linux/drivers/gpu/drm/msm/hdmi/hdmi_hdcp.c
<<
>>
Prefs
   1// SPDX-License-Identifier: GPL-2.0-only
   2/* Copyright (c) 2010-2015, The Linux Foundation. All rights reserved.
   3 */
   4
   5#include "hdmi.h"
   6#include <linux/qcom_scm.h>
   7
   8#define HDCP_REG_ENABLE 0x01
   9#define HDCP_REG_DISABLE 0x00
  10#define HDCP_PORT_ADDR 0x74
  11
  12#define HDCP_INT_STATUS_MASK ( \
  13                HDMI_HDCP_INT_CTRL_AUTH_SUCCESS_INT | \
  14                HDMI_HDCP_INT_CTRL_AUTH_FAIL_INT | \
  15                HDMI_HDCP_INT_CTRL_AUTH_XFER_REQ_INT | \
  16                HDMI_HDCP_INT_CTRL_AUTH_XFER_DONE_INT)
  17
  18#define AUTH_WORK_RETRIES_TIME 100
  19#define AUTH_RETRIES_TIME 30
  20
  21/* QFPROM Registers for HDMI/HDCP */
  22#define QFPROM_RAW_FEAT_CONFIG_ROW0_LSB  0x000000F8
  23#define QFPROM_RAW_FEAT_CONFIG_ROW0_MSB  0x000000FC
  24#define HDCP_KSV_LSB                     0x000060D8
  25#define HDCP_KSV_MSB                     0x000060DC
  26
  27enum DS_TYPE {  /* type of downstream device */
  28        DS_UNKNOWN,
  29        DS_RECEIVER,
  30        DS_REPEATER,
  31};
  32
  33enum hdmi_hdcp_state {
  34        HDCP_STATE_NO_AKSV,
  35        HDCP_STATE_INACTIVE,
  36        HDCP_STATE_AUTHENTICATING,
  37        HDCP_STATE_AUTHENTICATED,
  38        HDCP_STATE_AUTH_FAILED
  39};
  40
  41struct hdmi_hdcp_reg_data {
  42        u32 reg_id;
  43        u32 off;
  44        char *name;
  45        u32 reg_val;
  46};
  47
  48struct hdmi_hdcp_ctrl {
  49        struct hdmi *hdmi;
  50        u32 auth_retries;
  51        bool tz_hdcp;
  52        enum hdmi_hdcp_state hdcp_state;
  53        struct work_struct hdcp_auth_work;
  54        struct work_struct hdcp_reauth_work;
  55
  56#define AUTH_ABORT_EV 1
  57#define AUTH_RESULT_RDY_EV 2
  58        unsigned long auth_event;
  59        wait_queue_head_t auth_event_queue;
  60
  61        u32 ksv_fifo_w_index;
  62        /*
  63         * store aksv from qfprom
  64         */
  65        u32 aksv_lsb;
  66        u32 aksv_msb;
  67        bool aksv_valid;
  68        u32 ds_type;
  69        u32 bksv_lsb;
  70        u32 bksv_msb;
  71        u8 dev_count;
  72        u8 depth;
  73        u8 ksv_list[5 * 127];
  74        bool max_cascade_exceeded;
  75        bool max_dev_exceeded;
  76};
  77
  78static int msm_hdmi_ddc_read(struct hdmi *hdmi, u16 addr, u8 offset,
  79        u8 *data, u16 data_len)
  80{
  81        int rc;
  82        int retry = 5;
  83        struct i2c_msg msgs[] = {
  84                {
  85                        .addr   = addr >> 1,
  86                        .flags  = 0,
  87                        .len    = 1,
  88                        .buf    = &offset,
  89                }, {
  90                        .addr   = addr >> 1,
  91                        .flags  = I2C_M_RD,
  92                        .len    = data_len,
  93                        .buf    = data,
  94                }
  95        };
  96
  97        DBG("Start DDC read");
  98retry:
  99        rc = i2c_transfer(hdmi->i2c, msgs, 2);
 100
 101        retry--;
 102        if (rc == 2)
 103                rc = 0;
 104        else if (retry > 0)
 105                goto retry;
 106        else
 107                rc = -EIO;
 108
 109        DBG("End DDC read %d", rc);
 110
 111        return rc;
 112}
 113
 114#define HDCP_DDC_WRITE_MAX_BYTE_NUM 32
 115
 116static int msm_hdmi_ddc_write(struct hdmi *hdmi, u16 addr, u8 offset,
 117        u8 *data, u16 data_len)
 118{
 119        int rc;
 120        int retry = 10;
 121        u8 buf[HDCP_DDC_WRITE_MAX_BYTE_NUM];
 122        struct i2c_msg msgs[] = {
 123                {
 124                        .addr   = addr >> 1,
 125                        .flags  = 0,
 126                        .len    = 1,
 127                }
 128        };
 129
 130        DBG("Start DDC write");
 131        if (data_len > (HDCP_DDC_WRITE_MAX_BYTE_NUM - 1)) {
 132                pr_err("%s: write size too big\n", __func__);
 133                return -ERANGE;
 134        }
 135
 136        buf[0] = offset;
 137        memcpy(&buf[1], data, data_len);
 138        msgs[0].buf = buf;
 139        msgs[0].len = data_len + 1;
 140retry:
 141        rc = i2c_transfer(hdmi->i2c, msgs, 1);
 142
 143        retry--;
 144        if (rc == 1)
 145                rc = 0;
 146        else if (retry > 0)
 147                goto retry;
 148        else
 149                rc = -EIO;
 150
 151        DBG("End DDC write %d", rc);
 152
 153        return rc;
 154}
 155
 156static int msm_hdmi_hdcp_scm_wr(struct hdmi_hdcp_ctrl *hdcp_ctrl, u32 *preg,
 157        u32 *pdata, u32 count)
 158{
 159        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 160        struct qcom_scm_hdcp_req scm_buf[QCOM_SCM_HDCP_MAX_REQ_CNT];
 161        u32 resp, phy_addr, idx = 0;
 162        int i, ret = 0;
 163
 164        WARN_ON(!pdata || !preg || (count == 0));
 165
 166        if (hdcp_ctrl->tz_hdcp) {
 167                phy_addr = (u32)hdmi->mmio_phy_addr;
 168
 169                while (count) {
 170                        memset(scm_buf, 0, sizeof(scm_buf));
 171                        for (i = 0; i < count && i < QCOM_SCM_HDCP_MAX_REQ_CNT;
 172                                i++) {
 173                                scm_buf[i].addr = phy_addr + preg[idx];
 174                                scm_buf[i].val  = pdata[idx];
 175                                idx++;
 176                        }
 177                        ret = qcom_scm_hdcp_req(scm_buf, i, &resp);
 178
 179                        if (ret || resp) {
 180                                pr_err("%s: error: scm_call ret=%d resp=%u\n",
 181                                        __func__, ret, resp);
 182                                ret = -EINVAL;
 183                                break;
 184                        }
 185
 186                        count -= i;
 187                }
 188        } else {
 189                for (i = 0; i < count; i++)
 190                        hdmi_write(hdmi, preg[i], pdata[i]);
 191        }
 192
 193        return ret;
 194}
 195
 196void msm_hdmi_hdcp_irq(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 197{
 198        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 199        u32 reg_val, hdcp_int_status;
 200        unsigned long flags;
 201
 202        spin_lock_irqsave(&hdmi->reg_lock, flags);
 203        reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_INT_CTRL);
 204        hdcp_int_status = reg_val & HDCP_INT_STATUS_MASK;
 205        if (!hdcp_int_status) {
 206                spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 207                return;
 208        }
 209        /* Clear Interrupts */
 210        reg_val |= hdcp_int_status << 1;
 211        /* Clear AUTH_FAIL_INFO as well */
 212        if (hdcp_int_status & HDMI_HDCP_INT_CTRL_AUTH_FAIL_INT)
 213                reg_val |= HDMI_HDCP_INT_CTRL_AUTH_FAIL_INFO_ACK;
 214        hdmi_write(hdmi, REG_HDMI_HDCP_INT_CTRL, reg_val);
 215        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 216
 217        DBG("hdcp irq %x", hdcp_int_status);
 218
 219        if (hdcp_int_status & HDMI_HDCP_INT_CTRL_AUTH_SUCCESS_INT) {
 220                pr_info("%s:AUTH_SUCCESS_INT received\n", __func__);
 221                if (HDCP_STATE_AUTHENTICATING == hdcp_ctrl->hdcp_state) {
 222                        set_bit(AUTH_RESULT_RDY_EV, &hdcp_ctrl->auth_event);
 223                        wake_up_all(&hdcp_ctrl->auth_event_queue);
 224                }
 225        }
 226
 227        if (hdcp_int_status & HDMI_HDCP_INT_CTRL_AUTH_FAIL_INT) {
 228                reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_LINK0_STATUS);
