/* * Copyright (c) 2017-2021 Arm Limited. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * \file device_definition.c * \brief This file defines exports the structures based on the peripheral * definitions from device_cfg.h. * This file is meant to be used as a helper for baremetal * applications and/or as an example of how to configure the generic * driver structures. */ #include "device_cfg.h" #include "device_definition.h" #include "platform_base_address.h" /* ======= Peripheral configuration structure definitions ======= */ /* CMSDK GPIO driver structures */ #ifdef GPIO0_CMSDK_S static const struct gpio_cmsdk_dev_cfg_t GPIO0_CMSDK_DEV_CFG_S = { .base = MUSCA_S1_GPIO_S_BASE}; struct gpio_cmsdk_dev_t GPIO0_CMSDK_DEV_S = {&(GPIO0_CMSDK_DEV_CFG_S)}; #endif /* ARM PPC SSE 200 driver structures */ #ifdef AHB_PPC0_S static struct ppc_sse200_dev_cfg_t AHB_PPC0_DEV_CFG_S = { .spctrl_base = MUSCA_S1_SPCTRL_S_BASE, .nspctrl_base = MUSCA_S1_NSPCTRL_NS_BASE }; static struct ppc_sse200_dev_data_t AHB_PPC0_DEV_DATA_S = { .p_ns_ppc = 0, .p_sp_ppc = 0, .p_nsp_ppc = 0, .int_bit_mask = 0, .state = 0 }; struct ppc_sse200_dev_t AHB_PPC0_DEV_S = { &AHB_PPC0_DEV_CFG_S, &AHB_PPC0_DEV_DATA_S }; #endif #ifdef AHB_PPCEXP0_S static struct ppc_sse200_dev_cfg_t AHB_PPCEXP0_DEV_CFG_S = { .spctrl_base = MUSCA_S1_SPCTRL_S_BASE, .nspctrl_base = MUSCA_S1_NSPCTRL_NS_BASE }; static struct ppc_sse200_dev_data_t AHB_PPCEXP0_DEV_DATA_S = { .p_ns_ppc = 0, .p_sp_ppc = 0, .p_nsp_ppc = 0, .int_bit_mask = 0, .state = 0 }; struct ppc_sse200_dev_t AHB_PPCEXP0_DEV_S = { &AHB_PPCEXP0_DEV_CFG_S, &AHB_PPCEXP0_DEV_DATA_S }; #endif #ifdef APB_PPC0_S static struct ppc_sse200_dev_cfg_t APB_PPC0_DEV_CFG_S = { .spctrl_base = MUSCA_S1_SPCTRL_S_BASE, .nspctrl_base = MUSCA_S1_NSPCTRL_NS_BASE }; static struct ppc_sse200_dev_data_t APB_PPC0_DEV_DATA_S = { .p_ns_ppc = 0, .p_sp_ppc = 0, .p_nsp_ppc = 0, .int_bit_mask = 0, .state = 0 }; struct ppc_sse200_dev_t APB_PPC0_DEV_S = { &APB_PPC0_DEV_CFG_S, &APB_PPC0_DEV_DATA_S }; #endif #ifdef APB_PPC1_S static struct ppc_sse200_dev_cfg_t APB_PPC1_DEV_CFG_S = { .spctrl_base = MUSCA_S1_SPCTRL_S_BASE, .nspctrl_base = MUSCA_S1_NSPCTRL_NS_BASE }; static struct ppc_sse200_dev_data_t APB_PPC1_DEV_DATA_S = { .p_ns_ppc = 0, .p_sp_ppc = 0, .p_nsp_ppc = 0, .int_bit_mask = 0, .state = 0 }; struct ppc_sse200_dev_t APB_PPC1_DEV_S = { &APB_PPC1_DEV_CFG_S, &APB_PPC1_DEV_DATA_S}; #endif #ifdef APB_PPCEXP0_S static struct ppc_sse200_dev_cfg_t APB_PPCEXP0_DEV_CFG_S = { .spctrl_base = MUSCA_S1_SPCTRL_S_BASE, .nspctrl_base = MUSCA_S1_NSPCTRL_NS_BASE }; static struct