/* Copyright (c) 2015, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #define pr_fmt(fmt) "%s: " fmt, __func__ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "qseecom_kernel.h" #define TZAPP_NAME "hdcp2p2" #define HDCP1_APP_NAME "hdcp1" #define QSEECOM_SBUFF_SIZE 0x1000 #define MAX_TX_MESSAGE_SIZE 129 #define MAX_RX_MESSAGE_SIZE 534 #define MAX_TOPOLOGY_ELEMS 32 #define HDCP1_AKSV_SIZE 8 /* parameters related to LC_Init message */ #define MESSAGE_ID_SIZE 1 #define LC_INIT_MESSAGE_SIZE (MESSAGE_ID_SIZE+BITS_64_IN_BYTES) /* parameters related to SKE_Send_EKS message */ #define SKE_SEND_EKS_MESSAGE_SIZE \ (MESSAGE_ID_SIZE+BITS_128_IN_BYTES+BITS_64_IN_BYTES) /* all message IDs */ #define AKE_SEND_CERT_MESSAGE_ID 3 #define AKE_NO_STORED_KM_MESSAGE_ID 4 #define AKE_STORED_KM_MESSAGE_ID 5 #define AKE_SEND_H_PRIME_MESSAGE_ID 7 #define AKE_SEND_PAIRING_INFO_MESSAGE_ID 8 #define LC_INIT_MESSAGE_ID 9 #define LC_SEND_L_PRIME_MESSAGE_ID 10 #define SKE_SEND_EKS_MESSAGE_ID 11 #define REPEATER_AUTH_SEND_RECEIVERID_LIST_MESSAGE_ID 12 #define REPEATER_AUTH_SEND_ACK_MESSAGE_ID 15 #define REPEATER_AUTH_STREAM_MANAGE_MESSAGE_ID 16 #define REPEATER_AUTH_STREAM_READY_MESSAGE_ID 17 #define HDCP1_SET_KEY_MESSAGE_ID 202 #define HDCP1_SET_ENC_MESSAGE_ID 205 #define BITS_8_IN_BYTES 1 #define BITS_16_IN_BYTES 2 #define BITS_24_IN_BYTES 3 #define BITS_32_IN_BYTES 4 #define BITS_40_IN_BYTES 5 #define BITS_64_IN_BYTES 8 #define BITS_128_IN_BYTES 16 #define BITS_160_IN_BYTES 20 #define BITS_256_IN_BYTES 32 #define BITS_1024_IN_BYTES 128 #define BITS_3072_IN_BYTES 384 #define TXCAPS_SIZE 3 #define RXCAPS_SIZE 3 #define RXINFO_SIZE 2 #define SEQ_NUM_V_SIZE 3 #define RCVR_ID_SIZE BITS_40_IN_BYTES #define MAX_RCVR_IDS_ALLOWED_IN_LIST 31 #define MAX_RCVR_ID_LIST_SIZE \ (RCVR_ID_SIZE*MAX_RCVR_IDS_ALLOWED_IN_LIST) /* * minimum wait as per standard is 200 ms. keep it 300 ms * to be on safe side. */ #define SLEEP_SET_HW_KEY_MS 300 #define QSEECOM_ALIGN_SIZE 0x40 #define QSEECOM_ALIGN_MASK (QSEECOM_ALIGN_SIZE - 1) #define QSEECOM_ALIGN(x)\ ((x + QSEECOM_ALIGN_SIZE) & (~QSEECOM_ALIGN_MASK)) /* hdcp command status */ #define HDCP_SUCCESS 0 /* flags set by tz in response message */ #define HDCP_TXMTR_SUBSTATE_INIT 0 #define HDCP_TXMTR_SUBSTATE_WAITING_FOR_RECIEVERID_LIST 1 #define HDCP_TXMTR_SUBSTATE_PROCESSED_RECIEVERID_LIST 2 #define HDCP_TXMTR_SUBSTATE_WAITING_FOR_STREAM_READY_MESSAGE 3 #define HDCP_TXMTR_SUBSTATE_REPEATER_AUTH_COMPLETE 4 #define HDCP_TXMTR_SERVICE_ID 0x0001000 #define SERVICE_TXMTR_CREATE_CMD(x) (HDCP_TXMTR_SERVICE_ID | x) #define HDCP_TXMTR_INIT SERVICE_TXMTR_CREATE_CMD(1) #define HDCP_TXMTR_DEINIT SERVICE_TXMTR_CREATE_CMD(2) #define HDCP_TXMTR_PROCESS_RECEIVED_MESSAGE SERVICE_TXMTR_CREATE_CMD(3) #define HDCP_TXMTR_SEND_MESSAGE_TIMEOUT SERVICE_TXMTR_CREATE_CMD(4) #define HDCP_TXMTR_SET_HW_KEY SERVICE_TXMTR_CREATE_CMD(5) #define HDCP_TXMTR_QUERY_STREAM_TYPE SERVICE_TXMTR_CREATE_CMD(6) #define HDCP_TXMTR_GET_KSXORLC128_AND_RIV SERVICE_TXMTR_CREATE_CMD(7) #define HDCP_TXMTR_PROVISION_KEY SERVICE_TXMTR_CREATE_CMD(8) #define HDCP_TXMTR_GET_TOPOLOGY_INFO SERVICE_TXMTR_CREATE_CMD(9) #define HDCP_TXMTR_UPDATE_SRM SERVICE_TXMTR_CREATE_CMD(10) /*This API calls the library init function */ #define HDCP_LIB_INIT SERVICE_TXMTR_CREATE_CMD(11) /*This API calls the library deinit function */ #define HDCP_LIB_DEINIT SERVICE_TXMTR_CREATE_CMD(12) #define HDCP_LIB_EXECUTE(x) {\ if (handle->tethered)\ hdcp_lib_##x(handle);\ else\ queue_kthread_work(&handle->worker, &handle->wk_##x);\ } enum hdcp_state { HDCP_STATE_INIT = 0x00, HDCP_STATE_APP_LOADED = 0x01, HDCP_STATE_TXMTR_INIT = 0x02, HDCP_STATE_AUTHENTICATED = 0x04, HDCP_STATE_ERROR = 0x08 }; enum hdcp_element { HDCP_TYPE_UNKNOWN, HDCP_TYPE_RECEIVER, HDCP_TYPE_REPEATER, }; enum hdcp_version { HDCP_VERSION_UNKNOWN, HDCP_VERSION_2_2, HDCP_VERSION_1_4 }; struct receiver_info { unsigned char rcvrInfo[RCVR_ID_SIZE]; enum hdcp_element elem_type; enum hdcp_version hdcp_version; }; struct topology_info { unsigned int nNumRcvrs; struct receiver_info rcvinfo[MAX_TOPOLOGY_ELEMS]; }; struct __attribute__ ((__packed__)) hdcp1_key_set_req { uint32_t commandid; }; struct __attribute__ ((__packed__)) hdcp1_key_set_rsp { uint32_t commandid; uint32_t ret; uint8_t ksv[HDCP1_AKSV_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_init_req { uint32_t commandid; }; struct __attribute__ ((__packed__)) hdcp_init_rsp { uint32_t