 229                pr_info("%s: AUTH_FAIL_INT rcvd, LINK0_STATUS=0x%08x\n",
 230                        __func__, reg_val);
 231                if (HDCP_STATE_AUTHENTICATED == hdcp_ctrl->hdcp_state)
 232                        queue_work(hdmi->workq, &hdcp_ctrl->hdcp_reauth_work);
 233                else if (HDCP_STATE_AUTHENTICATING ==
 234                                hdcp_ctrl->hdcp_state) {
 235                        set_bit(AUTH_RESULT_RDY_EV, &hdcp_ctrl->auth_event);
 236                        wake_up_all(&hdcp_ctrl->auth_event_queue);
 237                }
 238        }
 239}
 240
 241static int msm_hdmi_hdcp_msleep(struct hdmi_hdcp_ctrl *hdcp_ctrl, u32 ms, u32 ev)
 242{
 243        int rc;
 244
 245        rc = wait_event_timeout(hdcp_ctrl->auth_event_queue,
 246                !!test_bit(ev, &hdcp_ctrl->auth_event),
 247                msecs_to_jiffies(ms));
 248        if (rc) {
 249                pr_info("%s: msleep is canceled by event %d\n",
 250                                __func__, ev);
 251                clear_bit(ev, &hdcp_ctrl->auth_event);
 252                return -ECANCELED;
 253        }
 254
 255        return 0;
 256}
 257
 258static int msm_hdmi_hdcp_read_validate_aksv(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 259{
 260        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 261
 262        /* Fetch aksv from QFPROM, this info should be public. */
 263        hdcp_ctrl->aksv_lsb = hdmi_qfprom_read(hdmi, HDCP_KSV_LSB);
 264        hdcp_ctrl->aksv_msb = hdmi_qfprom_read(hdmi, HDCP_KSV_MSB);
 265
 266        /* check there are 20 ones in AKSV */
 267        if ((hweight32(hdcp_ctrl->aksv_lsb) + hweight32(hdcp_ctrl->aksv_msb))
 268                        != 20) {
 269                pr_err("%s: AKSV QFPROM doesn't have 20 1's, 20 0's\n",
 270                        __func__);
 271                pr_err("%s: QFPROM AKSV chk failed (AKSV=%02x%08x)\n",
 272                        __func__, hdcp_ctrl->aksv_msb,
 273                        hdcp_ctrl->aksv_lsb);
 274                return -EINVAL;
 275        }
 276        DBG("AKSV=%02x%08x", hdcp_ctrl->aksv_msb, hdcp_ctrl->aksv_lsb);
 277
 278        return 0;
 279}
 280
 281static int msm_reset_hdcp_ddc_failures(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 282{
 283        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 284        u32 reg_val, failure, nack0;
 285        int rc = 0;
 286
 287        /* Check for any DDC transfer failures */
 288        reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_DDC_STATUS);
 289        failure = reg_val & HDMI_HDCP_DDC_STATUS_FAILED;
 290        nack0 = reg_val & HDMI_HDCP_DDC_STATUS_NACK0;
 291        DBG("HDCP_DDC_STATUS=0x%x, FAIL=%d, NACK0=%d",
 292                reg_val, failure, nack0);
 293
 294        if (failure) {
 295                /*
 296                 * Indicates that the last HDCP HW DDC transfer failed.
 297                 * This occurs when a transfer is attempted with HDCP DDC
 298                 * disabled (HDCP_DDC_DISABLE=1) or the number of retries
 299                 * matches HDCP_DDC_RETRY_CNT.
 300                 * Failure occurred,  let's clear it.
 301                 */
 302                DBG("DDC failure detected");
 303
 304                /* First, Disable DDC */
 305                hdmi_write(hdmi, REG_HDMI_HDCP_DDC_CTRL_0,
 306                        HDMI_HDCP_DDC_CTRL_0_DISABLE);
 307
 308                /* ACK the Failure to Clear it */
 309                reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_DDC_CTRL_1);
 310                reg_val |= HDMI_HDCP_DDC_CTRL_1_FAILED_ACK;
 311                hdmi_write(hdmi, REG_HDMI_HDCP_DDC_CTRL_1, reg_val);
 312
 313                /* Check if the FAILURE got Cleared */
 314                reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_DDC_STATUS);
 315                if (reg_val & HDMI_HDCP_DDC_STATUS_FAILED)
 316                        pr_info("%s: Unable to clear HDCP DDC Failure\n",
 317                                __func__);
 318
 319                /* Re-Enable HDCP DDC */
 320                hdmi_write(hdmi, REG_HDMI_HDCP_DDC_CTRL_0, 0);
 321        }
 322
 323        if (nack0) {
 324                DBG("Before: HDMI_DDC_SW_STATUS=0x%08x",
 325                        hdmi_read(hdmi, REG_HDMI_DDC_SW_STATUS));
 326                /* Reset HDMI DDC software status */
 327                reg_val = hdmi_read(hdmi, REG_HDMI_DDC_CTRL);
 328                reg_val |= HDMI_DDC_CTRL_SW_STATUS_RESET;
 329                hdmi_write(hdmi, REG_HDMI_DDC_CTRL, reg_val);
 330
 331                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
 332
 333                reg_val = hdmi_read(hdmi, REG_HDMI_DDC_CTRL);
 334                reg_val &= ~HDMI_DDC_CTRL_SW_STATUS_RESET;
 335                hdmi_write(hdmi, REG_HDMI_DDC_CTRL, reg_val);
 336
 337                /* Reset HDMI DDC Controller */
 338                reg_val = hdmi_read(hdmi, REG_HDMI_DDC_CTRL);
 339                reg_val |= HDMI_DDC_CTRL_SOFT_RESET;
 340                hdmi_write(hdmi, REG_HDMI_DDC_CTRL, reg_val);
 341
 342                /* If previous msleep is aborted, skip this msleep */
 343                if (!rc)
 344                        rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
 345
 346                reg_val = hdmi_read(hdmi, REG_HDMI_DDC_CTRL);
 347                reg_val &= ~HDMI_DDC_CTRL_SOFT_RESET;
 348                hdmi_write(hdmi, REG_HDMI_DDC_CTRL, reg_val);
 349                DBG("After: HDMI_DDC_SW_STATUS=0x%08x",
 350                        hdmi_read(hdmi, REG_HDMI_DDC_SW_STATUS));
 351        }
 352
 353        return rc;
 354}
 355
 356static int msm_hdmi_hdcp_hw_ddc_clean(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 357{
 358        int rc;
 359        u32 hdcp_ddc_status, ddc_hw_status;
 360        u32 xfer_done, xfer_req, hw_done;
 361        bool hw_not_ready;
 362        u32 timeout_count;
 363        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 364
 365        if (hdmi_read(hdmi, REG_HDMI_DDC_HW_STATUS) == 0)
 366                return 0;
 367
 368        /* Wait to be clean on DDC HW engine */
 369        timeout_count = 100;
 370        do {
 371                hdcp_ddc_status = hdmi_read(hdmi, REG_HDMI_HDCP_DDC_STATUS);
 372                ddc_hw_status = hdmi_read(hdmi, REG_HDMI_DDC_HW_STATUS);
 373
 374                xfer_done = hdcp_ddc_status & HDMI_HDCP_DDC_STATUS_XFER_DONE;
 375                xfer_req = hdcp_ddc_status & HDMI_HDCP_DDC_STATUS_XFER_REQ;
 376                hw_done = ddc_hw_status & HDMI_DDC_HW_STATUS_DONE;
 377                hw_not_ready = !xfer_done || xfer_req || !hw_done;
 378
 379                if (hw_not_ready)
 380                        break;
 381
 382                timeout_count--;
 383                if (!timeout_count) {
 384                        pr_warn("%s: hw_ddc_clean failed\n", __func__);
 385                        return -ETIMEDOUT;
 386                }
 387
 388                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
 389                if (rc)
 390                        return rc;
 391        } while (1);
 392
 393        return 0;
 394}
 395
 396static void msm_hdmi_hdcp_reauth_work(struct work_struct *work)
 397{
 398        struct hdmi_hdcp_ctrl *hdcp_ctrl = container_of(work,
 399                struct hdmi_hdcp_ctrl, hdcp_reauth_work);
 400        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 401        unsigned long flags;
 402        u32 reg_val;
 403
 404        DBG("HDCP REAUTH WORK");
 405        /*
 406         * Disable HPD circuitry.
