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Merge "drm/msm: add SRM support for HDCP 1.4"

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Linux Build Service Account 2017-11-10 07:55:28 -08:00 committed by Gerrit - the friendly Code Review server
commit 92c49e0199
4 changed files with 362 additions and 20 deletions
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2
drivers/gpu/drm/msm/sde_hdcp.h
View file

@ -33,6 +33,8 @@
#define SDE_HDCP_DEBUG(fmt, args...) SDE_DEBUG(fmt, ##args) #define SDE_HDCP_DEBUG(fmt, args...) SDE_DEBUG(fmt, ##args)
#endif #endif
#define SDE_HDCP_SRM_FAIL 29
enum sde_hdcp_client_id { enum sde_hdcp_client_id {
HDCP_CLIENT_HDMI, HDCP_CLIENT_HDMI,
HDCP_CLIENT_DP, HDCP_CLIENT_DP,

163
drivers/gpu/drm/msm/sde_hdcp_1x.c
View file

@ -748,6 +748,107 @@ error:
return rc; return rc;
} }
static u8 *sde_hdcp_1x_swap_byte_order(u8 *bksv_in, int num_dev)
{
u8 *bksv_out;
u8 *tmp_out;
u8 *tmp_in;
int i, j;
/* Dont exceed max downstream devices */
if (num_dev > MAX_DEVICES_SUPPORTED) {
pr_err("invalid params\n");
return NULL;
}
bksv_out = kzalloc(RECV_ID_SIZE * num_dev, GFP_KERNEL);
if (!bksv_out)
return NULL;
SDE_HDCP_DEBUG("num_dev = %d\n", num_dev);
/* Store temporarily for return */
tmp_out = bksv_out;
tmp_in = bksv_in;
for (i = 0; i < num_dev; i++) {
for (j = 0; j < RECV_ID_SIZE; j++)
bksv_out[j] = tmp_in[RECV_ID_SIZE - j - 1];
/* Each KSV is 5 bytes long */
bksv_out += RECV_ID_SIZE;
tmp_in += RECV_ID_SIZE;
}
return tmp_out;
}
static int sde_hdcp_1x_revoked_rcv_chk(struct sde_hdcp_1x *hdcp)
{
int rc = 0;
u8 *bksv = hdcp->current_tp.bksv;
u8 *bksv_out;
struct hdcp_srm_device_id_t *bksv_srm;
bksv_out = sde_hdcp_1x_swap_byte_order(bksv, 1);
if (!bksv_out) {
rc = -ENOMEM;
goto exit;
}
SDE_HDCP_DEBUG("bksv_out : 0x%2x%2x%2x%2x%2x\n",
bksv_out[4], bksv_out[3], bksv_out[2],
bksv_out[1], bksv_out[0]);
bksv_srm = (struct hdcp_srm_device_id_t *)bksv_out;
/* Here we are checking only receiver ID
* hence the device count is one
*/
rc = hdcp1_validate_receiver_ids(bksv_srm, 1);
kfree(bksv_out);
exit:
return rc;
}
static int sde_hdcp_1x_revoked_rpt_chk(struct sde_hdcp_1x *hdcp)
{
int rc = 0;
int i;
u8 *bksv = hdcp->current_tp.ksv_list;
u8 *bksv_out;
struct hdcp_srm_device_id_t *bksv_srm;
for (i = 0; i < hdcp->sink_addr.ksv_fifo.len;
i += RECV_ID_SIZE) {
SDE_HDCP_DEBUG("bksv : 0x%2x%2x%2x%2x%2x\n",
bksv[i + 4],
bksv[i + 3], bksv[i + 2],
bksv[i + 1], bksv[i]);
}
bksv_out = sde_hdcp_1x_swap_byte_order(bksv,
hdcp->current_tp.dev_count);
if (!bksv_out) {
rc = -ENOMEM;
goto exit;
}
bksv_srm = (struct hdcp_srm_device_id_t *)bksv_out;
/* Here we are checking repeater ksv list */
rc = hdcp1_validate_receiver_ids(bksv_srm,
hdcp->current_tp.dev_count);
kfree(bksv_out);
exit:
return rc;
}
static void sde_hdcp_1x_enable_sink_irq_hpd(struct sde_hdcp_1x *hdcp) static void sde_hdcp_1x_enable_sink_irq_hpd(struct sde_hdcp_1x *hdcp)
{ {
int rc; int rc;
@ -872,6 +973,12 @@ static int sde_hdcp_1x_authentication_part1(struct sde_hdcp_1x *hdcp)
if (rc) if (rc)
goto error; goto error;
rc = sde_hdcp_1x_revoked_rcv_chk(hdcp);
if (rc) {
rc = -SDE_HDCP_SRM_FAIL;
goto error;