status; uint32_t commandid; uint32_t ctxhandle; uint32_t timeout; uint32_t msglen; uint8_t message[MAX_TX_MESSAGE_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_deinit_req { uint32_t commandid; uint32_t ctxhandle; }; struct __attribute__ ((__packed__)) hdcp_deinit_rsp { uint32_t status; uint32_t commandid; }; struct __attribute__ ((__packed__)) hdcp_rcvd_msg_req { uint32_t commandid; uint32_t ctxhandle; uint32_t msglen; uint8_t msg[MAX_RX_MESSAGE_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_rcvd_msg_rsp { uint32_t status; uint32_t commandid; uint32_t state; uint32_t timeout; uint32_t flag; uint32_t msglen; uint8_t msg[MAX_TX_MESSAGE_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_set_hw_key_req { uint32_t commandid; uint32_t ctxhandle; }; struct __attribute__ ((__packed__)) hdcp_set_hw_key_rsp { uint32_t status; uint32_t commandid; }; struct __attribute__ ((__packed__)) hdcp_send_timeout_req { uint32_t commandid; uint32_t ctxhandle; }; struct __attribute__ ((__packed__)) hdcp_send_timeout_rsp { uint32_t status; uint32_t commandid; uint32_t timeout; uint32_t msglen; uint8_t message[MAX_TX_MESSAGE_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_query_stream_type_req { uint32_t commandid; uint32_t ctxhandle; }; struct __attribute__ ((__packed__)) hdcp_query_stream_type_rsp { uint32_t status; uint32_t commandid; uint32_t timeout; uint32_t msglen; uint8_t msg[MAX_TX_MESSAGE_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_set_stream_type_req { uint32_t commandid; uint32_t ctxhandle; uint8_t streamtype; }; struct __attribute__ ((__packed__)) hdcp_set_stream_type_rsp { uint32_t status; uint32_t commandid; uint32_t timeout; uint32_t msglen; uint8_t message[MAX_TX_MESSAGE_SIZE]; }; struct __attribute__ ((__packed__)) hdcp_update_srm_req { uint32_t commandid; uint32_t ctxhandle; uint32_t srmoffset; uint32_t srmlength; }; struct __attribute__ ((__packed__)) hdcp_update_srm_rsp { uint32_t status; uint32_t commandid; }; struct __attribute__ ((__packed__)) hdcp_get_topology_req { uint32_t commandid; uint32_t ctxhandle; }; struct __attribute__ ((__packed__)) hdcp_get_topology_rsp { uint32_t status; uint32_t commandid; struct topology_info topologyinfo; }; struct __attribute__ ((__packed__)) rxvr_info_struct { uint8_t rcvrCert[522]; uint8_t rrx[BITS_64_IN_BYTES]; uint8_t rxcaps[RXCAPS_SIZE]; bool repeater; }; struct __attribute__ ((__packed__)) repeater_info_struct { uint8_t RxInfo[RXINFO_SIZE]; uint8_t seq_num_V[SEQ_NUM_V_SIZE]; bool seq_num_V_Rollover_flag; uint8_t ReceiverIDList[MAX_RCVR_ID_LIST_SIZE]; uint32_t ReceiverIDListLen; }; struct __attribute__ ((__packed__)) hdcp1_set_enc_req { uint32_t commandid; uint32_t enable; }; struct __attribute__ ((__packed__)) hdcp1_set_enc_rsp { uint32_t commandid; uint32_t ret; }; /* * struct hdcp_lib_handle - handle for hdcp client * @qseecom_handle - for sending commands to qseecom * @listener_buf - buffer containing message shared with the client * @msglen - size message in the buffer * @tz_ctxhandle - context handle shared with tz * @hdcp_timeout - timeout in msecs shared for hdcp messages * @client_ctx - client context maintained by hdmi * @client_ops - handle to call APIs exposed by hdcp client * @timeout_lock - this lock protects hdcp_timeout field * @msg_lock - this lock protects the message buffer */ struct hdcp_lib_handle { unsigned char *listener_buf; uint32_t msglen; uint32_t tz_ctxhandle; uint32_t hdcp_timeout; uint32_t timeout_left; bool no_stored_km_flag; bool feature_supported; void *client_ctx; struct hdcp_client_ops *client_ops; struct mutex msg_lock; struct mutex wakeup_mutex; enum hdcp_state hdcp_state; enum hdcp_lib_wakeup_cmd wakeup_cmd; bool repeater_flag; bool tethered; struct qseecom_handle *qseecom_handle; int last_msg_sent; char *last_msg_recvd_buf; uint32_t last_msg_recvd_len; atomic_t hdcp_off; struct task_struct *thread; struct completion topo_wait; struct kthread_worker worker; struct kthread_work wk_init; struct kthread_work wk_msg_sent; struct kthread_work wk_msg_recvd; struct kthread_work wk_timeout; struct kthread_work wk_clean; struct kthread_work wk_topology; struct kthread_work wk_stream; }; struct hdcp_lib_message_map { int msg_id; const char *msg_name; }; static void hdcp_lib_clean(struct hdcp_lib_handle *handle); static void hdcp_lib_init(struct hdcp_lib_handle *handle); static void hdcp_lib_msg_sent(struct hdcp_lib_handle *handle); static