 407         * This is needed to reset the HDCP cipher engine so that when we
 408         * attempt a re-authentication, HW would clear the AN0_READY and
 409         * AN1_READY bits in HDMI_HDCP_LINK0_STATUS register
 410         */
 411        spin_lock_irqsave(&hdmi->reg_lock, flags);
 412        reg_val = hdmi_read(hdmi, REG_HDMI_HPD_CTRL);
 413        reg_val &= ~HDMI_HPD_CTRL_ENABLE;
 414        hdmi_write(hdmi, REG_HDMI_HPD_CTRL, reg_val);
 415
 416        /* Disable HDCP interrupts */
 417        hdmi_write(hdmi, REG_HDMI_HDCP_INT_CTRL, 0);
 418        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 419
 420        hdmi_write(hdmi, REG_HDMI_HDCP_RESET,
 421                HDMI_HDCP_RESET_LINK0_DEAUTHENTICATE);
 422
 423        /* Wait to be clean on DDC HW engine */
 424        if (msm_hdmi_hdcp_hw_ddc_clean(hdcp_ctrl)) {
 425                pr_info("%s: reauth work aborted\n", __func__);
 426                return;
 427        }
 428
 429        /* Disable encryption and disable the HDCP block */
 430        hdmi_write(hdmi, REG_HDMI_HDCP_CTRL, 0);
 431
 432        /* Enable HPD circuitry */
 433        spin_lock_irqsave(&hdmi->reg_lock, flags);
 434        reg_val = hdmi_read(hdmi, REG_HDMI_HPD_CTRL);
 435        reg_val |= HDMI_HPD_CTRL_ENABLE;
 436        hdmi_write(hdmi, REG_HDMI_HPD_CTRL, reg_val);
 437        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 438
 439        /*
 440         * Only retry defined times then abort current authenticating process
 441         */
 442        if (++hdcp_ctrl->auth_retries == AUTH_RETRIES_TIME) {
 443                hdcp_ctrl->hdcp_state = HDCP_STATE_INACTIVE;
 444                hdcp_ctrl->auth_retries = 0;
 445                pr_info("%s: abort reauthentication!\n", __func__);
 446
 447                return;
 448        }
 449
 450        DBG("Queue AUTH WORK");
 451        hdcp_ctrl->hdcp_state = HDCP_STATE_AUTHENTICATING;
 452        queue_work(hdmi->workq, &hdcp_ctrl->hdcp_auth_work);
 453}
 454
 455static int msm_hdmi_hdcp_auth_prepare(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 456{
 457        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 458        u32 link0_status;
 459        u32 reg_val;
 460        unsigned long flags;
 461        int rc;
 462
 463        if (!hdcp_ctrl->aksv_valid) {
 464                rc = msm_hdmi_hdcp_read_validate_aksv(hdcp_ctrl);
 465                if (rc) {
 466                        pr_err("%s: ASKV validation failed\n", __func__);
 467                        hdcp_ctrl->hdcp_state = HDCP_STATE_NO_AKSV;
 468                        return -ENOTSUPP;
 469                }
 470                hdcp_ctrl->aksv_valid = true;
 471        }
 472
 473        spin_lock_irqsave(&hdmi->reg_lock, flags);
 474        /* disable HDMI Encrypt */
 475        reg_val = hdmi_read(hdmi, REG_HDMI_CTRL);
 476        reg_val &= ~HDMI_CTRL_ENCRYPTED;
 477        hdmi_write(hdmi, REG_HDMI_CTRL, reg_val);
 478
 479        /* Enabling Software DDC */
 480        reg_val = hdmi_read(hdmi, REG_HDMI_DDC_ARBITRATION);
 481        reg_val &= ~HDMI_DDC_ARBITRATION_HW_ARBITRATION;
 482        hdmi_write(hdmi, REG_HDMI_DDC_ARBITRATION, reg_val);
 483        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 484
 485        /*
 486         * Write AKSV read from QFPROM to the HDCP registers.
 487         * This step is needed for HDCP authentication and must be
 488         * written before enabling HDCP.
 489         */
 490        hdmi_write(hdmi, REG_HDMI_HDCP_SW_LOWER_AKSV, hdcp_ctrl->aksv_lsb);
 491        hdmi_write(hdmi, REG_HDMI_HDCP_SW_UPPER_AKSV, hdcp_ctrl->aksv_msb);
 492
 493        /*
 494         * HDCP setup prior to enabling HDCP_CTRL.
 495         * Setup seed values for random number An.