}
rc = sde_hdcp_1x_send_an_aksv_to_sink(hdcp); rc = sde_hdcp_1x_send_an_aksv_to_sink(hdcp);
if (rc) if (rc)
goto error; goto error;
@ -1196,6 +1303,12 @@ static int sde_hdcp_1x_authentication_part2(struct sde_hdcp_1x *hdcp)
if (rc) if (rc)
goto error; goto error;
rc = sde_hdcp_1x_revoked_rpt_chk(hdcp);
if (rc) {
rc = -SDE_HDCP_SRM_FAIL;
goto error;
}
do { do {
rc = sde_hdcp_1x_transfer_v_h(hdcp); rc = sde_hdcp_1x_transfer_v_h(hdcp);
if (rc) if (rc)
@ -1317,8 +1430,11 @@ static void sde_hdcp_1x_auth_work(struct work_struct *work)
end: end:
if (rc && !sde_hdcp_1x_state(HDCP_STATE_INACTIVE)) if (rc && !sde_hdcp_1x_state(HDCP_STATE_INACTIVE)) {
hdcp->hdcp_state = HDCP_STATE_AUTH_FAIL; hdcp->hdcp_state = HDCP_STATE_AUTH_FAIL;
if (rc == -SDE_HDCP_SRM_FAIL)
hdcp->hdcp_state = HDCP_STATE_AUTH_FAIL_NOREAUTH;
}
/* /*
* Disabling software DDC before going into part3 to make sure * Disabling software DDC before going into part3 to make sure
@ -1581,6 +1697,7 @@ void sde_hdcp_1x_deinit(void *input)
if (hdcp->workq) if (hdcp->workq)
destroy_workqueue(hdcp->workq); destroy_workqueue(hdcp->workq);
hdcp1_client_unregister();
kfree(hdcp); kfree(hdcp);
} /* hdcp_1x_deinit */ } /* hdcp_1x_deinit */
@ -1680,6 +1797,44 @@ irq_not_handled:
return -EINVAL; return -EINVAL;
} }
static void sde_hdcp_1x_srm_cb(void *input)
{
struct sde_hdcp_1x *hdcp = (struct sde_hdcp_1x *)input;
int rc = 0;
if (!hdcp) {
pr_err("invalid input\n");
return;
}
rc = sde_hdcp_1x_revoked_rcv_chk(hdcp);
if (rc) {
pr_err("receiver failed SRM check\n");
goto fail_noreauth;
}
/* If its not a repeater we are done */
if (hdcp->current_tp.ds_type != DS_REPEATER)
return;
/* Check the repeater KSV against SRM */
rc = sde_hdcp_1x_revoked_rpt_chk(hdcp);
if (rc) {
pr_err("repeater failed SRM check\n");
goto fail_noreauth;
}
return;
fail_noreauth:
/* No reauth in case of SRM failure */
hdcp->hdcp_state = HDCP_STATE_AUTH_FAIL_NOREAUTH;
sde_hdcp_1x_update_auth_status(hdcp);
}
void *sde_hdcp_1x_init(struct sde_hdcp_init_data *init_data) void *sde_hdcp_1x_init(struct sde_hdcp_init_data *init_data)
{ {
struct sde_hdcp_1x *hdcp = NULL; struct sde_hdcp_1x *hdcp = NULL;
@ -1692,6 +1847,10 @@ void *sde_hdcp_1x_init(struct sde_hdcp_init_data *init_data)
.off = sde_hdcp_1x_off .off = sde_hdcp_1x_off
}; };
static struct hdcp_client_ops client_ops = {
.srm_cb = sde_hdcp_1x_srm_cb,
};
if (!init_data || !init_data->core_io || !init_data->qfprom_io || if (!init_data || !init_data->core_io || !init_data->qfprom_io ||
!init_data->mutex || !init_data->notify_status || !init_data->mutex || !init_data->notify_status ||
!init_data->workq || !init_data->cb_data) { !init_data->workq || !init_data->cb_data) {
@ -1729,6 +1888,8 @@ void *sde_hdcp_1x_init(struct sde_hdcp_init_data *init_data)
init_completion(&hdcp->r0_checked); init_completion(&hdcp->r0_checked);
init_completion(&hdcp->sink_r0_available); init_completion(&hdcp->sink_r0_available);
/* Register client ctx and the srm_cb with hdcp lib */
hdcp1_client_register((void *)hdcp, &client_ops);
SDE_HDCP_DEBUG("HDCP module initialized. HDCP_STATE=%s\n", SDE_HDCP_DEBUG("HDCP module initialized. HDCP_STATE=%s\n",