void hdcp_lib_msg_recvd(struct hdcp_lib_handle *handle); static void hdcp_lib_timeout(struct hdcp_lib_handle *handle); static void hdcp_lib_stream(struct hdcp_lib_handle *handle); static struct qseecom_handle *hdcp1_handle; static bool hdcp1_supported = true; static const char *hdcp_lib_message_name(int msg_id) { /* * Message ID map. The first number indicates the message number * assigned to the message by the HDCP 2.2 spec. This is also the first * byte of every HDCP 2.2 authentication protocol message. */ static struct hdcp_lib_message_map hdcp_lib_msg_map[] = { {2, "AKE_INIT"}, {3, "AKE_SEND_CERT"}, {4, "AKE_NO_STORED_KM"}, {5, "AKE_STORED_KM"}, {7, "AKE_SEND_H_PRIME"}, {8, "AKE_SEND_PAIRING_INFO"}, {9, "LC_INIT"}, {10, "LC_SEND_L_PRIME"}, {11, "SKE_SEND_EKS"}, {12, "REPEATER_AUTH_SEND_RECEIVERID_LIST"}, {15, "REPEATER_AUTH_SEND_ACK"}, {16, "REPEATER_AUTH_STREAM_MANAGE"}, {17, "REPEATER_AUTH_STREAM_READY"}, }; int i; for (i = 0; i < ARRAY_SIZE(hdcp_lib_msg_map); i++) { if (msg_id == hdcp_lib_msg_map[i].msg_id) return hdcp_lib_msg_map[i].msg_name; } return "UNKNOWN"; } static inline void hdcp_lib_wakeup_client(struct hdcp_lib_handle *handle, struct hdmi_hdcp_wakeup_data *data) { int rc = 0; if (handle && handle->client_ops && handle->client_ops->wakeup && data && (data->cmd != HDMI_HDCP_WKUP_CMD_INVALID)) { rc = handle->client_ops->wakeup(data); if (rc) pr_err("error sending %s to client\n", hdmi_hdcp_cmd_to_str(data->cmd)); } } static inline void hdcp_lib_send_message(struct hdcp_lib_handle *handle) { struct hdmi_hdcp_wakeup_data cdata = {HDMI_HDCP_WKUP_CMD_SEND_MESSAGE}; cdata.context = handle->client_ctx; cdata.send_msg_buf = handle->listener_buf; cdata.send_msg_len = handle->msglen; cdata.timeout = handle->hdcp_timeout; hdcp_lib_wakeup_client(handle, &cdata); } static int hdcp_lib_enable_encryption(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_set_hw_key_req *req_buf; struct hdcp_set_hw_key_rsp *rsp_buf; /* * wait at least 200ms before enabling encryption * as per hdcp2p2 sepcifications. */ msleep(SLEEP_SET_HW_KEY_MS); req_buf = (struct hdcp_set_hw_key_req *)( handle->qseecom_handle->sbuf); req_buf->commandid = HDCP_TXMTR_SET_HW_KEY; req_buf->ctxhandle = handle->tz_ctxhandle; rsp_buf = (struct hdcp_set_hw_key_rsp *)( handle->qseecom_handle->sbuf + QSEECOM_ALIGN( sizeof(struct hdcp_set_hw_key_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_set_hw_key_req)), rsp_buf, QSEECOM_ALIGN(sizeof( struct hdcp_set_hw_key_rsp))); if ((rc < 0) || (rsp_buf->status < 0)) { pr_err("qseecom cmd failed with err = %d status = %d\n", rc, rsp_buf->status); rc = -EINVAL; goto error; } /* reached an authenticated state */ handle->hdcp_state |= HDCP_STATE_AUTHENTICATED; pr_debug("success\n"); return 0; error: if (!atomic_read(&handle->hdcp_off)) HDCP_LIB_EXECUTE(clean); return rc; } static int hdcp_lib_library_load(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_init_req *req_buf; struct hdcp_init_rsp *rsp_buf; if (!handle) { pr_err("invalid input\n"); goto exit; } if (handle->hdcp_state & HDCP_STATE_APP_LOADED) { pr_err("library already loaded\n"); return rc; } /* * allocating resource for qseecom handle * the app is not loaded here */ rc = qseecom_start_app(&(handle->qseecom_handle), TZAPP_NAME, QSEECOM_SBUFF_SIZE); if (rc) { pr_err("qseecom_start_app failed %d\n", rc); goto exit; } pr_debug("qseecom_start_app success\n"); /* now load the app by sending hdcp_lib_init */ req_buf = (struct hdcp_init_req *)handle->qseecom_handle->sbuf; req_buf->commandid = HDCP_LIB_INIT; rsp_buf = (struct hdcp_init_rsp *)(handle->qseecom_handle-> sbuf + QSEECOM_ALIGN(sizeof(struct hdcp_init_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_init_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_init_rsp))); if (rc < 0) { pr_err("qseecom cmd failed err = %d\n", rc); goto exit; } pr_debug("success\n"); handle->hdcp_state |= HDCP_STATE_APP_LOADED; exit: return rc; } static int hdcp_lib_library_unload(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_deinit_req *req_buf; struct hdcp_deinit_rsp *rsp_buf; if (!handle) { pr_err("invalid input\n"); goto exit; } if (!