 496         */
 497        hdmi_write(hdmi, REG_HDMI_HDCP_ENTROPY_CTRL0, 0xB1FFB0FF);
 498        hdmi_write(hdmi, REG_HDMI_HDCP_ENTROPY_CTRL1, 0xF00DFACE);
 499
 500        /* Disable the RngCipher state */
 501        reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_DEBUG_CTRL);
 502        reg_val &= ~HDMI_HDCP_DEBUG_CTRL_RNG_CIPHER;
 503        hdmi_write(hdmi, REG_HDMI_HDCP_DEBUG_CTRL, reg_val);
 504        DBG("HDCP_DEBUG_CTRL=0x%08x",
 505                hdmi_read(hdmi, REG_HDMI_HDCP_DEBUG_CTRL));
 506
 507        /*
 508         * Ensure that all register writes are completed before
 509         * enabling HDCP cipher
 510         */
 511        wmb();
 512
 513        /*
 514         * Enable HDCP
 515         * This needs to be done as early as possible in order for the
 516         * hardware to make An available to read
 517         */
 518        hdmi_write(hdmi, REG_HDMI_HDCP_CTRL, HDMI_HDCP_CTRL_ENABLE);
 519
 520        /*
 521         * If we had stale values for the An ready bit, it should most
 522         * likely be cleared now after enabling HDCP cipher
 523         */
 524        link0_status = hdmi_read(hdmi, REG_HDMI_HDCP_LINK0_STATUS);
 525        DBG("After enabling HDCP Link0_Status=0x%08x", link0_status);
 526        if (!(link0_status &
 527                (HDMI_HDCP_LINK0_STATUS_AN_0_READY |
 528                HDMI_HDCP_LINK0_STATUS_AN_1_READY)))
 529                DBG("An not ready after enabling HDCP");
 530
 531        /* Clear any DDC failures from previous tries before enable HDCP*/
 532        rc = msm_reset_hdcp_ddc_failures(hdcp_ctrl);
 533
 534        return rc;
 535}
 536
 537static void msm_hdmi_hdcp_auth_fail(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 538{
 539        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 540        u32 reg_val;
 541        unsigned long flags;
 542
 543        DBG("hdcp auth failed, queue reauth work");
 544        /* clear HDMI Encrypt */
 545        spin_lock_irqsave(&hdmi->reg_lock, flags);
 546        reg_val = hdmi_read(hdmi, REG_HDMI_CTRL);
 547        reg_val &= ~HDMI_CTRL_ENCRYPTED;
 548        hdmi_write(hdmi, REG_HDMI_CTRL, reg_val);
 549        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 550
 551        hdcp_ctrl->hdcp_state = HDCP_STATE_AUTH_FAILED;
 552        queue_work(hdmi->workq, &hdcp_ctrl->hdcp_reauth_work);
 553}
 554
 555static void msm_hdmi_hdcp_auth_done(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 556{
 557        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 558        u32 reg_val;
 559        unsigned long flags;
 560
 561        /*
 562         * Disable software DDC before going into part3 to make sure
 563         * there is no Arbitration between software and hardware for DDC
 564         */
 565        spin_lock_irqsave(&hdmi->reg_lock, flags);
 566        reg_val = hdmi_read(hdmi, REG_HDMI_DDC_ARBITRATION);
 567        reg_val |= HDMI_DDC_ARBITRATION_HW_ARBITRATION;
 568        hdmi_write(hdmi, REG_HDMI_DDC_ARBITRATION, reg_val);
 569        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 570
 571        /* enable HDMI Encrypt */
 572        spin_lock_irqsave(&hdmi->reg_lock, flags);
 573        reg_val = hdmi_read(hdmi, REG_HDMI_CTRL);
 574        reg_val |= HDMI_CTRL_ENCRYPTED;
 575        hdmi_write(hdmi, REG_HDMI_CTRL, reg_val);
 576        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 577
 578        hdcp_ctrl->hdcp_state = HDCP_STATE_AUTHENTICATED;
 579        hdcp_ctrl->auth_retries = 0;
 580}
 581
 582/*
 583 * hdcp authenticating part 1
 584 * Wait Key/An ready
 585 * Read BCAPS from sink
 586 * Write BCAPS and AKSV into HDCP engine
 587 * Write An and AKSV to sink
 588 * Read BKSV from sink and write into HDCP engine
 589 */
 590static int msm_hdmi_hdcp_wait_key_an_ready(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 591{
 592        int rc;
 593        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 594        u32 link0_status, keys_state;
 595        u32 timeout_count;
 596        bool an_ready;
 597
 598        /* Wait for HDCP keys to be checked and validated */
 599        timeout_count = 100;
 600        do {
 601                link0_status = hdmi_read(hdmi, REG_HDMI_HDCP_LINK0_STATUS);
 602                keys_state = (link0_status >> 28) & 0x7;
 603                if (keys_state == HDCP_KEYS_STATE_VALID)
 604                        break;
 605
 606                DBG("Keys not ready(%d). s=%d, l0=%0x08x",
 607                        timeout_count, keys_state, link0_status);
 608
 609                timeout_count--;
 610                if (!timeout_count) {
 611                        pr_err("%s: Wait key state timedout", __func__);
 612                        return -ETIMEDOUT;
 613                }
 614
 615                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
 616                if (rc)
 617                        return rc;
 618        } while (1);
 619
 620        timeout_count = 100;
 621        do {
 622                link0_status = hdmi_read(hdmi, REG_HDMI_HDCP_LINK0_STATUS);
 623                an_ready = (link0_status & HDMI_HDCP_LINK0_STATUS_AN_0_READY)
 624                        && (link0_status & HDMI_HDCP_LINK0_STATUS_AN_1_READY);
 625                if (an_ready)
 626                        break;
 627
 628                DBG("An not ready(%d). l0_status=0x%08x",
 629                        timeout_count, link0_status);
 630
 631                timeout_count--;
 632                if (!timeout_count) {
 633                        pr_err("%s: Wait An timedout", __func__);
 634                        return -ETIMEDOUT;
 635                }
 636
 637                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
 638                if (rc)
 639                        return rc;
 640        } while (1);
 641
 642        return 0;
 643}
 644
 645static int msm_hdmi_hdcp_send_aksv_an(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 646{
 647        int rc = 0;
 648        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 649        u32 link0_aksv_0, link0_aksv_1;
 650        u32 link0_an[2];
 651        u8 aksv[5];
 652
 653        /* Read An0 and An1 */
 654        link0_an[0] = hdmi_read(hdmi, REG_HDMI_HDCP_RCVPORT_DATA5);
 655        link0_an[1] = hdmi_read(hdmi, REG_HDMI_HDCP_RCVPORT_DATA6);
 656
 657        /* Read AKSV */
 658        link0_aksv_0 = hdmi_read(hdmi, REG_HDMI_HDCP_RCVPORT_DATA3);
 659        link0_aksv_1 = hdmi_read(hdmi, REG_HDMI_HDCP_RCVPORT_DATA4);
 660
 661        DBG("Link ASKV=%08x%08x", link0_aksv_0, link0_aksv_1);
 662        /* Copy An and AKSV to byte arrays for transmission */
 663        aksv[0] =  link0_aksv_0        & 0xFF;
 664        aksv[1] = (link0_aksv_0 >> 8)  & 0xFF;
 665        aksv[2] = (link0_aksv_0 >> 16) & 0xFF;
 666        aksv[3] = (link0_aksv_0 >> 24) & 0xFF;
 667        aksv[4] =  link0_aksv_1        & 0xFF;
 668
 669        /* Write An to offset 0x18 */
 670        rc = msm_hdmi_ddc_write(hdmi, HDCP_PORT_ADDR, 0x18, (u8 *)link0_an,
 671                (u16)sizeof(link0_an));
 672        if (rc) {
 673                pr_err("%s:An write failed\n", __func__);
 674                return rc;
 675        }
 676        DBG("Link0-An=%08x%08x", link0_an[0], link0_an[1]);
 677
 678        /* Write AKSV to offset 0x10 */
 679        rc = msm_hdmi_ddc_write(hdmi, HDCP_PORT_ADDR, 0x10, aksv, 5);
 680        if (rc) {
 681                pr_err("%s:AKSV write failed\n", __func__);
 682                return rc;
 683        }
 684        DBG("Link0-AKSV=%02x%08x", link0_aksv_1 & 0xFF, link0_aksv_0);
 685
 686        return 0;
 687}
 688
 689static int msm_hdmi_hdcp_recv_bksv(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 690{