SDE_HDCP_STATE_NAME); SDE_HDCP_STATE_NAME);

199
drivers/misc/hdcp.c
View file

@ -93,6 +93,8 @@
#define RXINFO_SIZE 2 #define RXINFO_SIZE 2
#define SEQ_NUM_V_SIZE 3 #define SEQ_NUM_V_SIZE 3
#define HDCP_SRM_CMD_CHECK_DEVICE_ID 2
#define RCVR_ID_SIZE BITS_40_IN_BYTES #define RCVR_ID_SIZE BITS_40_IN_BYTES
#define MAX_RCVR_IDS_ALLOWED_IN_LIST 31 #define MAX_RCVR_IDS_ALLOWED_IN_LIST 31
#define MAX_RCVR_ID_LIST_SIZE \ #define MAX_RCVR_ID_LIST_SIZE \
@ -437,6 +439,17 @@ struct __attribute__ ((__packed__)) hdcp_update_srm_rsp {
uint32_t commandid; uint32_t commandid;
}; };
struct __attribute__ ((__packed__)) hdcp_srm_check_device_ids_req {
uint32_t commandid;
uint32_t num_device_ids;
uint8_t device_ids[1];
};
struct __attribute__ ((__packed__)) hdcp_srm_check_device_ids_rsp {
uint32_t commandid;
int32_t retval;
};
struct __attribute__ ((__packed__)) hdcp_get_topology_req { struct __attribute__ ((__packed__)) hdcp_get_topology_req {
uint32_t commandid; uint32_t commandid;
uint32_t ctxhandle; uint32_t ctxhandle;
@ -496,6 +509,20 @@ struct __attribute__ ((__packed__)) hdcp_rcv_id_list_rsp {
uint32_t commandid; uint32_t commandid;
}; };
/*
* struct hdcp1_lib_handle - handle for hdcp1 client
* @qseecom_handle - for sending commands to hdcp1 TA
* @srm_handle - for sending commands to SRM TA
* @client_ops - handle to call APIs exposed by hdcp1 client
* @client_ctx - client context maintained by hdmi
*/
struct hdcp1_lib_handle {
struct qseecom_handle *qsee_handle;
struct qseecom_handle *srm_handle;
struct hdcp_client_ops *client_ops;
void *client_ctx;
};
/* /*
* struct hdcp_lib_handle - handle for hdcp client * struct hdcp_lib_handle - handle for hdcp client
* @qseecom_handle - for sending commands to qseecom * @qseecom_handle - for sending commands to qseecom
@ -585,9 +612,10 @@ static void hdcp_lib_stream(struct hdcp_lib_handle *handle);
static int hdcp_lib_txmtr_init(struct hdcp_lib_handle *handle); static int hdcp_lib_txmtr_init(struct hdcp_lib_handle *handle);
static int hdcp_lib_txmtr_init_legacy(struct hdcp_lib_handle *handle); static int hdcp_lib_txmtr_init_legacy(struct hdcp_lib_handle *handle);
static struct qseecom_handle *hdcp1_handle;
static struct qseecom_handle *hdcpsrm_handle; static struct qseecom_handle *hdcpsrm_handle;
static struct hdcp1_lib_handle *hdcp1_handle;
static bool hdcp1_supported = true; static bool hdcp1_supported = true;
static bool hdcp1_enc_enabled; static bool hdcp1_enc_enabled;
static struct mutex hdcp1_ta_cmd_lock; static struct mutex hdcp1_ta_cmd_lock;
@ -2283,31 +2311,69 @@ static void hdcp_lib_wait_work(struct kthread_work *work)
bool hdcp1_check_if_supported_load_app(void) bool hdcp1_check_if_supported_load_app(void)
{ {
int rc = 0; int rc = 0;
bool hdcp1_srm_supported = true;
/* start hdcp1 app */ /* start hdcp1 app */
if (hdcp1_supported && !hdcp1_handle) { if (hdcp1_supported && !hdcp1_handle->qsee_handle) {
rc = qseecom_start_app(&hdcp1_handle, HDCP1_APP_NAME, rc = qseecom_start_app(&hdcp1_handle->qsee_handle,
HDCP1_APP_NAME,
QSEECOM_SBUFF_SIZE); QSEECOM_SBUFF_SIZE);
if (rc) { if (rc) {
