/* Copyright 2021 The ChromiumOS Authors * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "battery.h" #include "driver/tcpm/tcpci.h" #include "mock/tcpci_i2c_mock.h" #include "task.h" #include "test_util.h" #include "timer.h" #include "usb_tc_sm.h" #include "usb_tcpmv2_compliance.h" #define BUFFER_SIZE 100 #define HEADER_BYTE_OFFSET 1 #define HEADER_BYTE_CNT 2 #define SRC_CAP_EXT_NUM_BATTERY_OFFSET 22 #define EXT_MSG_CHUNKED BIT(15) #define EXT_MSG_DATA_SIZE_1 1 #define GBSDB_FIXED_BATTERY_0 (0 << 16) static int number_of_fixed_batteries(void) { return CONFIG_NUM_FIXED_BATTERIES; } static int number_of_swappable_batteries(void) { return 0; } /***************************************************************************** * TD.PD.SRC3.E7 Battery Status sent timely * * Description: * As Consumer (UFP), the Tester verifies that the UUT replies * Get_Battery_Status message with a Battery_Status message timely. */ int test_td_pd_src3_e7(void) { int msg_len; uint8_t data[BUFFER_SIZE]; uint32_t ext_msg; int found_index; struct possible_tx possible[2]; TEST_EQ(tcpci_startup(), EC_SUCCESS, "%d"); /* * a) Run PROC.PD.E1 Bring-up according to the UUT role. */ TEST_EQ(proc_pd_e1(PD_ROLE_DFP, INITIAL_AND_ALREADY_ATTACHED), EC_SUCCESS, "%d"); /* * b) The Tester waits until it can start an AMS (Run PROC.PD.E3) and * sends a Get_Source_Cap_Extended message to the UUT. */ TEST_EQ(proc_pd_e3(), EC_SUCCESS, "%d"); partner_send_msg(TCPCI_MSG_SOP, PD_CTRL_GET_SOURCE_CAP_EXT, 0, 0, NULL); /* * c) If a Not_Supported message is received, and Num_Fixed_Batteries * and Num_Swappable_Battery_Slots in the VIF are 0, the test * passes and stops here. */ possible[0].tx_type = TCPCI_MSG_SOP; possible[0].ctrl_msg = PD_CTRL_NOT_SUPPORTED; possible[0].data_msg = 0; possible[1].tx_type = TCPCI_MSG_SOP; possible[1].ctrl_msg = 0; possible[1].data_msg = PD_DATA_SOURCE_CAP; TEST_EQ(verify_tcpci_possible_tx(possible, 2, &found_index, data, sizeof(data), &msg_len, 0), EC_SUCCESS, "%d"); if (found_index == 0) { mock_set_alert(TCPC_REG_ALERT_TX_SUCCESS); task_wait_event(10 * MSEC); if (number_of_fixed_batteries() == 0 && number_of_swappable_batteries() == 0) return EC_SUCCESS; } /* * d) If the Number of Batteries/Battery Slots field in the returned * Source_Capabilities_Extended message is 0, the test passes and * stops here. */ else { TEST_EQ(found_index, 1, "%d"); mock_set_alert(TCPC_REG_ALERT_TX_SUCCESS); task_wait_event(10 * MSEC); if (data[HEADER_BYTE_OFFSET + HEADER_BYTE_CNT + SRC_CAP_EXT_NUM_BATTERY_OFFSET] == 0) return EC_SUCCESS; } /* * e) The Tester waits until it can start an AMS (Run PROC.PD.E3) and * sends a Get_Battery_Status message to the UUT */ ext_msg = EXT_MSG_CHUNKED | EXT_MSG_DATA_SIZE_1 | GBSDB_FIXED_BATTERY_0; partner_send_msg(TCPCI_MSG_SOP, PD_EXT_GET_BATTERY_STATUS, 1, 1, &ext_msg); /* * f) If a Battery_Status message is not received within * tReceiverResponse max, the test fails. This delay is measured * from the time the last bit of Get_Battery_Status message EOP has * been transmitted to the time the first bit of the Battery_Status * message preamble has been received. */ TEST_EQ(verify_tcpci_tx_timeout(TCPCI_MSG_SOP, 0, PD_DATA_BATTERY_STATUS, (15 * MSEC)), EC_SUCCESS, "%d"); mock_set_alert(TCPC_REG_ALERT_TX_SUCCESS); task_wait_event(10 * MSEC); return EC_SUCCESS; }