(handle->hdcp_state & HDCP_STATE_APP_LOADED)) { pr_err("library not loaded\n"); return rc; } /* unloading app by sending hdcp_lib_deinit cmd */ req_buf = (struct hdcp_deinit_req *)handle-> qseecom_handle->sbuf; req_buf->commandid = HDCP_LIB_DEINIT; rsp_buf = (struct hdcp_deinit_rsp *)(handle->qseecom_handle-> sbuf + QSEECOM_ALIGN(sizeof(struct hdcp_deinit_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_deinit_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_deinit_rsp))); if (rc < 0) { pr_err("qseecom cmd failed err = %d\n", rc); goto exit; } /* deallocate the resources for qseecom handle */ rc = qseecom_shutdown_app(&handle->qseecom_handle); if (rc) { pr_err("qseecom_shutdown_app failed err: %d\n", rc); goto exit; } handle->hdcp_state &= ~HDCP_STATE_APP_LOADED; pr_debug("success\n"); exit: return rc; } static int hdcp_lib_txmtr_init(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_init_req *req_buf; struct hdcp_init_rsp *rsp_buf; if (!handle) { pr_err("invalid input\n"); return -EINVAL; } if (!(handle->hdcp_state & HDCP_STATE_APP_LOADED)) { pr_err("app not loaded\n"); goto exit; } if (handle->hdcp_state & HDCP_STATE_TXMTR_INIT) { pr_err("txmtr already initialized\n"); goto exit; } /* send HDCP_Txmtr_Init command to TZ */ req_buf = (struct hdcp_init_req *)handle-> qseecom_handle->sbuf; req_buf->commandid = HDCP_TXMTR_INIT; rsp_buf = (struct hdcp_init_rsp *)(handle->qseecom_handle-> sbuf + QSEECOM_ALIGN(sizeof(struct hdcp_init_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_init_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_init_rsp))); if ((rc < 0) || (rsp_buf->status != HDCP_SUCCESS) || (rsp_buf->commandid != HDCP_TXMTR_INIT) || (rsp_buf->msglen <= 0) || (rsp_buf->message == NULL)) { pr_err("qseecom cmd failed with err = %d, status = %d\n", rc, rsp_buf->status); rc = -EINVAL; goto exit; } pr_debug("recvd %s from TZ at %dms\n", hdcp_lib_message_name((int)rsp_buf->message[0]), jiffies_to_msecs(jiffies)); /* send the response to HDMI driver */ memset(handle->listener_buf, 0, MAX_TX_MESSAGE_SIZE); memcpy(handle->listener_buf, (unsigned char *)rsp_buf->message, rsp_buf->msglen); handle->msglen = rsp_buf->msglen; handle->hdcp_timeout = rsp_buf->timeout; handle->tz_ctxhandle = rsp_buf->ctxhandle; handle->hdcp_state |= HDCP_STATE_TXMTR_INIT; pr_debug("success\n"); exit: return rc; } static int hdcp_lib_txmtr_deinit(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_deinit_req *req_buf; struct hdcp_deinit_rsp *rsp_buf; if (!handle) { pr_err("invalid input\n"); rc = -EINVAL; goto exit; } if (!(handle->hdcp_state & HDCP_STATE_APP_LOADED)) { pr_err("app not loaded\n"); goto exit; } if (!(handle->hdcp_state & HDCP_STATE_TXMTR_INIT)) { /* unload library here */ pr_err("txmtr not initialized\n"); goto exit; } /* send command to TZ */ req_buf = (struct hdcp_deinit_req *)handle-> qseecom_handle->sbuf; req_buf->commandid = HDCP_TXMTR_DEINIT; req_buf->ctxhandle = handle->tz_ctxhandle; rsp_buf = (struct hdcp_deinit_rsp *)(handle-> qseecom_handle->sbuf + QSEECOM_ALIGN(sizeof( struct hdcp_deinit_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_deinit_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_deinit_rsp))); if ((rc < 0) || (rsp_buf->status < 0) || (rsp_buf->commandid != HDCP_TXMTR_DEINIT)) { pr_err("qseecom cmd failed with err = %d status = %d\n", rc, rsp_buf->status); rc = -EINVAL; goto exit; } handle->hdcp_state &= ~HDCP_STATE_TXMTR_INIT; pr_debug("success\n"); exit: return rc; } static void hdcp_lib_stream(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_query_stream_type_req *req_buf; struct hdcp_query_stream_type_rsp *rsp_buf; if (!handle) { pr_err("invalid handle\n"); return; } /* send command to TZ */ req_buf = (struct hdcp_query_stream_type_req *)handle-> qseecom_handle->sbuf; req_buf->commandid = HDCP_TXMTR_QUERY_STREAM_TYPE; req_buf->ctxhandle = handle->tz_ctxhandle; rsp_buf = (struct hdcp_query_stream_type_rsp *)(handle-> qseecom_handle->sbuf + QSEECOM_ALIGN(sizeof( struct hdcp_query_stream_type_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_query_stream_type_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_query_stream_type_rsp))); if ((rc < 0) || (rsp_buf->status < 0) || (rsp_buf->msglen <= 0) || (rsp_buf->commandid != HDCP_TXMTR_QUERY_STREAM_TYPE) || (rsp_buf->msg == NULL)) { pr_err("qseecom cmd failed with err=%d status=%d\n", rc, rsp_buf->status); rc = -EINVAL; goto exit; } pr_debug("message received from TZ: %s\n", hdcp_lib_message_name((int)rsp_buf->msg[0])); memset(handle->listener_buf, 0, MAX_TX_MESSAGE_SIZE); memcpy(handle->listener_buf, (unsigned char *)rsp_buf->msg, rsp_buf->msglen); handle->hdcp_timeout = rsp_buf->timeout; handle->msglen = rsp_buf->msglen; exit: if (!rc && !atomic_read(&handle->hdcp_off)) hdcp_lib_send_message(handle); } static void hdcp_lib_query_stream_work(struct kthread_work *work) { struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_stream); hdcp_lib_stream(handle); } static bool hdcp_lib_client_feature_supported(void *phdcpcontext) { int rc = 0; bool supported = false; struct hdcp_lib_handle *handle = phdcpcontext; if (!handle) { pr_err("invalid input\n"); goto exit; } if (handle->feature_supported) { supported = true; goto exit; } rc = hdcp_lib_library_load(handle); if (!rc) { pr_debug("HDCP2p2 supported\n"); handle->feature_supported = true; hdcp_lib_library_unload(handle); supported = true; } exit: return supported; } static void hdcp_lib_check_worker_status(struct hdcp_lib_handle *handle) { if (!list_empty(&handle->wk_init.node)) pr_debug("init work queued\n"); if (handle->worker.current_work == &handle->wk_init) pr_debug("init work executing\n"); if (!list_empty(&handle->wk_msg_sent.node)) pr_debug("msg_sent work queued\n"); if (handle->worker.current_work == &handle->wk_msg_sent) pr_debug("msg_sent work executing\n"); if (!list_empty(&handle->wk_msg_recvd.node)) pr_debug("msg_recvd work queued\n"); if (handle->worker.current_work == &handle->wk_msg_recvd) pr_debug("msg_recvd work executing\n"); if (!list_empty(&handle->wk_timeout.node)) pr_debug("timeout work queued\n"); if (handle->worker.current_work == &handle->wk_timeout) pr_debug("timeout work executing\n"); if (!list_empty(&handle->wk_clean.node)) pr_debug("clean work queued\n"); if (handle->worker.current_work == &handle->wk_clean) pr_debug("clean work executing\n"); if (!list_empty(&handle->wk_topology.node)) pr_debug("topology work queued\n"); if (handle->worker.current_work == &handle->wk_topology) pr_debug("topology work executing\n"); if (!list_empty(&handle->wk_stream.node)) pr_debug("stream work queued\n"); if (handle->worker.current_work == &handle->wk_stream) pr_debug("stream work executing\n"); } static int hdcp_lib_check_valid_state(struct hdcp_lib_handle *handle) { int rc = 0; if (!list_empty(&handle->worker.work_list)) hdcp_lib_check_worker_status(handle); if (handle->wakeup_cmd == HDCP_LIB_WKUP_CMD_START) { if (!list_empty(&handle->worker.work_list)) { rc = -EBUSY; goto exit; } } else { if (atomic_read(&handle->hdcp_off)) { pr_warn("hdcp2.2 session tearing down\n"); goto exit; } if (!(handle->hdcp_state & HDCP_STATE_APP_LOADED)) { pr_warn("hdcp 2.2 app not loaded\n"); goto exit; } } exit: return rc; } static void hdcp_lib_update_exec_type(void *ctx, bool tethered) { struct hdcp_lib_handle *handle = ctx; if (!handle) return; mutex_lock(&handle->wakeup_mutex); if (handle->tethered == tethered) { pr_debug("exec mode same as %s\n", tethered ? "tethered" : "threaded"); } else { handle->tethered = tethered; pr_debug("exec mode changed to %s\n", tethered ? "tethered" : "threaded"); } mutex_unlock(&handle->wakeup_mutex); } static int hdcp_lib_wakeup(struct hdcp_lib_wakeup_data *data) { struct hdcp_lib_handle *handle; int rc = 0; if (!data) return -EINVAL; handle = data->context; if (!handle) return -EINVAL; mutex_lock(&handle->wakeup_mutex); handle->wakeup_cmd = data->cmd; handle->timeout_left = data->timeout; pr_debug("%s, timeout left: %dms, tethered %d\n", hdcp_lib_cmd_to_str(handle->wakeup_cmd), handle->timeout_left, handle->tethered); rc = hdcp_lib_check_valid_state(handle); if (rc) goto exit; mutex_lock(&handle->msg_lock); if (data->recvd_msg_len) { kzfree(handle->last_msg_recvd_buf); handle->last_msg_recvd_len = data->recvd_msg_len; handle->last_msg_recvd_buf = kzalloc(data->recvd_msg_len, GFP_KERNEL); if (!handle->last_msg_recvd_buf) { rc = -ENOMEM; mutex_unlock(&handle->msg_lock); goto exit; } memcpy(handle->last_msg_recvd_buf, data->recvd_msg_buf, data->recvd_msg_len); } mutex_unlock(&handle->msg_lock); if (!completion_done(&handle->topo_wait)) complete_all(&handle->topo_wait); switch (handle->wakeup_cmd) { case HDCP_LIB_WKUP_CMD_START: handle->no_stored_km_flag = 0; handle->repeater_flag = 0; handle->last_msg_sent = 0; handle->hdcp_timeout = 0; handle->timeout_left = 0; atomic_set(&handle->hdcp_off, 0); handle->hdcp_state = HDCP_STATE_INIT; HDCP_LIB_EXECUTE(init); break; case HDCP_LIB_WKUP_CMD_STOP: atomic_set(&handle->hdcp_off, 1); HDCP_LIB_EXECUTE(clean); break; case HDCP_LIB_WKUP_CMD_MSG_SEND_SUCCESS: handle->last_msg_sent = handle->listener_buf[0]; HDCP_LIB_EXECUTE(msg_sent); break; case HDCP_LIB_WKUP_CMD_MSG_SEND_FAILED: case HDCP_LIB_WKUP_CMD_MSG_RECV_FAILED: HDCP_LIB_EXECUTE(clean); break; case HDCP_LIB_WKUP_CMD_MSG_RECV_SUCCESS: HDCP_LIB_EXECUTE(msg_recvd); break; case HDCP_LIB_WKUP_CMD_MSG_RECV_TIMEOUT: HDCP_LIB_EXECUTE(timeout); break; case HDCP_LIB_WKUP_CMD_QUERY_STREAM_TYPE: HDCP_LIB_EXECUTE(stream); break; default: pr_err("invalid wakeup command %d\n", handle->wakeup_cmd); } exit: mutex_unlock(&handle->wakeup_mutex); return rc; } static void hdcp_lib_msg_sent(struct hdcp_lib_handle *handle) { struct hdmi_hdcp_wakeup_data cdata = {HDMI_HDCP_WKUP_CMD_INVALID}; if (!handle) { pr_err("invalid handle\n"); return; } cdata.context = handle->client_ctx; switch (handle->last_msg_sent) { case SKE_SEND_EKS_MESSAGE_ID: if (handle->repeater_flag) { if (!atomic_read(&handle->hdcp_off)) queue_kthread_work(&handle->worker, &handle->wk_topology); } if (!hdcp_lib_enable_encryption(handle)) { cdata.cmd = HDMI_HDCP_WKUP_CMD_STATUS_SUCCESS; } else { if (!atomic_read(&handle->hdcp_off)) HDCP_LIB_EXECUTE(clean); } break; case REPEATER_AUTH_SEND_ACK_MESSAGE_ID: pr_debug("Repeater authentication successful\n"); break; default: cdata.cmd = HDMI_HDCP_WKUP_CMD_RECV_MESSAGE; cdata.timeout = handle->timeout_left; } hdcp_lib_wakeup_client(handle, &cdata); } static void hdcp_lib_msg_sent_work(struct kthread_work *work) { struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_msg_sent); if (handle->wakeup_cmd != HDCP_LIB_WKUP_CMD_MSG_SEND_SUCCESS) { pr_err("invalid wakeup command %d\n", handle->wakeup_cmd); return; } hdcp_lib_msg_sent(handle); } static void hdcp_lib_init(struct hdcp_lib_handle *handle) { int rc = 0; if (!handle) { pr_err("invalid handle\n"); return; } if (handle->wakeup_cmd != HDCP_LIB_WKUP_CMD_START) { pr_err("invalid wakeup command %d\n", handle->wakeup_cmd); return; } rc = hdcp_lib_library_load(handle); if (rc) goto exit; rc = hdcp_lib_txmtr_init(handle); if (rc) goto exit; hdcp_lib_send_message(handle); return; exit: HDCP_LIB_EXECUTE(clean); } static void hdcp_lib_init_work(struct kthread_work *work) { struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_init); hdcp_lib_init(handle); } static void hdcp_lib_timeout(struct hdcp_lib_handle *handle) { int rc = 0; struct hdcp_send_timeout_req *req_buf; struct hdcp_send_timeout_rsp *rsp_buf; if (!handle) { pr_err("invalid handle\n"); return; } req_buf = (struct hdcp_send_timeout_req *) (handle->qseecom_handle->sbuf); req_buf->commandid = HDCP_TXMTR_SEND_MESSAGE_TIMEOUT; req_buf->ctxhandle = handle->tz_ctxhandle; rsp_buf = (struct hdcp_send_timeout_rsp *)(handle-> qseecom_handle->sbuf + QSEECOM_ALIGN(sizeof( struct hdcp_send_timeout_req))); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_send_timeout_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_send_timeout_rsp))); if ((rc < 0) || (rsp_buf->status != HDCP_SUCCESS)) { pr_err("qseecom cmd failed for with err = %d status = %d\n", rc, rsp_buf->status); rc = -EINVAL; goto error; } if (rsp_buf->commandid == HDCP_TXMTR_SEND_MESSAGE_TIMEOUT) { pr_err("HDCP_TXMTR_SEND_MESSAGE_TIMEOUT\n"); rc = -EINVAL; goto error; } /* * if the response contains LC_Init message * send the message again to TZ */ if ((rsp_buf->commandid == HDCP_TXMTR_PROCESS_RECEIVED_MESSAGE) && ((int)rsp_buf->message[0] == LC_INIT_MESSAGE_ID) && (rsp_buf->msglen == LC_INIT_MESSAGE_SIZE)) { if (!atomic_read(&handle->hdcp_off)) { /* keep local copy of TZ response */ memset(handle->listener_buf, 0, MAX_TX_MESSAGE_SIZE); memcpy(handle->listener_buf, (unsigned char *)rsp_buf->message, rsp_buf->msglen); handle->hdcp_timeout = rsp_buf->timeout; handle->msglen = rsp_buf->msglen; hdcp_lib_send_message(handle); } } error: if (!atomic_read(&handle->hdcp_off)) HDCP_LIB_EXECUTE(clean); } static void hdcp_lib_manage_timeout_work(struct kthread_work *work) { struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_timeout); hdcp_lib_timeout(handle); } static void hdcp_lib_clean(struct hdcp_lib_handle *handle) { struct hdmi_hdcp_wakeup_data cdata = {HDMI_HDCP_WKUP_CMD_INVALID}; if (!handle) { pr_err("invalid input\n"); return; }; hdcp_lib_txmtr_deinit(handle); hdcp_lib_library_unload(handle); cdata.context = handle->client_ctx; cdata.cmd = HDMI_HDCP_WKUP_CMD_STATUS_FAILED; if (!atomic_read(&handle->hdcp_off)) hdcp_lib_wakeup_client(handle, &cdata); atomic_set(&handle->hdcp_off, 1); } static void