 691        int rc = 0;
 692        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 693        u8 bksv[5];
 694        u32 reg[2], data[2];
 695
 696        /* Read BKSV at offset 0x00 */
 697        rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR, 0x00, bksv, 5);
 698        if (rc) {
 699                pr_err("%s:BKSV read failed\n", __func__);
 700                return rc;
 701        }
 702
 703        hdcp_ctrl->bksv_lsb = bksv[0] | (bksv[1] << 8) |
 704                (bksv[2] << 16) | (bksv[3] << 24);
 705        hdcp_ctrl->bksv_msb = bksv[4];
 706        DBG(":BKSV=%02x%08x", hdcp_ctrl->bksv_msb, hdcp_ctrl->bksv_lsb);
 707
 708        /* check there are 20 ones in BKSV */
 709        if ((hweight32(hdcp_ctrl->bksv_lsb) + hweight32(hdcp_ctrl->bksv_msb))
 710                        != 20) {
 711                pr_err(": BKSV doesn't have 20 1's and 20 0's\n");
 712                pr_err(": BKSV chk fail. BKSV=%02x%02x%02x%02x%02x\n",
 713                        bksv[4], bksv[3], bksv[2], bksv[1], bksv[0]);
 714                return -EINVAL;
 715        }
 716
 717        /* Write BKSV read from sink to HDCP registers */
 718        reg[0] = REG_HDMI_HDCP_RCVPORT_DATA0;
 719        data[0] = hdcp_ctrl->bksv_lsb;
 720        reg[1] = REG_HDMI_HDCP_RCVPORT_DATA1;
 721        data[1] = hdcp_ctrl->bksv_msb;
 722        rc = msm_hdmi_hdcp_scm_wr(hdcp_ctrl, reg, data, 2);
 723
 724        return rc;
 725}
 726
 727static int msm_hdmi_hdcp_recv_bcaps(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 728{
 729        int rc = 0;
 730        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 731        u32 reg, data;
 732        u8 bcaps;
 733
 734        rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR, 0x40, &bcaps, 1);
 735        if (rc) {
 736                pr_err("%s:BCAPS read failed\n", __func__);
 737                return rc;
 738        }
 739        DBG("BCAPS=%02x", bcaps);
 740
 741        /* receiver (0), repeater (1) */
 742        hdcp_ctrl->ds_type = (bcaps & BIT(6)) ? DS_REPEATER : DS_RECEIVER;
 743
 744        /* Write BCAPS to the hardware */
 745        reg = REG_HDMI_HDCP_RCVPORT_DATA12;
 746        data = (u32)bcaps;
 747        rc = msm_hdmi_hdcp_scm_wr(hdcp_ctrl, &reg, &data, 1);
 748
 749        return rc;
 750}
 751
 752static int msm_hdmi_hdcp_auth_part1_key_exchange(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 753{
 754        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 755        unsigned long flags;
 756        int rc;
 757
 758        /* Wait for AKSV key and An ready */
 759        rc = msm_hdmi_hdcp_wait_key_an_ready(hdcp_ctrl);
 760        if (rc) {
 761                pr_err("%s: wait key and an ready failed\n", __func__);
 762                return rc;
 763        }
 764
 765        /* Read BCAPS and send to HDCP engine */
 766        rc = msm_hdmi_hdcp_recv_bcaps(hdcp_ctrl);
 767        if (rc) {
 768                pr_err("%s: read bcaps error, abort\n", __func__);
 769                return rc;
 770        }
 771
 772        /*
 773         * 1.1_Features turned off by default.
 774         * No need to write AInfo since 1.1_Features is disabled.
 775         */
 776        hdmi_write(hdmi, REG_HDMI_HDCP_RCVPORT_DATA4, 0);
 777
 778        /* Send AKSV and An to sink */
 779        rc = msm_hdmi_hdcp_send_aksv_an(hdcp_ctrl);
 780        if (rc) {
 781                pr_err("%s:An/Aksv write failed\n", __func__);
 782                return rc;
 783        }
 784
 785        /* Read BKSV and send to HDCP engine*/
 786        rc = msm_hdmi_hdcp_recv_bksv(hdcp_ctrl);
 787        if (rc) {
 788                pr_err("%s:BKSV Process failed\n", __func__);
 789                return rc;
 790        }
 791
 792        /* Enable HDCP interrupts and ack/clear any stale interrupts */
 793        spin_lock_irqsave(&hdmi->reg_lock, flags);
 794        hdmi_write(hdmi, REG_HDMI_HDCP_INT_CTRL,
 795                HDMI_HDCP_INT_CTRL_AUTH_SUCCESS_ACK |
 796                HDMI_HDCP_INT_CTRL_AUTH_SUCCESS_MASK |
 797                HDMI_HDCP_INT_CTRL_AUTH_FAIL_ACK |
 798                HDMI_HDCP_INT_CTRL_AUTH_FAIL_MASK |
 799                HDMI_HDCP_INT_CTRL_AUTH_FAIL_INFO_ACK);
 800        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
 801
 802        return 0;
 803}
 804
 805/* read R0' from sink and pass it to HDCP engine */
 806static int msm_hdmi_hdcp_auth_part1_recv_r0(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 807{
 808        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 809        int rc = 0;
 810        u8 buf[2];
 811
 812        /*
 813         * HDCP Compliance Test case 1A-01:
 814         * Wait here at least 100ms before reading R0'
 815         */
 816        rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 125, AUTH_ABORT_EV);
 817        if (rc)
 818                return rc;
 819
 820        /* Read R0' at offset 0x08 */
 821        rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR, 0x08, buf, 2);
 822        if (rc) {
 823                pr_err("%s:R0' read failed\n", __func__);
 824                return rc;
 825        }
 826        DBG("R0'=%02x%02x", buf[1], buf[0]);
 827
 828        /* Write R0' to HDCP registers and check to see if it is a match */
 829        hdmi_write(hdmi, REG_HDMI_HDCP_RCVPORT_DATA2_0,
 830                (((u32)buf[1]) << 8) | buf[0]);
 831
 832        return 0;
 833}
 834
 835/* Wait for authenticating result: R0/R0' are matched or not */
 836static int msm_hdmi_hdcp_auth_part1_verify_r0(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 837{
 838        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 839        u32 link0_status;
 840        int rc;
 841
 842        /* wait for hdcp irq, 10 sec should be long enough */
 843        rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 10000, AUTH_RESULT_RDY_EV);
 844        if (!rc) {
 845                pr_err("%s: Wait Auth IRQ timeout\n", __func__);
 846                return -ETIMEDOUT;
 847        }
 848
 849        link0_status = hdmi_read(hdmi, REG_HDMI_HDCP_LINK0_STATUS);
 850        if (!(link0_status & HDMI_HDCP_LINK0_STATUS_RI_MATCHES)) {
 851                pr_err("%s: Authentication Part I failed\n", __func__);
 852                return -EINVAL;
 853        }
 854
 855        /* Enable HDCP Encryption */
 856        hdmi_write(hdmi, REG_HDMI_HDCP_CTRL,
 857                HDMI_HDCP_CTRL_ENABLE |
 858                HDMI_HDCP_CTRL_ENCRYPTION_ENABLE);
 859
 860        return 0;
 861}
 862
 863static int msm_hdmi_hdcp_recv_check_bstatus(struct hdmi_hdcp_ctrl *hdcp_ctrl,
 864        u16 *pbstatus)
 865{
 866        int rc;
 867        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 868        bool max_devs_exceeded = false, max_cascade_exceeded = false;
 869        u32 repeater_cascade_depth = 0, down_stream_devices = 0;
 870        u16 bstatus;
 871        u8 buf[2];
 872
 873        /* Read BSTATUS at offset 0x41 */
 874        rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR, 0x41, buf, 2);
 875        if (rc) {
 876                pr_err("%s: BSTATUS read failed\n", __func__);
 877                goto error;
 878        }
 879        *pbstatus = bstatus = (buf[1] << 8) | buf[0];
 880
 881
 882        down_stream_devices = bstatus & 0x7F;
 883        repeater_cascade_depth = (bstatus >> 8) & 0x7;
 884        max_devs_exceeded = (bstatus & BIT(7)) ? true : false;
 885        max_cascade_exceeded = (bstatus & BIT(11)) ? true : false;
 886
 887        if (down_stream_devices == 0) {
 888                /*
 889                 * If no downstream devices are attached to the repeater
 890                 * then part II fails.
