_attrs, +}; + +static int +xrt_clock_leaf_call(struct xrt_device *xdev, u32 cmd, void *arg) +{ + struct clock *clock; + int ret = 0; + + clock = xrt_get_drvdata(xdev); + + switch (cmd) { + case XRT_XLEAF_EVENT: + /* Does not handle any event. */ + break; + case XRT_CLOCK_SET: { + u16 freq = (u16)(uintptr_t)arg; + + ret = set_freq(clock, freq); + break; + } + case XRT_CLOCK_VERIFY: + ret = clock_verify_freq(clock); + break; + case XRT_CLOCK_GET: { + struct xrt_clock_get *get = + (struct xrt_clock_get *)arg; + + ret = clock_get_freq(clock, &get->freq, &get->freq_cnter); + break; + } + default: + xrt_err(xdev, "unsupported cmd %d", cmd); + return -EINVAL; + } + + return ret; +} + +static void clock_remove(struct xrt_device *xdev) +{ + sysfs_remove_group(&xdev->dev.kobj, &clock_attr_group); +} + +static int clock_probe(struct xrt_device *xdev) +{ + struct clock *clock = NULL; + void __iomem *base = NULL; + struct resource *res; + int ret; + + clock = devm_kzalloc(&xdev->dev, sizeof(*clock), GFP_KERNEL); + if (!clock) + return -ENOMEM; + + xrt_set_drvdata(xdev, clock); + clock->xdev = xdev; + mutex_init(&clock->clock_lock); + + res = xrt_get_resource(xdev, IORESOURCE_MEM, 0); + if (!res) { + ret = -EINVAL; + goto failed; + } + + base = devm_ioremap_resource(&xdev->dev, res); + if (IS_ERR(base)) { + ret = PTR_ERR(base); + goto failed; + } + + clock->regmap = devm_regmap_init_mmio(&xdev->dev, base, &clock_regmap_config); + if (IS_ERR(clock->regmap)) { + CLOCK_ERR(clock, "regmap %pR failed", res); + ret = PTR_ERR(clock->regmap); + goto failed; + } + clock->clock_ep_name = res->name; + + ret = clock_init(clock); + if (ret) + goto failed; + + ret = sysfs_create_group(&xdev->dev.kobj, &clock_attr_group); + if (ret) { + CLOCK_ERR(clock, "create clock attrs failed: %d", ret); + goto failed; + } + + CLOCK_INFO(clock, "successfully initialized Clock subdev"); + + return 0; + +failed: + return ret; +} + +static struct xrt_dev_endpoints xrt_clock_endpoints[] = { + { + .xse_names = (struct xrt_dev_ep_names[]) { + { .compat = "clkwiz" }, + { NULL }, + }, + .xse_min_ep = 1, + }, + { 0 }, +}; + +static struct xrt_driver xrt_clock_driver = { + .driver = { + .name = XRT_CLOCK, + }, + .subdev_id = XRT_SUBDEV_CLOCK, + .endpoints = xrt_clock_endpoints, + .probe = clock_probe, + .remove = clock_remove, + .leaf_call = xrt_clock_leaf_call, +}; + +XRT_LEAF_INIT_FINI_FUNC(clock); -- 2.27.0