Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Bhawanpreet Lakha | 3200 | 98.92% | 2 | 50.00% |
Xiaodong Yan | 31 | 0.96% | 1 | 25.00% |
Michael Strauss | 4 | 0.12% | 1 | 25.00% |
Total | 3235 | 4 |
/* * Copyright 2018 Advanced Micro Devices, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Authors: AMD * */ #include "hdcp.h" enum mod_hdcp_status mod_hdcp_hdcp2_transition(struct mod_hdcp *hdcp, struct mod_hdcp_event_context *event_ctx, struct mod_hdcp_transition_input_hdcp2 *input, struct mod_hdcp_output *output) { enum mod_hdcp_status status = MOD_HDCP_STATUS_SUCCESS; struct mod_hdcp_connection *conn = &hdcp->connection; struct mod_hdcp_link_adjustment *adjust = &hdcp->connection.link.adjust; switch (current_state(hdcp)) { case H2_A0_KNOWN_HDCP2_CAPABLE_RX: if (input->hdcp2version_read != PASS || input->hdcp2_capable_check != PASS) { adjust->hdcp2.disable = 1; callback_in_ms(0, output); set_state_id(hdcp, output, HDCP_INITIALIZED); } else { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_SEND_AKE_INIT); } break; case H2_A1_SEND_AKE_INIT: if (input->create_session != PASS || input->ake_init_prepare != PASS) { /* out of sync with psp state */ adjust->hdcp2.disable = 1; fail_and_restart_in_ms(0, &status, output); break; } else if (input->ake_init_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } set_watchdog_in_ms(hdcp, 100, output); callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_VALIDATE_AKE_CERT); break; case H2_A1_VALIDATE_AKE_CERT: if (input->ake_cert_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) { /* 1A-08: consider ake timeout a failure */ /* some hdmi receivers are not ready for HDCP * immediately after video becomes active, * delay 1s before retry on first HDCP message * timeout. */ fail_and_restart_in_ms(1000, &status, output); } else { /* continue ake cert polling*/ callback_in_ms(10, output); increment_stay_counter(hdcp); } break; } else if (input->ake_cert_read != PASS || input->ake_cert_validation != PASS) { /* * 1A-09: consider invalid ake cert a failure * 1A-10: consider receiver id listed in SRM a failure */ fail_and_restart_in_ms(0, &status, output); break; } if (conn->is_km_stored && !adjust->hdcp2.force_no_stored_km) { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_SEND_STORED_KM); } else { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_SEND_NO_STORED_KM); } break; case H2_A1_SEND_NO_STORED_KM: if (input->no_stored_km_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } if (adjust->hdcp2.increase_h_prime_timeout) set_watchdog_in_ms(hdcp, 2000, output); else set_watchdog_in_ms(hdcp, 1000, output); callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_READ_H_PRIME); break; case H2_A1_READ_H_PRIME: if (input->h_prime_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) { /* 1A-11-3: consider h' timeout a failure */ fail_and_restart_in_ms(1000, &status, output); } else { /* continue h' polling */ callback_in_ms(100, output); increment_stay_counter(hdcp); } break; } else if (input->h_prime_read != PASS) { fail_and_restart_in_ms(0, &status, output); break; } set_watchdog_in_ms(hdcp, 200, output); callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_READ_PAIRING_INFO_AND_VALIDATE_H_PRIME); break; case H2_A1_READ_PAIRING_INFO_AND_VALIDATE_H_PRIME: if (input->pairing_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) { /* 1A-12: consider pairing info timeout * a failure */ fail_and_restart_in_ms(0, &status, output); } else { /* continue pairing info polling */ callback_in_ms(20, output); increment_stay_counter(hdcp); } break; } else if (input->pairing_info_read != PASS || input->h_prime_validation != PASS) { /* 1A-11-1: consider invalid h' a failure */ fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, H2_A2_LOCALITY_CHECK); break; case H2_A1_SEND_STORED_KM: if (input->stored_km_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } set_watchdog_in_ms(hdcp, 200, output); callback_in_ms(0, output); set_state_id(hdcp, output, H2_A1_VALIDATE_H_PRIME); break; case H2_A1_VALIDATE_H_PRIME: if (input->h_prime_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) { /* 1A-11-2: consider h' timeout a failure */ fail_and_restart_in_ms(1000, &status, output); } else { /* continue h' polling */ callback_in_ms(20, output); increment_stay_counter(hdcp); } break; } else if (input->h_prime_read != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (input->h_prime_validation != PASS) { /* 1A-11-1: consider invalid h' a failure */ adjust->hdcp2.force_no_stored_km = 1; fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, H2_A2_LOCALITY_CHECK); break; case H2_A2_LOCALITY_CHECK: if (hdcp->state.stay_count > 10 || input->lc_init_prepare != PASS || input->lc_init_write != PASS || input->l_prime_available_poll != PASS || input->l_prime_read != PASS) { /* * 1A-05: consider disconnection after LC init a failure * 1A-13-1: consider invalid l' a failure * 1A-13-2: consider l' timeout a failure */ fail_and_restart_in_ms(0, &status, output); break; } else if (input->l_prime_validation != PASS) { callback_in_ms(0, output); increment_stay_counter(hdcp); break; } callback_in_ms(0, output); set_state_id(hdcp, output, H2_A3_EXCHANGE_KS_AND_TEST_FOR_REPEATER); break; case H2_A3_EXCHANGE_KS_AND_TEST_FOR_REPEATER: if (input->eks_prepare != PASS || input->eks_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } if (conn->is_repeater) { set_watchdog_in_ms(hdcp, 3000, output); callback_in_ms(0, output); set_state_id(hdcp, output, H2_A6_WAIT_FOR_RX_ID_LIST); } else { /* some CTS equipment requires a delay GREATER than * 200 ms, so delay 210 ms instead of 200 ms */ callback_in_ms(210, output); set_state_id(hdcp, output, H2_ENABLE_ENCRYPTION); } break; case H2_ENABLE_ENCRYPTION: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS) { /* * 1A-07: restart hdcp on REAUTH_REQ * 1B-08: restart hdcp on REAUTH_REQ */ fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready && conn->is_repeater) { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } else if (input->enable_encryption != PASS) { fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, H2_A5_AUTHENTICATED); HDCP_FULL_DDC_TRACE(hdcp); break; case H2_A5_AUTHENTICATED: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready && conn->is_repeater) { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } callback_in_ms(500, output); increment_stay_counter(hdcp); break; case H2_A6_WAIT_FOR_RX_ID_LIST: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (!event_ctx->rx_id_list_ready) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) { /* 1B-02: consider rx id list timeout a failure */ /* some CTS equipment's actual timeout * measurement is slightly greater than 3000 ms. * Delay 100 ms to ensure it is fully timeout * before re-authentication. */ fail_and_restart_in_ms(100, &status, output); } else { callback_in_ms(300, output); increment_stay_counter(hdcp); } break; } callback_in_ms(0, output); set_state_id(hdcp, output, H2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; case H2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->rx_id_list_read != PASS || input->device_count_check != PASS || input->rx_id_list_validation != PASS || input->repeater_auth_ack_write != PASS) { /* 1B-03: consider invalid v' a failure * 1B-04: consider MAX_DEVS_EXCEEDED a failure * 1B-05: consider MAX_CASCADE_EXCEEDED a failure * 1B-06: consider invalid seq_num_V a failure * 1B-09: consider seq_num_V rollover a failure */ fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, H2_A9_SEND_STREAM_MANAGEMENT); break; case H2_A9_SEND_STREAM_MANAGEMENT: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready && conn->is_repeater) { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } else if (input->prepare_stream_manage != PASS || input->stream_manage_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } set_watchdog_in_ms(hdcp, 100, output); callback_in_ms(0, output); set_state_id(hdcp, output, H2_A9_VALIDATE_STREAM_READY); break; case H2_A9_VALIDATE_STREAM_READY: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready && conn->is_repeater) { callback_in_ms(0, output); set_state_id(hdcp, output, H2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } else if (input->stream_ready_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) { /* 1B-10-2: restart content stream management on * stream ready timeout */ hdcp->auth.count.stream_management_retry_count++; callback_in_ms(0, output); set_state_id(hdcp, output, H2_A9_SEND_STREAM_MANAGEMENT); } else { callback_in_ms(10, output); increment_stay_counter(hdcp); } break; } else if (input->stream_ready_read != PASS || input->stream_ready_validation != PASS) { /* * 1B-10-1: restart content stream management * on invalid M' */ if (hdcp->auth.count.stream_management_retry_count > 10) { fail_and_restart_in_ms(0, &status, output); } else { hdcp->auth.count.stream_management_retry_count++; callback_in_ms(0, output); set_state_id(hdcp, output, H2_A9_SEND_STREAM_MANAGEMENT); } break; } callback_in_ms(200, output); set_state_id(hdcp, output, H2_ENABLE_ENCRYPTION); break; default: status = MOD_HDCP_STATUS_INVALID_STATE; fail_and_restart_in_ms(0, &status, output); break; } return status; } enum mod_hdcp_status mod_hdcp_hdcp2_dp_transition(struct mod_hdcp *hdcp, struct mod_hdcp_event_context *event_ctx, struct mod_hdcp_transition_input_hdcp2 *input, struct mod_hdcp_output *output) { enum mod_hdcp_status status = MOD_HDCP_STATUS_SUCCESS; struct mod_hdcp_connection *conn = &hdcp->connection; struct mod_hdcp_link_adjustment *adjust = &hdcp->connection.link.adjust; switch (current_state(hdcp)) { case D2_A0_DETERMINE_RX_HDCP_CAPABLE: if (input->rx_caps_read_dp != PASS || input->hdcp2_capable_check != PASS) { adjust->hdcp2.disable = 1; callback_in_ms(0, output); set_state_id(hdcp, output, HDCP_INITIALIZED); } else { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A1_SEND_AKE_INIT); } break; case D2_A1_SEND_AKE_INIT: if (input->create_session != PASS || input->ake_init_prepare != PASS) { /* out of sync with psp state */ adjust->hdcp2.disable = 1; fail_and_restart_in_ms(0, &status, output); break; } else if (input->ake_init_write != PASS) { /* possibly display not ready */ fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(100, output); set_state_id(hdcp, output, D2_A1_VALIDATE_AKE_CERT); break; case D2_A1_VALIDATE_AKE_CERT: if (input->ake_cert_read != PASS || input->ake_cert_validation != PASS) { /* * 1A-08: consider invalid ake cert a failure * 1A-09: consider receiver id listed in SRM a failure */ fail_and_restart_in_ms(0, &status, output); break; } if (conn->is_km_stored && !adjust->hdcp2.force_no_stored_km) { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A1_SEND_STORED_KM); } else { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A1_SEND_NO_STORED_KM); } break; case D2_A1_SEND_NO_STORED_KM: if (input->no_stored_km_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } if (adjust->hdcp2.increase_h_prime_timeout) set_watchdog_in_ms(hdcp, 2000, output); else set_watchdog_in_ms(hdcp, 1000, output); set_state_id(hdcp, output, D2_A1_READ_H_PRIME); break; case D2_A1_READ_H_PRIME: if (input->h_prime_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) /* 1A-10-3: consider h' timeout a failure */ fail_and_restart_in_ms(1000, &status, output); else increment_stay_counter(hdcp); break; } else if (input->h_prime_read != PASS) { fail_and_restart_in_ms(0, &status, output); break; } set_watchdog_in_ms(hdcp, 200, output); set_state_id(hdcp, output, D2_A1_READ_PAIRING_INFO_AND_VALIDATE_H_PRIME); break; case D2_A1_READ_PAIRING_INFO_AND_VALIDATE_H_PRIME: if (input->pairing_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) /* * 1A-11: consider pairing info timeout * a failure */ fail_and_restart_in_ms(0, &status, output); else increment_stay_counter(hdcp); break; } else if (input->pairing_info_read != PASS || input->h_prime_validation != PASS) { /* 1A-10-1: consider invalid h' a failure */ fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, D2_A2_LOCALITY_CHECK); break; case D2_A1_SEND_STORED_KM: if (input->stored_km_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } set_watchdog_in_ms(hdcp, 200, output); set_state_id(hdcp, output, D2_A1_VALIDATE_H_PRIME); break; case D2_A1_VALIDATE_H_PRIME: if (input->h_prime_available != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) /* 1A-10-2: consider h' timeout a failure */ fail_and_restart_in_ms(1000, &status, output); else increment_stay_counter(hdcp); break; } else if (input->h_prime_read != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (input->h_prime_validation != PASS) { /* 1A-10-1: consider invalid h' a failure */ adjust->hdcp2.force_no_stored_km = 1; fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, D2_A2_LOCALITY_CHECK); break; case D2_A2_LOCALITY_CHECK: if (hdcp->state.stay_count > 10 || input->lc_init_prepare != PASS || input->lc_init_write != PASS || input->l_prime_read != PASS) { /* 1A-12: consider invalid l' a failure */ fail_and_restart_in_ms(0, &status, output); break; } else if (input->l_prime_validation != PASS) { callback_in_ms(0, output); increment_stay_counter(hdcp); break; } callback_in_ms(0, output); set_state_id(hdcp, output, D2_A34_EXCHANGE_KS_AND_TEST_FOR_REPEATER); break; case D2_A34_EXCHANGE_KS_AND_TEST_FOR_REPEATER: if (input->eks_prepare != PASS || input->eks_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } if (conn->is_repeater) { set_watchdog_in_ms(hdcp, 3000, output); set_state_id(hdcp, output, D2_A6_WAIT_FOR_RX_ID_LIST); } else { callback_in_ms(0, output); set_state_id(hdcp, output, D2_SEND_CONTENT_STREAM_TYPE); } break; case D2_SEND_CONTENT_STREAM_TYPE: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->link_integrity_check_dp != PASS || input->content_stream_type_write != PASS) { fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(210, output); set_state_id(hdcp, output, D2_ENABLE_ENCRYPTION); break; case D2_ENABLE_ENCRYPTION: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->link_integrity_check_dp != PASS) { /* * 1A-07: restart hdcp on REAUTH_REQ * 1B-08: restart hdcp on REAUTH_REQ */ fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready && conn->is_repeater) { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } else if (input->enable_encryption != PASS || (is_dp_mst_hdcp(hdcp) && input->stream_encryption_dp != PASS)) { fail_and_restart_in_ms(0, &status, output); break; } set_state_id(hdcp, output, D2_A5_AUTHENTICATED); HDCP_FULL_DDC_TRACE(hdcp); break; case D2_A5_AUTHENTICATED: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (input->link_integrity_check_dp != PASS) { if (hdcp->connection.hdcp2_retry_count >= 1) adjust->hdcp2.force_type = MOD_HDCP_FORCE_TYPE_0; fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready && conn->is_repeater) { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } increment_stay_counter(hdcp); break; case D2_A6_WAIT_FOR_RX_ID_LIST: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->link_integrity_check_dp != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (!event_ctx->rx_id_list_ready) { if (event_ctx->event == MOD_HDCP_EVENT_WATCHDOG_TIMEOUT) /* 1B-02: consider rx id list timeout a failure */ fail_and_restart_in_ms(0, &status, output); else increment_stay_counter(hdcp); break; } callback_in_ms(0, output); set_state_id(hdcp, output, D2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; case D2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->link_integrity_check_dp != PASS || input->rx_id_list_read != PASS || input->device_count_check != PASS || input->rx_id_list_validation != PASS || input->repeater_auth_ack_write != PASS) { /* * 1B-03: consider invalid v' a failure * 1B-04: consider MAX_DEVS_EXCEEDED a failure * 1B-05: consider MAX_CASCADE_EXCEEDED a failure * 1B-06: consider invalid seq_num_V a failure * 1B-09: consider seq_num_V rollover a failure */ fail_and_restart_in_ms(0, &status, output); break; } callback_in_ms(0, output); set_state_id(hdcp, output, D2_A9_SEND_STREAM_MANAGEMENT); break; case D2_A9_SEND_STREAM_MANAGEMENT: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->link_integrity_check_dp != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready) { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } else if (input->prepare_stream_manage != PASS || input->stream_manage_write != PASS) { if (event_ctx->event == MOD_HDCP_EVENT_CALLBACK) fail_and_restart_in_ms(0, &status, output); else increment_stay_counter(hdcp); break; } callback_in_ms(100, output); set_state_id(hdcp, output, D2_A9_VALIDATE_STREAM_READY); break; case D2_A9_VALIDATE_STREAM_READY: if (input->rxstatus_read != PASS || input->reauth_request_check != PASS || input->link_integrity_check_dp != PASS) { fail_and_restart_in_ms(0, &status, output); break; } else if (event_ctx->rx_id_list_ready) { callback_in_ms(0, output); set_state_id(hdcp, output, D2_A78_VERIFY_RX_ID_LIST_AND_SEND_ACK); break; } else if (input->stream_ready_read != PASS || input->stream_ready_validation != PASS) { /* * 1B-10-1: restart content stream management * on invalid M' * 1B-10-2: consider stream ready timeout a failure */ if (hdcp->auth.count.stream_management_retry_count > 10) { fail_and_restart_in_ms(0, &status, output); } else if (event_ctx->event == MOD_HDCP_EVENT_CALLBACK) { hdcp->auth.count.stream_management_retry_count++; callback_in_ms(0, output); set_state_id(hdcp, output, D2_A9_SEND_STREAM_MANAGEMENT); } else { increment_stay_counter(hdcp); } break; } callback_in_ms(200, output); set_state_id(hdcp, output, D2_ENABLE_ENCRYPTION); break; default: status = MOD_HDCP_STATUS_INVALID_STATE; fail_and_restart_in_ms(0, &status, output); break; } return status; }
Information contained on this website is for historical information purposes only and does not indicate or represent copyright ownership.
Created with Cregit http://github.com/cregit/cregit
Version 2.0-RC1