hdcp_lib_cleanup_work(struct kthread_work *work) { struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_clean); hdcp_lib_clean(handle); } static void hdcp_lib_msg_recvd(struct hdcp_lib_handle *handle) { int rc = 0; struct hdmi_hdcp_wakeup_data cdata = {HDMI_HDCP_WKUP_CMD_INVALID}; struct hdcp_rcvd_msg_req *req_buf; struct hdcp_rcvd_msg_rsp *rsp_buf; uint32_t msglen; char *msg; if (!handle) { pr_err("invalid handle\n"); return; } cdata.context = handle->client_ctx; mutex_lock(&handle->msg_lock); msglen = handle->last_msg_recvd_len; if (msglen <= 0) { pr_err("invalid msg len\n"); mutex_unlock(&handle->msg_lock); rc = -EINVAL; goto exit; } msg = kzalloc(msglen, GFP_KERNEL); if (!msg) { mutex_unlock(&handle->msg_lock); rc = -ENOMEM; goto exit; } memcpy(msg, handle->last_msg_recvd_buf, msglen); mutex_unlock(&handle->msg_lock); pr_debug("msg received: %s from sink\n", hdcp_lib_message_name((int)msg[0])); /* send the message to QSEECOM */ req_buf = (struct hdcp_rcvd_msg_req *)(handle-> qseecom_handle->sbuf); req_buf->commandid = HDCP_TXMTR_PROCESS_RECEIVED_MESSAGE; memcpy(req_buf->msg, msg, msglen); req_buf->msglen = msglen; req_buf->ctxhandle = handle->tz_ctxhandle; rsp_buf = (struct hdcp_rcvd_msg_rsp *)(handle-> qseecom_handle->sbuf + QSEECOM_ALIGN(sizeof( struct hdcp_rcvd_msg_req))); pr_debug("writing %s to TZ at %dms\n", hdcp_lib_message_name((int)msg[0]), jiffies_to_msecs(jiffies)); rc = qseecom_send_command(handle->qseecom_handle, req_buf, QSEECOM_ALIGN(sizeof(struct hdcp_rcvd_msg_req)), rsp_buf, QSEECOM_ALIGN(sizeof(struct hdcp_rcvd_msg_rsp))); /* get next message from sink if we receive H PRIME on no store km */ if ((msg[0] == AKE_SEND_H_PRIME_MESSAGE_ID) && handle->no_stored_km_flag) { handle->hdcp_timeout = rsp_buf->timeout; cdata.cmd = HDMI_HDCP_WKUP_CMD_RECV_MESSAGE; cdata.timeout = handle->hdcp_timeout; goto exit; } if ((msg[0] == REPEATER_AUTH_STREAM_READY_MESSAGE_ID) && (rc == 0) && (rsp_buf->status == 0)) { pr_debug("Got Auth_Stream_Ready, nothing sent to rx\n"); goto exit; } if ((rc < 0) || (rsp_buf->status < 0) || (rsp_buf->msglen <= 0) || (rsp_buf->commandid != HDCP_TXMTR_PROCESS_RECEIVED_MESSAGE) || (rsp_buf->msg == NULL)) { pr_err("qseecom cmd failed with err=%d status=%d\n", rc, rsp_buf->status); rc = -EINVAL; goto exit; } pr_debug("recvd %s from TZ at %dms\n", hdcp_lib_message_name((int)rsp_buf->msg[0]), jiffies_to_msecs(jiffies)); /* set the flag if response is AKE_No_Stored_km */ if (((int)rsp_buf->msg[0] == AKE_NO_STORED_KM_MESSAGE_ID)) { pr_debug("Setting no_stored_km_flag\n"); handle->no_stored_km_flag = 1; } else { handle->no_stored_km_flag = 0; } /* check if it's a repeater */ if ((rsp_buf->msg[0] == SKE_SEND_EKS_MESSAGE_ID) && (rsp_buf->msglen == SKE_SEND_EKS_MESSAGE_SIZE)) { if ((rsp_buf->flag == HDCP_TXMTR_SUBSTATE_WAITING_FOR_RECIEVERID_LIST) && (rsp_buf->timeout > 0)) handle->repeater_flag = 1; } memset(handle->listener_buf, 0, MAX_TX_MESSAGE_SIZE); memcpy(handle->listener_buf, (unsigned char *)rsp_buf->msg, rsp_buf->msglen); handle->hdcp_timeout = rsp_buf->timeout; handle->msglen = rsp_buf->msglen; if (!atomic_read(&handle->hdcp_off)) { cdata.cmd = HDMI_HDCP_WKUP_CMD_SEND_MESSAGE; cdata.send_msg_buf = handle->listener_buf; cdata.send_msg_len = handle->msglen; cdata.timeout = handle->hdcp_timeout; } exit: kzfree(msg); hdcp_lib_wakeup_client(handle, &cdata); if (rc && !atomic_read(&handle->hdcp_off)) HDCP_LIB_EXECUTE(clean); } static void hdcp_lib_msg_recvd_work(struct kthread_work *work) { struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_msg_recvd); hdcp_lib_msg_recvd(handle); } static void hdcp_lib_topology_work(struct kthread_work *work) { u32 timeout; struct hdcp_lib_handle *handle = container_of(work, struct hdcp_lib_handle, wk_topology); if (!handle) { pr_err("invalid input\n"); return; } reinit_completion(&handle->topo_wait); timeout = wait_for_completion_timeout(&handle->topo_wait, HZ * 3); if (!timeout) { pr_err("topology receiver id list timeout\n"); if (!atomic_read(&handle->hdcp_off)) HDCP_LIB_EXECUTE(clean); } } bool hdcp1_check_if_supported_load_app(void) { int rc = 0; /* start hdcp1 app */ if (hdcp1_supported && !hdcp1_handle) { rc = qseecom_start_app(&hdcp1_handle, HDCP1_APP_NAME, QSEECOM_SBUFF_SIZE); if (rc) { pr_err("qseecom_start_app failed %d\n", rc); hdcp1_supported = false; } } pr_debug("hdcp1 app %s loaded\n", hdcp1_supported ? "successfully" : "not"); return hdcp1_supported; } /* APIs