pr_err("qseecom_start_app failed %d\n", rc); pr_err("hdcp1 qseecom_start_app failed %d\n", rc);
hdcp1_supported = false; hdcp1_supported = false;
} else { kfree(hdcp1_handle);
}
}
/* if hdcp1 app succeeds load SRM TA as well */
if (hdcp1_supported && !hdcp1_handle->srm_handle) {
mutex_init(&hdcp1_ta_cmd_lock); mutex_init(&hdcp1_ta_cmd_lock);
rc = qseecom_start_app(&hdcp1_handle->srm_handle,
SRMAPP_NAME,
QSEECOM_SBUFF_SIZE);
if (rc) {
hdcp1_srm_supported = false;
pr_err("hdcp1_srm qseecom_start_app failed %d\n", rc);
} }
} }
pr_debug("hdcp1 app %s loaded\n", pr_debug("hdcp1 app %s loaded\n",
hdcp1_supported ? "successfully" : "not"); hdcp1_supported ? "successfully" : "not");
pr_debug("hdcp1 srm app %s loaded\n",
hdcp1_srm_supported ? "successfully" : "not");
return hdcp1_supported; return hdcp1_supported;
} }
void hdcp1_client_register(void *client_ctx, struct hdcp_client_ops *ops)
{
/* initialize the hdcp1 handle */
hdcp1_handle = kzalloc(sizeof(*hdcp1_handle), GFP_KERNEL);
if (hdcp1_handle) {
hdcp1_handle->client_ops = ops;
hdcp1_handle->client_ctx = client_ctx;
}
}
void hdcp1_client_unregister(void)
{
if (hdcp1_handle && hdcp1_handle->qsee_handle)
qseecom_shutdown_app(&hdcp1_handle->qsee_handle);
if (hdcp1_handle && hdcp1_handle->srm_handle)
qseecom_shutdown_app(&hdcp1_handle->srm_handle);
kfree(hdcp1_handle);
}
/* APIs exposed to all clients */ /* APIs exposed to all clients */
int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb) int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb)
{ {
int rc = 0; int rc = 0;
struct hdcp1_key_set_req *key_set_req; struct hdcp1_key_set_req *key_set_req;
struct hdcp1_key_set_rsp *key_set_rsp; struct hdcp1_key_set_rsp *key_set_rsp;
struct qseecom_handle *hdcp1_qsee_handle;
if (aksv_msb == NULL || aksv_lsb == NULL) if (aksv_msb == NULL || aksv_lsb == NULL)
return -EINVAL; return -EINVAL;
@ -2315,12 +2381,17 @@ int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb)
if (!hdcp1_supported || !hdcp1_handle) if (!hdcp1_supported || !hdcp1_handle)
return -EINVAL; return -EINVAL;
hdcp1_qsee_handle = hdcp1_handle->qsee_handle;
if (!hdcp1_qsee_handle)
return -EINVAL;
/* set keys and request aksv */ /* set keys and request aksv */
key_set_req = (struct hdcp1_key_set_req *)hdcp1_handle->sbuf; key_set_req = (struct hdcp1_key_set_req *)hdcp1_qsee_handle->sbuf;
key_set_req->commandid = HDCP1_SET_KEY_MESSAGE_ID; key_set_req->commandid = HDCP1_SET_KEY_MESSAGE_ID;
key_set_rsp = (struct hdcp1_key_set_rsp *)(hdcp1_handle->sbuf + key_set_rsp = (struct hdcp1_key_set_rsp *)(hdcp1_qsee_handle->sbuf +
QSEECOM_ALIGN(sizeof(struct hdcp1_key_set_req))); QSEECOM_ALIGN(sizeof(struct hdcp1_key_set_req)));
rc = qseecom_send_command(hdcp1_handle, key_set_req, rc = qseecom_send_command(hdcp1_qsee_handle, key_set_req,
QSEECOM_ALIGN(sizeof QSEECOM_ALIGN(sizeof
(struct hdcp1_key_set_req)), (struct hdcp1_key_set_req)),
key_set_rsp, key_set_rsp,
@ -2351,6 +2422,85 @@ int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb)
return 0; return 0;
} }
int hdcp1_validate_receiver_ids(struct hdcp_srm_device_id_t *device_ids,
uint32_t device_id_cnt)
{
int rc = 0;
struct hdcp_srm_check_device_ids_req *recv_id_req;