ppc_sse200_dev_data_t APB_PPCEXP0_DEV_DATA_S = { .p_ns_ppc = 0, .p_sp_ppc = 0, .p_nsp_ppc = 0, .int_bit_mask = 0, .state = 0 }; struct ppc_sse200_dev_t APB_PPCEXP0_DEV_S = { &APB_PPCEXP0_DEV_CFG_S, &APB_PPCEXP0_DEV_DATA_S }; #endif #ifdef APB_PPCEXP1_S static struct ppc_sse200_dev_cfg_t APB_PPCEXP1_DEV_CFG = { .spctrl_base = MUSCA_S1_SPCTRL_S_BASE, .nspctrl_base = MUSCA_S1_NSPCTRL_NS_BASE }; static struct ppc_sse200_dev_data_t APB_PPCEXP1_DEV_DATA_S = { .p_ns_ppc = 0, .p_sp_ppc = 0, .p_nsp_ppc = 0, .int_bit_mask = 0, .state = 0 }; struct ppc_sse200_dev_t APB_PPCEXP1_DEV_S = { &APB_PPCEXP1_DEV_CFG, &APB_PPCEXP1_DEV_DATA_S }; #endif /* ARM MPC SIE 200 driver structures */ #ifdef MPC_ISRAM0_S static const struct mpc_sie200_dev_cfg_t MPC_ISRAM0_DEV_CFG_S = { .base = MUSCA_S1_MPC_SRAM0_S_BASE}; static struct mpc_sie200_dev_data_t MPC_ISRAM0_DEV_DATA_S = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_ISRAM0_DEV_S = { &(MPC_ISRAM0_DEV_CFG_S), &(MPC_ISRAM0_DEV_DATA_S)}; #endif #ifdef MPC_ISRAM1_S static const struct mpc_sie200_dev_cfg_t MPC_ISRAM1_DEV_CFG_S = { .base = MUSCA_S1_MPC_SRAM1_S_BASE}; static struct mpc_sie200_dev_data_t MPC_ISRAM1_DEV_DATA_S = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_ISRAM1_DEV_S = { &(MPC_ISRAM1_DEV_CFG_S), &(MPC_ISRAM1_DEV_DATA_S)}; #endif #ifdef MPC_ISRAM2_S static const struct mpc_sie200_dev_cfg_t MPC_ISRAM2_DEV_CFG_S = { .base = MUSCA_S1_MPC_SRAM2_S_BASE}; static struct mpc_sie200_dev_data_t MPC_ISRAM2_DEV_DATA_S = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_ISRAM2_DEV_S = { &(MPC_ISRAM2_DEV_CFG_S), &(MPC_ISRAM2_DEV_DATA_S)}; #endif #ifdef MPC_ISRAM3_S static const struct mpc_sie200_dev_cfg_t MPC_ISRAM3_DEV_CFG_S = { .base = MUSCA_S1_MPC_SRAM3_S_BASE}; static struct mpc_sie200_dev_data_t MPC_ISRAM3_DEV_DATA_S = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_ISRAM3_DEV_S = { &(MPC_ISRAM3_DEV_CFG_S), &(MPC_ISRAM3_DEV_DATA_S)}; #endif #ifdef MPC_CODE_SRAM_NS static const struct mpc_sie200_dev_cfg_t MPC_CODE_SRAM_DEV_CFG_NS = { .base = MUSCA_S1_CODE_SRAM_MPC_NS_BASE}; static struct mpc_sie200_dev_data_t MPC_CODE_SRAM_DEV_DATA_NS = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_CODE_SRAM_DEV_NS = { &(MPC_CODE_SRAM_DEV_CFG_NS), &(MPC_CODE_SRAM_DEV_DATA_NS)}; #endif #ifdef MPC_CODE_SRAM_S static const struct mpc_sie200_dev_cfg_t MPC_CODE_SRAM_DEV_CFG_S = { .base = MUSCA_S1_CODE_SRAM_MPC_S_BASE}; static struct mpc_sie200_dev_data_t MPC_CODE_SRAM_DEV_DATA_S = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_CODE_SRAM_DEV_S = { &(MPC_CODE_SRAM_DEV_CFG_S), &(MPC_CODE_SRAM_DEV_DATA_S)}; #endif #ifdef MPC_MRAM_S static const struct mpc_sie200_dev_cfg_t MPC_MRAM_DEV_CFG_S = { .base = MUSCA_S1_MRAM_MPC_S_BASE}; static struct mpc_sie200_dev_data_t MPC_MRAM_DEV_DATA_S = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_MRAM_DEV_S = { &(MPC_MRAM_DEV_CFG_S), &(MPC_MRAM_DEV_DATA_S)}; #endif #ifdef MPC_MRAM_NS static const struct mpc_sie200_dev_cfg_t MPC_MRAM_DEV_CFG_NS = { .base = MUSCA_S1_MRAM_MPC_NS_BASE}; static struct mpc_sie200_dev_data_t MPC_MRAM_DEV_DATA_NS = { .range_list = 0, .nbr_of_ranges = 0, .state = 0, .reserved = 0}; struct mpc_sie200_dev_t MPC_MRAM_DEV_NS = { &(MPC_MRAM_DEV_CFG_NS), &(MPC_MRAM_DEV_DATA_NS)}; #endif /* ARM MHU driver structures */ #ifdef ARM_MHU0_S static const struct arm_mhu_sse_200_dev_cfg_t ARM_MHU0_DEV_CFG_S = { .base = MUSCA_S1_MHU0_S_BASE}; struct arm_mhu_sse_200_dev_t ARM_MHU0_DEV_S = {&(ARM_MHU0_DEV_CFG_S)}; #endif #ifdef ARM_MHU0_NS static const struct arm_mhu_sse_200_dev_cfg_t ARM_MHU0_DEV_CFG_NS = { .base = MUSCA_S1_MHU0_NS_BASE}; struct arm_mhu_sse_200_dev_t ARM_MHU0_DEV_NS = {&(ARM_MHU0_DEV_CFG_NS)}; #endif #ifdef ARM_MHU1_S static const struct arm_mhu_sse_200_dev_cfg_t ARM_MHU1_DEV_CFG_S = { .base = MUSCA_S1_MHU1_S_BASE}; struct arm_mhu_sse_200_dev_t ARM_MHU1_DEV_S = {&(ARM_MHU1_DEV_CFG_S)}; #endif #ifdef ARM_MHU1_NS static const struct arm_mhu_sse_200_dev_cfg_t ARM_MHU1_DEV_CFG_NS = { .base = MUSCA_S1_MHU1_NS_BASE}; struct arm_mhu_sse_200_dev_t ARM_MHU1_DEV_NS = {&(ARM_MHU1_DEV_CFG_NS)}; #endif /* I2C IP6510 driver structures */ #ifdef I2C0_IP6510_S static const struct i2c_ip6510_dev_cfg_t I2C0_IP6510_DEV_CFG_S = { .base = MUSCA_S1_I2C0_S_BASE, .default_mode = I2C_IP6510_MASTER_MODE, .default_bus_speed = I2C_IP6510_SPEED_100KHZ}; static struct i2c_ip6510_dev_data_t I2C0_IP6510_DEV_DATA_S = { .state = 0, .mode = 0, .bus_speed = 0}; struct i2c_ip6510_dev_t I2C0_IP6510_DEV_S = { &(I2C0_IP6510_DEV_CFG_S), &(I2C0_IP6510_DEV_DATA_S)}; #endif #ifdef I2C0_IP6510_NS static const struct i2c_ip6510_dev_cfg_t I2C0_IP6510_DEV_CFG_NS = { .base = MUSCA_S1_I2C0_NS_BASE, .default_mode = I2C_IP6510_MASTER_MODE, .default_bus_speed = I2C_IP6510_SPEED_100KHZ}; static struct i2c_ip6510_dev_data_t I2C0_IP6510_DEV_DATA_NS = { .state = 0, .mode = 0, .bus_speed = 0}; struct i2c_ip6510_dev_t I2C0_IP6510_DEV_NS = { &(I2C0_IP6510_DEV_CFG_NS), &(I2C0_IP6510_DEV_DATA_NS)}; #endif #ifdef I2C1_IP6510_S static const struct i2c_ip6510_dev_cfg_t I2C1_IP6510_DEV_CFG_S = { .base = MUSCA_S1_I2C1_S_BASE, .default_mode = I2C_IP6510_MASTER_MODE, .default_bus_speed = I2C_IP6510_SPEED_100KHZ}; static struct