exposed to all clients */ int hdcp1_set_keys(uint32_t *aksv_msb, uint32_t *aksv_lsb) { int rc = 0; struct hdcp1_key_set_req *key_set_req; struct hdcp1_key_set_rsp *key_set_rsp; if (aksv_msb == NULL || aksv_lsb == NULL) return -EINVAL; if (!hdcp1_supported || !hdcp1_handle) return -EINVAL; /* set keys and request aksv */ key_set_req = (struct hdcp1_key_set_req *)hdcp1_handle->sbuf; key_set_req->commandid = HDCP1_SET_KEY_MESSAGE_ID; key_set_rsp = (struct hdcp1_key_set_rsp *)(hdcp1_handle->sbuf + QSEECOM_ALIGN(sizeof(struct hdcp1_key_set_req))); rc = qseecom_send_command(hdcp1_handle, key_set_req, QSEECOM_ALIGN(sizeof(struct hdcp1_key_set_req)), key_set_rsp, QSEECOM_ALIGN(sizeof(struct hdcp1_key_set_rsp))); if (rc < 0) { pr_err("qseecom cmd failed err=%d\n", rc); return -ENOKEY; } rc = key_set_rsp->ret; if (rc) { pr_err("set key cmd failed, rsp=%d\n", key_set_rsp->ret); return -ENOKEY; } /* copy bytes into msb and lsb */ *aksv_msb = key_set_rsp->ksv[0] << 24; *aksv_msb |= key_set_rsp->ksv[1] << 16; *aksv_msb |= key_set_rsp->ksv[2] << 8; *aksv_msb |= key_set_rsp->ksv[3]; *aksv_lsb = key_set_rsp->ksv[4] << 24; *aksv_lsb |= key_set_rsp->ksv[5] << 16; *aksv_lsb |= key_set_rsp->ksv[6] << 8; *aksv_lsb |= key_set_rsp->ksv[7]; return 0; } int hdcp1_set_enc(bool enable) { int rc = 0; struct hdcp1_set_enc_req *set_enc_req; struct hdcp1_set_enc_rsp *set_enc_rsp; if (!hdcp1_supported || !hdcp1_handle) return -EINVAL; /* set keys and request aksv */ set_enc_req = (struct hdcp1_set_enc_req *)hdcp1_handle->sbuf; set_enc_req->commandid = HDCP1_SET_ENC_MESSAGE_ID; set_enc_req->enable = enable; set_enc_rsp = (struct hdcp1_set_enc_rsp *)(hdcp1_handle->sbuf + QSEECOM_ALIGN(sizeof(struct hdcp1_set_enc_req))); rc = qseecom_send_command(hdcp1_handle, set_enc_req, QSEECOM_ALIGN(sizeof(struct hdcp1_set_enc_req)), set_enc_rsp, QSEECOM_ALIGN(sizeof(struct hdcp1_set_enc_rsp))); if (rc < 0) { pr_err("qseecom cmd failed err=%d\n", rc); return -EINVAL; } rc = set_enc_rsp->ret; if (rc) { pr_err("enc cmd failed, rsp=%d\n", set_enc_rsp->ret); return -EINVAL; } pr_debug("success\n"); return 0; } int hdcp_library_register(struct hdcp_register_data *data) { int rc = 0; struct hdcp_lib_handle *handle = NULL; if (!data) { pr_err("invalid input\n"); return -EINVAL; } if (!data->txmtr_ops) { pr_err("invalid input: txmtr context\n"); return -EINVAL; } if (!data->client_ops) { pr_err("invalid input: client_ops\n"); return -EINVAL; } if (!data->hdcp_ctx) { pr_err("invalid input: hdcp_ctx\n"); return -EINVAL; } /* populate ops to be called by client */ data->txmtr_ops->feature_supported = hdcp_lib_client_feature_supported; data->txmtr_ops->wakeup = hdcp_lib_wakeup; data->txmtr_ops->update_exec_type = hdcp_lib_update_exec_type; handle = kzalloc(sizeof(*handle), GFP_KERNEL); if (!handle) { rc = -ENOMEM; goto unlock; } handle->client_ctx = data->client_ctx; handle->client_ops = data->client_ops; handle->tethered = data->tethered; pr_debug("tethered %d\n", handle->tethered); atomic_set(&handle->hdcp_off, 0); mutex_init(&handle->msg_lock); mutex_init(&handle->wakeup_mutex); init_kthread_worker(&handle->worker); init_kthread_work(&handle->wk_init, hdcp_lib_init_work); init_kthread_work(&handle->wk_msg_sent, hdcp_lib_msg_sent_work); init_kthread_work(&handle->wk_msg_recvd, hdcp_lib_msg_recvd_work); init_kthread_work(&handle->wk_timeout, hdcp_lib_manage_timeout_work); init_kthread_work(&handle->wk_clean, hdcp_lib_cleanup_work); init_kthread_work(&handle->wk_topology, hdcp_lib_topology_work); init_kthread_work(&handle->wk_stream, hdcp_lib_query_stream_work); init_completion(&handle->topo_wait); handle->listener_buf = kzalloc(MAX_TX_MESSAGE_SIZE, GFP_KERNEL); if (!(handle->listener_buf)) { rc = -ENOMEM; goto error; } *data->hdcp_ctx = handle; handle->thread = kthread_run(kthread_worker_fn, &handle->worker, "hdcp_tz_lib"); if (IS_ERR(handle->thread)) { pr_err("unable to start lib thread\n"); rc = PTR_ERR(handle->thread); handle->thread = NULL; goto error; } return 0; error: kzfree(handle->listener_buf); handle->listener_buf = NULL; kzfree(handle); handle = NULL; unlock: return rc; } void hdcp_library_deregister(void *phdcpcontext) { struct hdcp_lib_handle *handle = phdcpcontext; if (!handle) return; kthread_stop(handle->thread); kzfree(handle->qseecom_handle); kzfree(handle->last_msg_recvd_buf); mutex_destroy(&handle->wakeup_mutex); kzfree(handle->listener_buf); kzfree(handle); }