struct hdcp_srm_check_device_ids_rsp *recv_id_rsp;
uint32_t sbuf_len;
uint32_t rbuf_len;
int i = 0;
struct qseecom_handle *hdcp1_srmhandle;
/* If client has not been registered return */
if (!hdcp1_supported || !hdcp1_handle)
return -EINVAL;
/* Start the hdcp srm app if not already started */
if (hdcp1_handle && !hdcp1_handle->srm_handle) {
rc = qseecom_start_app(&hdcp1_handle->srm_handle,
SRMAPP_NAME, QSEECOM_SBUFF_SIZE);
if (rc) {
pr_err("qseecom_start_app failed for SRM TA %d\n", rc);
goto end;
}
}
pr_debug("device_id_cnt = %d\n", device_id_cnt);
hdcp1_srmhandle = hdcp1_handle->srm_handle;
sbuf_len = sizeof(struct hdcp_srm_check_device_ids_req)
+ sizeof(struct hdcp_srm_device_id_t) * device_id_cnt
- 1;
rbuf_len = sizeof(struct hdcp_srm_check_device_ids_rsp);
/* Create a SRM validate receiver ID request */
recv_id_req = (struct hdcp_srm_check_device_ids_req *)
hdcp1_srmhandle->sbuf;
recv_id_req->commandid = HDCP_SRM_CMD_CHECK_DEVICE_ID;
recv_id_req->num_device_ids = device_id_cnt;
memcpy(recv_id_req->device_ids, device_ids,
device_id_cnt * sizeof(struct hdcp_srm_device_id_t));
for (i = 0; i < device_id_cnt * sizeof(struct hdcp_srm_device_id_t);
i++) {
pr_debug("recv_id_req->device_ids[%d] = 0x%x\n", i,
recv_id_req->device_ids[i]);
}
recv_id_rsp = (struct hdcp_srm_check_device_ids_rsp *)
(hdcp1_srmhandle->sbuf +
QSEECOM_ALIGN(sbuf_len));
rc = qseecom_send_command(hdcp1_srmhandle,
recv_id_req,
QSEECOM_ALIGN(sbuf_len),
recv_id_rsp,
QSEECOM_ALIGN(rbuf_len));
if (rc < 0) {
pr_err("qseecom cmd failed err=%d\n", rc);
goto end;
}
rc = recv_id_rsp->retval;
if (rc) {
pr_err("enc cmd failed, rsp=%d\n", recv_id_rsp->retval);
rc = -EINVAL;
goto end;
}
pr_debug("rsp=%d\n", recv_id_rsp->retval);
pr_debug("commandid=%d\n", recv_id_rsp->commandid);
end:
return rc;
}
static int hdcp_validate_recv_id(struct hdcp_lib_handle *handle) static int hdcp_validate_recv_id(struct hdcp_lib_handle *handle)
{ {
int rc = 0; int rc = 0;
@ -2398,6 +2548,7 @@ int hdcp1_set_enc(bool enable)
int rc = 0; int rc = 0;
struct hdcp1_set_enc_req *set_enc_req; struct hdcp1_set_enc_req *set_enc_req;
struct hdcp1_set_enc_rsp *set_enc_rsp; struct hdcp1_set_enc_rsp *set_enc_rsp;
struct qseecom_handle *hdcp1_qsee_handle;
mutex_lock(&hdcp1_ta_cmd_lock); mutex_lock(&hdcp1_ta_cmd_lock);
@ -2406,18 +2557,23 @@ int hdcp1_set_enc(bool enable)
goto end; goto end;
} }
hdcp1_qsee_handle = hdcp1_handle->qsee_handle;
if (!hdcp1_qsee_handle)
return -EINVAL;
if (hdcp1_enc_enabled == enable) { if (hdcp1_enc_enabled == enable) {
pr_info("already %s\n", enable ? "enabled" : "disabled"); pr_info("already %s\n", enable ? "enabled" : "disabled");
goto end; goto end;
} }
/* set keys and request aksv */ /* set keys and request aksv */
set_enc_req = (struct hdcp1_set_enc_req *)hdcp1_handle->sbuf; set_enc_req = (struct hdcp1_set_enc_req *)hdcp1_qsee_handle->sbuf;
set_enc_req->commandid = HDCP1_SET_ENC_MESSAGE_ID; set_enc_req->commandid = HDCP1_SET_ENC_MESSAGE_ID;
set_enc_req->enable = enable; set_enc_req->enable = enable;
set_enc_rsp = (struct hdcp1_set_enc_rsp *)(hdcp1_handle->sbuf + set_enc_rsp = (struct hdcp1_set_enc_rsp *)(hdcp1_qsee_handle->sbuf +