 891                 * todo: The other approach would be to continue PART II.
 892                 */
 893                pr_err("%s: No downstream devices\n", __func__);
 894                rc = -EINVAL;
 895                goto error;
 896        }
 897
 898        /*
 899         * HDCP Compliance 1B-05:
 900         * Check if no. of devices connected to repeater
 901         * exceed max_devices_connected from bit 7 of Bstatus.
 902         */
 903        if (max_devs_exceeded) {
 904                pr_err("%s: no. of devs connected exceeds max allowed",
 905                        __func__);
 906                rc = -EINVAL;
 907                goto error;
 908        }
 909
 910        /*
 911         * HDCP Compliance 1B-06:
 912         * Check if no. of cascade connected to repeater
 913         * exceed max_cascade_connected from bit 11 of Bstatus.
 914         */
 915        if (max_cascade_exceeded) {
 916                pr_err("%s: no. of cascade conn exceeds max allowed",
 917                        __func__);
 918                rc = -EINVAL;
 919                goto error;
 920        }
 921
 922error:
 923        hdcp_ctrl->dev_count = down_stream_devices;
 924        hdcp_ctrl->max_cascade_exceeded = max_cascade_exceeded;
 925        hdcp_ctrl->max_dev_exceeded = max_devs_exceeded;
 926        hdcp_ctrl->depth = repeater_cascade_depth;
 927        return rc;
 928}
 929
 930static int msm_hdmi_hdcp_auth_part2_wait_ksv_fifo_ready(
 931        struct hdmi_hdcp_ctrl *hdcp_ctrl)
 932{
 933        int rc;
 934        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 935        u32 reg, data;
 936        u32 timeout_count;
 937        u16 bstatus;
 938        u8 bcaps;
 939
 940        /*
 941         * Wait until READY bit is set in BCAPS, as per HDCP specifications
 942         * maximum permitted time to check for READY bit is five seconds.
 943         */
 944        timeout_count = 100;
 945        do {
 946                /* Read BCAPS at offset 0x40 */
 947                rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR, 0x40, &bcaps, 1);
 948                if (rc) {
 949                        pr_err("%s: BCAPS read failed\n", __func__);
 950                        return rc;
 951                }
 952
 953                if (bcaps & BIT(5))
 954                        break;
 955
 956                timeout_count--;
 957                if (!timeout_count) {
 958                        pr_err("%s: Wait KSV fifo ready timedout", __func__);
 959                        return -ETIMEDOUT;
 960                }
 961
 962                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
 963                if (rc)
 964                        return rc;
 965        } while (1);
 966
 967        rc = msm_hdmi_hdcp_recv_check_bstatus(hdcp_ctrl, &bstatus);
 968        if (rc) {
 969                pr_err("%s: bstatus error\n", __func__);
 970                return rc;
 971        }
 972
 973        /* Write BSTATUS and BCAPS to HDCP registers */
 974        reg = REG_HDMI_HDCP_RCVPORT_DATA12;
 975        data = bcaps | (bstatus << 8);
 976        rc = msm_hdmi_hdcp_scm_wr(hdcp_ctrl, &reg, &data, 1);
 977        if (rc) {
 978                pr_err("%s: BSTATUS write failed\n", __func__);
 979                return rc;
 980        }
 981
 982        return 0;
 983}
 984
 985/*
 986 * hdcp authenticating part 2: 2nd
 987 * read ksv fifo from sink
 988 * transfer V' from sink to HDCP engine
 989 * reset SHA engine
 990 */
 991static int msm_hdmi_hdcp_transfer_v_h(struct hdmi_hdcp_ctrl *hdcp_ctrl)
 992{
 993        struct hdmi *hdmi = hdcp_ctrl->hdmi;
 994        int rc = 0;
 995        struct hdmi_hdcp_reg_data reg_data[]  = {
 996                {REG_HDMI_HDCP_RCVPORT_DATA7,  0x20, "V' H0"},
 997                {REG_HDMI_HDCP_RCVPORT_DATA8,  0x24, "V' H1"},
 998                {REG_HDMI_HDCP_RCVPORT_DATA9,  0x28, "V' H2"},
 999                {REG_HDMI_HDCP_RCVPORT_DATA10, 0x2C, "V' H3"},
1000                {REG_HDMI_HDCP_RCVPORT_DATA11, 0x30, "V' H4"},
1001        };
1002        struct hdmi_hdcp_reg_data *rd;
1003        u32 size = ARRAY_SIZE(reg_data);
1004        u32 reg[ARRAY_SIZE(reg_data)];
1005        u32 data[ARRAY_SIZE(reg_data)];
1006        int i;
1007
1008        for (i = 0; i < size; i++) {
1009                rd = &reg_data[i];
1010                rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR,
1011                        rd->off, (u8 *)&data[i], (u16)sizeof(data[i]));
1012                if (rc) {
1013                        pr_err("%s: Read %s failed\n", __func__, rd->name);
1014                        goto error;
1015                }
1016
1017                DBG("%s =%x", rd->name, data[i]);
1018                reg[i] = reg_data[i].reg_id;
1019        }
1020
1021        rc = msm_hdmi_hdcp_scm_wr(hdcp_ctrl, reg, data, size);
1022
1023error:
1024        return rc;
1025}
1026
1027static int msm_hdmi_hdcp_recv_ksv_fifo(struct hdmi_hdcp_ctrl *hdcp_ctrl)
1028{
1029        int rc;
1030        struct hdmi *hdmi = hdcp_ctrl->hdmi;
1031        u32 ksv_bytes;
1032
1033        ksv_bytes = 5 * hdcp_ctrl->dev_count;
1034
1035        rc = msm_hdmi_ddc_read(hdmi, HDCP_PORT_ADDR, 0x43,
1036                hdcp_ctrl->ksv_list, ksv_bytes);
1037        if (rc)
1038                pr_err("%s: KSV FIFO read failed\n", __func__);
1039
1040        return rc;
1041}
1042
1043static int msm_hdmi_hdcp_reset_sha_engine(struct hdmi_hdcp_ctrl *hdcp_ctrl)
1044{
1045        u32 reg[2], data[2];
1046        u32 rc  = 0;
1047
1048        reg[0] = REG_HDMI_HDCP_SHA_CTRL;
1049        data[0] = HDCP_REG_ENABLE;
1050        reg[1] = REG_HDMI_HDCP_SHA_CTRL;
1051        data[1] = HDCP_REG_DISABLE;
1052
1053        rc = msm_hdmi_hdcp_scm_wr(hdcp_ctrl, reg, data, 2);
1054
1055        return rc;
1056}
1057
1058static int msm_hdmi_hdcp_auth_part2_recv_ksv_fifo(
1059        struct hdmi_hdcp_ctrl *hdcp_ctrl)
1060{
1061        int rc;
1062        u32 timeout_count;
1063
1064        /*
1065         * Read KSV FIFO over DDC
1066         * Key Selection vector FIFO Used to pull downstream KSVs
1067         * from HDCP Repeaters.
1068         * All bytes (DEVICE_COUNT * 5) must be read in a single,
1069         * auto incrementing access.
1070         * All bytes read as 0x00 for HDCP Receivers that are not
1071         * HDCP Repeaters (REPEATER == 0).
1072         */
1073        timeout_count = 100;
1074        do {
1075                rc = msm_hdmi_hdcp_recv_ksv_fifo(hdcp_ctrl);
1076                if (!rc)
1077                        break;
1078
1079                timeout_count--;
1080                if (!timeout_count) {
1081                        pr_err("%s: Recv ksv fifo timedout", __func__);
1082                        return -ETIMEDOUT;
1083                }
1084
1085                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 25, AUTH_ABORT_EV);
1086                if (rc)
1087                        return rc;
1088        } while (1);
1089
1090        rc = msm_hdmi_hdcp_transfer_v_h(hdcp_ctrl);
1091        if (rc) {
1092                pr_err("%s: transfer V failed\n", __func__);
1093                return rc;
1094        }
1095
1096        /* reset SHA engine before write ksv fifo */
1097        rc = msm_hdmi_hdcp_reset_sha_engine(hdcp_ctrl);
1098        if (rc) {
1099                pr_err("%s: fail to reset sha engine\n", __func__);
1100                return rc;
1101        }
1102
1103        return 0;
1104}
1105
1106/*
1107 * Write KSV FIFO to HDCP_SHA_DATA.
1108 * This is done 1 byte at time starting with the LSB.
1109 * Once 64 bytes have been written, we need to poll for
1110 * HDCP_SHA_BLOCK_DONE before writing any further
1111 * If the last byte is written, we need to poll for
1112 * HDCP_SHA_COMP_DONE to wait until HW finish
1113 */
1114static int msm_hdmi_hdcp_write_ksv_fifo(struct hdmi_hdcp_ctrl *hdcp_ctrl)
1115{
1116        int i;
1117        struct hdmi *hdmi = hdcp_ctrl->hdmi;
1118        u32 ksv_bytes, last_byte = 0;
1119        u8 *ksv_fifo = NULL;
1120        u32 reg_val, data, reg;
1121        u32 rc  = 0;
1122
1123        ksv_bytes  = 5 * hdcp_ctrl->dev_count;
1124
1125        /* Check if need to wait for HW completion */
1126        if (hdcp_ctrl->ksv_fifo_w_index) {
1127                reg_val = hdmi_read(hdmi, REG_HDMI_HDCP_SHA_STATUS);
1128                DBG("HDCP_SHA_STATUS=%08x", reg_val);
1129                if (hdcp_ctrl->ksv_fifo_w_index == ksv_bytes) {
1130                        /* check COMP_DONE if last write */
1131                        if (reg_val & HDMI_HDCP_SHA_STATUS_COMP_DONE) {
1132                                DBG("COMP_DONE");
1133                                return 0;
1134                        } else {
1135                                return -EAGAIN;
1136                        }
1137                } else {
1138                        /* check BLOCK_DONE if not last write */
1139                        if (!(reg_val & HDMI_HDCP_SHA_STATUS_BLOCK_DONE))
1140                                return -EAGAIN;
1141
1142                        DBG("BLOCK_DONE");
1143                }
1144        }
1145
1146        ksv_bytes  -= hdcp_ctrl->ksv_fifo_w_index;
1147        if (ksv_bytes <= 64)
1148                last_byte = 1;
1149        else
1150                ksv_bytes = 64;
1151
1152        ksv_fifo = hdcp_ctrl->ksv_list;
1153        ksv_fifo += hdcp_ctrl->ksv_fifo_w_index;
1154
1155        for (i = 0; i < ksv_bytes; i++) {
1156                /* Write KSV byte and set DONE bit[0] for last byte*/
1157                reg_val = ksv_fifo[i] << 16;
1158                if ((i == (ksv_bytes - 1)) && last_byte)
1159                        reg_val |= HDMI_HDCP_SHA_DATA_DONE;
1160
1161                reg = REG_HDMI_HDCP_SHA_DATA;
1162                data = reg_val;
1163                rc = msm_hdmi_hdcp_scm_wr(hdcp_ctrl, &reg, &data, 1);
1164
1165                if (rc)
1166                        return rc;
1167        }
1168
1169        hdcp_ctrl->ksv_fifo_w_index += ksv_bytes;
1170
1171        /*
1172         *return -EAGAIN to notify caller to wait for COMP_DONE or BLOCK_DONE
1173         */
1174        return -EAGAIN;
1175}
1176
1177/* write ksv fifo into HDCP engine */
1178static int msm_hdmi_hdcp_auth_part2_write_ksv_fifo(
1179        struct hdmi_hdcp_ctrl *hdcp_ctrl)
1180{
1181        int rc;
1182        u32 timeout_count;
1183
1184        hdcp_ctrl->ksv_fifo_w_index = 0;
1185        timeout_count = 100;
1186        do {
1187                rc = msm_hdmi_hdcp_write_ksv_fifo(hdcp_ctrl);
1188                if (!rc)
1189                        break;
1190
1191                if (rc != -EAGAIN)
1192                        return rc;
1193
1194                timeout_count--;
1195                if (!timeout_count) {
1196                        pr_err("%s: Write KSV fifo timedout", __func__);
1197                        return -ETIMEDOUT;
1198                }
1199
1200                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
1201                if (rc)
1202                        return rc;
1203        } while (1);
1204
1205        return 0;
1206}
1207
1208static int msm_hdmi_hdcp_auth_part2_check_v_match(struct hdmi_hdcp_ctrl *hdcp_ctrl)
1209{
1210        int rc = 0;
1211        struct hdmi *hdmi = hdcp_ctrl->hdmi;
1212        u32 link0_status;
1213        u32 timeout_count = 100;
1214
1215        do {
1216                link0_status = hdmi_read(hdmi, REG_HDMI_HDCP_LINK0_STATUS);
1217                if (link0_status & HDMI_HDCP_LINK0_STATUS_V_MATCHES)
1218                        break;
1219
1220                timeout_count--;
1221                if (!timeout_count) {
1222                                pr_err("%s: HDCP V Match timedout", __func__);
1223                                return -ETIMEDOUT;
1224                }
1225
1226                rc = msm_hdmi_hdcp_msleep(hdcp_ctrl, 20, AUTH_ABORT_EV);
1227                if (rc)
1228                        return rc;
1229        } while (1);
1230
1231        return 0;
1232}
1233
1234static void msm_hdmi_hdcp_auth_work(struct work_struct *work)
1235{
1236        struct hdmi_hdcp_ctrl *hdcp_ctrl = container_of(work,
1237                struct hdmi_hdcp_ctrl, hdcp_auth_work);
1238        int rc;
1239
1240        rc = msm_hdmi_hdcp_auth_prepare(hdcp_ctrl);
1241        if (rc) {
1242                pr_err("%s: auth prepare failed %d\n", __func__, rc);
1243                goto end;
1244        }
1245
1246        /* HDCP PartI */
1247        rc = msm_hdmi_hdcp_auth_part1_key_exchange(hdcp_ctrl);
1248        if (rc) {
1249                pr_err("%s: key exchange failed %d\n", __func__, rc);
1250                goto end;
1251        }
1252
1253        rc = msm_hdmi_hdcp_auth_part1_recv_r0(hdcp_ctrl);
1254        if (rc) {
1255                pr_err("%s: receive r0 failed %d\n", __func__, rc);
1256                goto end;
1257        }
1258