QSEECOM_ALIGN(sizeof(struct hdcp1_set_enc_req))); QSEECOM_ALIGN(sizeof(struct hdcp1_set_enc_req)));
rc = qseecom_send_command(hdcp1_handle, set_enc_req, rc = qseecom_send_command(hdcp1_qsee_handle, set_enc_req,
QSEECOM_ALIGN(sizeof QSEECOM_ALIGN(sizeof
(struct hdcp1_set_enc_req)), (struct hdcp1_set_enc_req)),
set_enc_rsp, set_enc_rsp,
@ -2679,6 +2835,8 @@ static ssize_t hdmi_hdcp_srm_updated(struct device *dev,
int srm_updated; int srm_updated;
struct hdcp_lib_handle *handle; struct hdcp_lib_handle *handle;
ssize_t ret = count; ssize_t ret = count;
struct hdcp_client_ops *client_ops;
void *hdcp_client_ctx;
handle = hdcp_drv_mgr->handle; handle = hdcp_drv_mgr->handle;
@ -2689,12 +2847,21 @@ static ssize_t hdmi_hdcp_srm_updated(struct device *dev,
} }
if (srm_updated) { if (srm_updated) {
if (handle && handle->qseecom_handle) {
client_ops = handle->client_ops;
hdcp_client_ctx = handle->client_ctx;
if (hdcp_validate_recv_id(handle)) { if (hdcp_validate_recv_id(handle)) {
pr_debug("SRM check FAILED\n"); pr_debug("HDCP 2.2 SRM check FAILED\n");
if (handle && handle->client_ops->srm_cb) if (handle && client_ops->srm_cb)
handle->client_ops->srm_cb(handle->client_ctx); client_ops->srm_cb(hdcp_client_ctx);
} else { } else
pr_debug("SRM check PASSED\n"); pr_debug("HDCP 2.2 SRM check PASSED\n");
} else if (hdcp1_handle && hdcp1_handle->qsee_handle) {
pr_debug("HDCP 1.4 SRM check\n");
hdcp_client_ctx = hdcp1_handle->client_ctx;
client_ops = hdcp1_handle->client_ops;
if (client_ops->srm_cb)
client_ops->srm_cb(hdcp_client_ctx);
} }
} }

12
include/linux/hdcp_qseecom.h
View file

@ -15,6 +15,8 @@
#include <linux/types.h> #include <linux/types.h>
#define HDCP_MAX_MESSAGE_PARTS 4 #define HDCP_MAX_MESSAGE_PARTS 4
#define RECV_ID_SIZE 5
#define MAX_DEVICES_SUPPORTED 127
enum hdcp_lib_wakeup_cmd { enum hdcp_lib_wakeup_cmd {
HDCP_LIB_WKUP_CMD_INVALID, HDCP_LIB_WKUP_CMD_INVALID,
@ -115,6 +117,10 @@ static inline char *hdcp_lib_cmd_to_str(uint32_t cmd)
} }
} }
struct hdcp_srm_device_id_t {
uint8_t data[RECV_ID_SIZE];
};
struct hdcp_txmtr_ops { struct hdcp_txmtr_ops {
int (*wakeup)(struct hdcp_lib_wakeup_data *data); int (*wakeup)(struct hdcp_lib_wakeup_data *data);
bool (*feature_supported)(void *phdcpcontext); bool (*feature_supported)(void *phdcpcontext);
@ -148,6 +154,12 @@ void hdcp_library_deregister(void *phdcpcontext);
bool hdcp1_check_if_supported_load_app(void); bool hdcp1_check_if_supported_load_app(void);
int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb); int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb);
int hdcp1_set_enc(bool enable); int hdcp1_set_enc(bool enable);
int hdcp1_validate_receiver_ids(struct hdcp_srm_device_id_t *device_ids,
uint32_t device_id_cnt);
void hdcp1_cache_repeater_topology(void *hdcp1_cached_tp); void hdcp1_cache_repeater_topology(void *hdcp1_cached_tp);
void hdcp1_notify_topology(void); void hdcp1_notify_topology(void);
void hdcp1_client_register(void *client_ctx,
struct hdcp_client_ops *ops);
void hdcp1_client_unregister(void);
#endif /* __HDCP_QSEECOM_H */ #endif /* __HDCP_QSEECOM_H */