1259        rc = msm_hdmi_hdcp_auth_part1_verify_r0(hdcp_ctrl);
1260        if (rc) {
1261                pr_err("%s: verify r0 failed %d\n", __func__, rc);
1262                goto end;
1263        }
1264        pr_info("%s: Authentication Part I successful\n", __func__);
1265        if (hdcp_ctrl->ds_type == DS_RECEIVER)
1266                goto end;
1267
1268        /* HDCP PartII */
1269        rc = msm_hdmi_hdcp_auth_part2_wait_ksv_fifo_ready(hdcp_ctrl);
1270        if (rc) {
1271                pr_err("%s: wait ksv fifo ready failed %d\n", __func__, rc);
1272                goto end;
1273        }
1274
1275        rc = msm_hdmi_hdcp_auth_part2_recv_ksv_fifo(hdcp_ctrl);
1276        if (rc) {
1277                pr_err("%s: recv ksv fifo failed %d\n", __func__, rc);
1278                goto end;
1279        }
1280
1281        rc = msm_hdmi_hdcp_auth_part2_write_ksv_fifo(hdcp_ctrl);
1282        if (rc) {
1283                pr_err("%s: write ksv fifo failed %d\n", __func__, rc);
1284                goto end;
1285        }
1286
1287        rc = msm_hdmi_hdcp_auth_part2_check_v_match(hdcp_ctrl);
1288        if (rc)
1289                pr_err("%s: check v match failed %d\n", __func__, rc);
1290
1291end:
1292        if (rc == -ECANCELED) {
1293                pr_info("%s: hdcp authentication canceled\n", __func__);
1294        } else if (rc == -ENOTSUPP) {
1295                pr_info("%s: hdcp is not supported\n", __func__);
1296        } else if (rc) {
1297                pr_err("%s: hdcp authentication failed\n", __func__);
1298                msm_hdmi_hdcp_auth_fail(hdcp_ctrl);
1299        } else {
1300                msm_hdmi_hdcp_auth_done(hdcp_ctrl);
1301        }
1302}
1303
1304void msm_hdmi_hdcp_on(struct hdmi_hdcp_ctrl *hdcp_ctrl)
1305{
1306        struct hdmi *hdmi = hdcp_ctrl->hdmi;
1307        u32 reg_val;
1308        unsigned long flags;
1309
1310        if ((HDCP_STATE_INACTIVE != hdcp_ctrl->hdcp_state) ||
1311                (HDCP_STATE_NO_AKSV == hdcp_ctrl->hdcp_state)) {
1312                DBG("still active or activating or no askv. returning");
1313                return;
1314        }
1315
1316        /* clear HDMI Encrypt */
1317        spin_lock_irqsave(&hdmi->reg_lock, flags);
1318        reg_val = hdmi_read(hdmi, REG_HDMI_CTRL);
1319        reg_val &= ~HDMI_CTRL_ENCRYPTED;
1320        hdmi_write(hdmi, REG_HDMI_CTRL, reg_val);
1321        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
1322
1323        hdcp_ctrl->auth_event = 0;
1324        hdcp_ctrl->hdcp_state = HDCP_STATE_AUTHENTICATING;
1325        hdcp_ctrl->auth_retries = 0;
1326        queue_work(hdmi->workq, &hdcp_ctrl->hdcp_auth_work);
1327}
1328
1329void msm_hdmi_hdcp_off(struct hdmi_hdcp_ctrl *hdcp_ctrl)
1330{
1331        struct hdmi *hdmi = hdcp_ctrl->hdmi;
1332        unsigned long flags;
1333        u32 reg_val;
1334
1335        if ((HDCP_STATE_INACTIVE == hdcp_ctrl->hdcp_state) ||
1336                (HDCP_STATE_NO_AKSV == hdcp_ctrl->hdcp_state)) {
1337                DBG("hdcp inactive or no aksv. returning");
1338                return;
1339        }
1340
1341        /*
1342         * Disable HPD circuitry.
1343         * This is needed to reset the HDCP cipher engine so that when we
1344         * attempt a re-authentication, HW would clear the AN0_READY and
1345         * AN1_READY bits in HDMI_HDCP_LINK0_STATUS register
1346         */
1347        spin_lock_irqsave(&hdmi->reg_lock, flags);
1348        reg_val = hdmi_read(hdmi, REG_HDMI_HPD_CTRL);
1349        reg_val &= ~HDMI_HPD_CTRL_ENABLE;
1350        hdmi_write(hdmi, REG_HDMI_HPD_CTRL, reg_val);
1351
1352        /*
1353         * Disable HDCP interrupts.
1354         * Also, need to set the state to inactive here so that any ongoing
1355         * reauth works will know that the HDCP session has been turned off.
1356         */
1357        hdmi_write(hdmi, REG_HDMI_HDCP_INT_CTRL, 0);
1358        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
1359
1360        /*
1361         * Cancel any pending auth/reauth attempts.
1362         * If one is ongoing, this will wait for it to finish.
1363         * No more reauthentication attempts will be scheduled since we
1364         * set the current state to inactive.
1365         */
1366        set_bit(AUTH_ABORT_EV, &hdcp_ctrl->auth_event);
1367        wake_up_all(&hdcp_ctrl->auth_event_queue);
1368        cancel_work_sync(&hdcp_ctrl->hdcp_auth_work);
1369        cancel_work_sync(&hdcp_ctrl->hdcp_reauth_work);
1370
1371        hdmi_write(hdmi, REG_HDMI_HDCP_RESET,
1372                HDMI_HDCP_RESET_LINK0_DEAUTHENTICATE);
1373
1374        /* Disable encryption and disable the HDCP block */
1375        hdmi_write(hdmi, REG_HDMI_HDCP_CTRL, 0);
1376
1377        spin_lock_irqsave(&hdmi->reg_lock, flags);
1378        reg_val = hdmi_read(hdmi, REG_HDMI_CTRL);
1379        reg_val &= ~HDMI_CTRL_ENCRYPTED;
1380        hdmi_write(hdmi, REG_HDMI_CTRL, reg_val);
1381
1382        /* Enable HPD circuitry */
1383        reg_val = hdmi_read(hdmi, REG_HDMI_HPD_CTRL);
1384        reg_val |= HDMI_HPD_CTRL_ENABLE;
1385        hdmi_write(hdmi, REG_HDMI_HPD_CTRL, reg_val);
1386        spin_unlock_irqrestore(&hdmi->reg_lock, flags);
1387
1388        hdcp_ctrl->hdcp_state = HDCP_STATE_INACTIVE;
1389
1390        DBG("HDCP: Off");
1391}
1392
1393struct hdmi_hdcp_ctrl *msm_hdmi_hdcp_init(struct hdmi *hdmi)
1394{
1395        struct hdmi_hdcp_ctrl *hdcp_ctrl = NULL;
1396
1397        if (!hdmi->qfprom_mmio) {
1398                pr_err("%s: HDCP is not supported without qfprom\n",
1399                        __func__);
1400                return ERR_PTR(-EINVAL);
1401        }
1402
1403        hdcp_ctrl = kzalloc(sizeof(*hdcp_ctrl), GFP_KERNEL);
1404        if (!hdcp_ctrl)
1405                return ERR_PTR(-ENOMEM);
1406
1407        INIT_WORK(&hdcp_ctrl->hdcp_auth_work, msm_hdmi_hdcp_auth_work);
1408        INIT_WORK(&hdcp_ctrl->hdcp_reauth_work, msm_hdmi_hdcp_reauth_work);
1409        init_waitqueue_head(&hdcp_ctrl->auth_event_queue);
1410        hdcp_ctrl->hdmi = hdmi;
1411        hdcp_ctrl->hdcp_state = HDCP_STATE_INACTIVE;
1412        hdcp_ctrl->aksv_valid = false;
1413
1414        if (qcom_scm_hdcp_available())
1415                hdcp_ctrl->tz_hdcp = true;
1416        else
1417                hdcp_ctrl->tz_hdcp = false;
1418
1419        return hdcp_ctrl;
1420}
1421
1422void msm_hdmi_hdcp_destroy(struct hdmi *hdmi)
1423{
1424        if (hdmi) {
1425                kfree(hdmi->hdcp_ctrl);
1426                hdmi->hdcp_ctrl = NULL;
1427        }
1428}
1429