i2c_ip6510_dev_data_t I2C1_IP6510_DEV_DATA_S = { .state = 0, .mode = 0, .bus_speed = 0}; struct i2c_ip6510_dev_t I2C1_IP6510_DEV_S = { &(I2C1_IP6510_DEV_CFG_S), &(I2C1_IP6510_DEV_DATA_S)}; #endif #ifdef I2C1_IP6510_NS static const struct i2c_ip6510_dev_cfg_t I2C1_IP6510_DEV_CFG_NS = { .base = MUSCA_S1_I2C1_NS_BASE, .default_mode = I2C_IP6510_MASTER_MODE, .default_bus_speed = I2C_IP6510_SPEED_100KHZ}; static struct i2c_ip6510_dev_data_t I2C1_IP6510_DEV_DATA_NS = { .state = 0, .mode = 0, .bus_speed = 0}; struct i2c_ip6510_dev_t I2C1_IP6510_DEV_NS = { &(I2C1_IP6510_DEV_CFG_NS), &(I2C1_IP6510_DEV_DATA_NS)}; #endif /* CMSDK Timers driver structures */ #ifdef CMSDK_TIMER0_S static const struct timer_cmsdk_dev_cfg_t CMSDK_TIMER0_DEV_CFG_S = { .base = MUSCA_S1_CMSDK_TIMER0_S_BASE}; static struct timer_cmsdk_dev_data_t CMSDK_TIMER0_DEV_DATA_S = { .is_initialized = 0}; struct timer_cmsdk_dev_t CMSDK_TIMER0_DEV_S = {&(CMSDK_TIMER0_DEV_CFG_S), &(CMSDK_TIMER0_DEV_DATA_S)}; #endif #ifdef CMSDK_TIMER0_NS static const struct timer_cmsdk_dev_cfg_t CMSDK_TIMER0_DEV_CFG_NS = { .base = MUSCA_S1_CMSDK_TIMER0_NS_BASE}; static struct timer_cmsdk_dev_data_t CMSDK_TIMER0_DEV_DATA_NS = { .is_initialized = 0}; struct timer_cmsdk_dev_t CMSDK_TIMER0_DEV_NS = {&(CMSDK_TIMER0_DEV_CFG_NS), &(CMSDK_TIMER0_DEV_DATA_NS)}; #endif #ifdef CMSDK_TIMER1_S static const struct timer_cmsdk_dev_cfg_t CMSDK_TIMER1_DEV_CFG_S = { .base = MUSCA_S1_CMSDK_TIMER1_S_BASE}; static struct timer_cmsdk_dev_data_t CMSDK_TIMER1_DEV_DATA_S = { .is_initialized = 0}; struct timer_cmsdk_dev_t CMSDK_TIMER1_DEV_S = {&(CMSDK_TIMER1_DEV_CFG_S), &(CMSDK_TIMER1_DEV_DATA_S)}; #endif #ifdef CMSDK_TIMER1_NS static const struct timer_cmsdk_dev_cfg_t CMSDK_TIMER1_DEV_CFG_NS = { .base = MUSCA_S1_CMSDK_TIMER1_NS_BASE}; static struct timer_cmsdk_dev_data_t CMSDK_TIMER1_DEV_DATA_NS = { .is_initialized = 0}; struct timer_cmsdk_dev_t CMSDK_TIMER1_DEV_NS = {&(CMSDK_TIMER1_DEV_CFG_NS), &(CMSDK_TIMER1_DEV_DATA_NS)}; #endif /* CMSDK Dualtimer driver structures */ #ifdef CMSDK_DUALTIMER_S static const struct dualtimer_cmsdk_dev_cfg_t CMSDK_DUALTIMER_DEV_CFG_S = { .base = MUSCA_S1_CMSDK_DUALTIMER_S_BASE}; static struct dualtimer_cmsdk_dev_data_t CMSDK_DUALTIMER_DEV_DATA_S = { .is_initialized = 0}; struct dualtimer_cmsdk_dev_t CMSDK_DUALTIMER_DEV_S = { &(CMSDK_DUALTIMER_DEV_CFG_S), &(CMSDK_DUALTIMER_DEV_DATA_S)}; #endif #ifdef CMSDK_DUALTIMER_NS static const struct dualtimer_cmsdk_dev_cfg_t CMSDK_DUALTIMER_DEV_CFG_NS = { .base = MUSCA_S1_CMSDK_DUALTIMER_NS_BASE}; static struct dualtimer_cmsdk_dev_data_t CMSDK_DUALTIMER_DEV_DATA_NS = { .is_initialized = 0}; struct dualtimer_cmsdk_dev_t CMSDK_DUALTIMER_DEV_NS = { &(CMSDK_DUALTIMER_DEV_CFG_NS), &(CMSDK_DUALTIMER_DEV_DATA_NS)}; #endif /* General-Purpose Timer driver structures */ #ifdef GP_TIMER_S static const struct timer_gp_dev_cfg_t GP_TIMER_DEV_CFG_S = { .base = MUSCA_S1_TIMER_S_BASE}; static struct timer_gp_dev_data_t GP_TIMER_DEV_DATA_S = { .is_initialized = false, .alarm0_init = 0, .alarm1_init = 0}; struct timer_gp_dev_t GP_TIMER_DEV_S = { &(GP_TIMER_DEV_CFG_S), &(GP_TIMER_DEV_DATA_S)}; #endif #ifdef GP_TIMER_NS static const struct timer_gp_dev_cfg_t GP_TIMER_DEV_CFG_NS = { .base = MUSCA_S1_TIMER_NS_BASE}; static struct timer_gp_dev_data_t GP_TIMER_DEV_DATA_NS = { .is_initialized = false, .alarm0_init = 0, .alarm1_init = 0}; struct timer_gp_dev_t GP_TIMER_DEV_NS = { &(GP_TIMER_DEV_CFG_NS), &(GP_TIMER_DEV_DATA_NS)}; #endif /* PL031 Real-Time Clock structure */ #ifdef RTC_PL031_S static const struct rtc_pl031_dev_cfg_t RTC_PL031_DEV_CFG_S = { .base = MUSCA_S1_RTC_S_BASE}; struct rtc_pl031_dev_t RTC_PL031_DEV_S = {&(RTC_PL031_DEV_CFG_S)}; #endif #ifdef RTC_PL031_NS static const struct rtc_pl031_dev_cfg_t RTC_PL031_DEV_CFG_NS = { .base = MUSCA_S1_RTC_NS_BASE}; struct rtc_pl031_dev_t RTC_PL031_DEV_NS = {&(RTC_PL031_DEV_CFG_NS)}; #endif #ifdef UART0_PL011_S static const struct uart_pl011_dev_cfg_t UART0_PL011_DEV_CFG_S = { .base = MUSCA_S1_UART0_S_BASE, .def_baudrate = DEFAULT_UART_BAUDRATE, .def_wlen = UART_PL011_WLEN_8, .def_parity = UART_PL011_PARITY_DISABLED, .def_stopbit = UART_PL011_STOPBIT_1}; static struct uart_pl011_dev_data_t UART0_PL011_DEV_DATA_S = { .state = 0, .uart_clk = 0, .baudrate = 0}; struct uart_pl011_dev_t UART0_PL011_DEV_S = {&(UART0_PL011_DEV_CFG_S), &(UART0_PL011_DEV_DATA_S)}; #endif #ifdef UART0_PL011_NS static const struct uart_pl011_dev_cfg_t UART0_PL011_DEV_CFG_NS = { .base = MUSCA_S1_UART0_NS_BASE, .def_baudrate = DEFAULT_UART_BAUDRATE, .def_wlen = UART_PL011_WLEN_8, .def_parity = UART_PL011_PARITY_DISABLED, .def_stopbit = UART_PL011_STOPBIT_1}; static struct uart_pl011_dev_data_t UART0_PL011_DEV_DATA_NS = { .state = 0, .uart_clk = 0, .baudrate = 0}; struct uart_pl011_dev_t UART0_PL011_DEV_NS = {&(UART0_PL011_DEV_CFG_NS), &(UART0_PL011_DEV_DATA_NS)}; #endif #ifdef UART1_PL011_S static const struct uart_pl011_dev_cfg_t UART1_PL011_DEV_CFG_S = { .base = MUSCA_S1_UART1_S_BASE, .def_baudrate = DEFAULT_UART_BAUDRATE, .def_wlen = UART_PL011_WLEN_8, .def_parity = UART_PL011_PARITY_DISABLED, .def_stopbit = UART_PL011_STOPBIT_1}; static struct uart_pl011_dev_data_t UART1_PL011_DEV_DATA_S = { .state = UART_PL011_UNINITIALIZED, .uart_clk = 0, .baudrate = 0}; struct uart_pl011_dev_t UART1_PL011_DEV_S = {&(UART1_PL011_DEV_CFG_S), &(UART1_PL011_DEV_DATA_S)}; #endif #ifdef UART1_PL011_NS static const struct uart_pl011_dev_cfg_t UART1_PL011_DEV_CFG_NS = { .base = MUSCA_S1_UART1_NS_BASE, .def_baudrate = DEFAULT_UART_BAUDRATE, .def_wlen = UART_PL011_WLEN_8, .def_parity = UART_PL011_PARITY_DISABLED, .def_stopbit = UART_PL011_STOPBIT_1}; static struct uart_pl011_dev_data_t UART1_PL011_DEV_DATA_NS = { .state = UART_PL011_UNINITIALIZED, .uart_clk = 0, .baudrate = 0}; struct uart_pl011_dev_t UART1_PL011_DEV_NS = {&(UART1_PL011_DEV_CFG_NS), &(UART1_PL011_DEV_DATA_NS)}; #endif /* SPI IP6524 driver structures */ #ifdef SPI0_IP6524_S static const struct spi_ip6524_dev_cfg_t SPI0_DEV_CFG_S = { .base = MUSCA_S1_SPI0_S_BASE}; static struct spi_ip6524_dev_data_t SPI0_DEV_DATA_S = { .state = 0}; struct spi_ip6524_dev_t SPI0_DEV_S = {&(SPI0_DEV_CFG_S), &(SPI0_DEV_DATA_S)}; #endif #ifdef SPI0_IP6524_NS static const struct spi_ip6524_dev_cfg_t SPI0_DEV_CFG_NS = { .base = MUSCA_S1_SPI0_NS_BASE}; static struct spi_ip6524_dev_data_t SPI0_DEV_DATA_NS = { .state = 0}; struct spi_ip6524_dev_t SPI0_DEV_NS = {&(SPI0_DEV_CFG_NS), &(SPI0_DEV_DATA_NS)}; #endif /* MUSCA S1 SCC driver structures */ #ifdef MUSCA_S1_SCC_S static const struct musca_s1_scc_dev_cfg_t MUSCA_S1_SCC_DEV_CFG_S = { .base = MUSCA_S1_SCC_S_BASE}; struct musca_s1_scc_dev_t MUSCA_S1_SCC_DEV_S = {&(MUSCA_S1_SCC_DEV_CFG_S)}; #endif /* SSE-200 Cache driver structure */ #ifdef SSE_200_CACHE_S static const struct arm_cache_dev_cfg_t SSE_200_CACHE_CFG_S = { .base = MUSCA_S1_CPU_ELEMENT_S_BASE}; struct arm_cache_dev_t SSE_200_CACHE_DEV_S = {&(SSE_200_CACHE_CFG_S)}; #endif /* QSPI IP6514E driver structures */ #ifdef QSPI_IP6514E_NS static const struct qspi_ip6514e_dev_cfg_t QSPI_DEV_CFG_NS = { .base = MUSCA_S1_QSPI_REG_NS_BASE, .addr_mask = (1U << 25) - 1, }; struct qspi_ip6514e_dev_t QSPI_DEV_NS = { &QSPI_DEV_CFG_NS }; #endif #ifdef QSPI_IP6514E_S static const struct qspi_ip6514e_dev_cfg_t QSPI_DEV_CFG_S = { .base = MUSCA_S1_QSPI_REG_S_BASE, .addr_mask = (1U << 25) - 1, }; struct qspi_ip6514e_dev_t QSPI_DEV_S = { &QSPI_DEV_CFG_S }; #endif /* ======= External peripheral configuration structure definitions ======= */ /* MT25QL Flash memory library structures */ #if (defined(MT25QL_NS) && defined(QSPI_IP6514E_NS)) struct mt25ql_dev_t MT25QL_DEV_NS = { .controller = &QSPI_DEV_NS, .direct_access_start_addr = MUSCA_S1_QSPI_FLASH_NS_BASE, .baud_rate_div = 4U, .size = 0x02000000U, /* 32 MiB */ .config_state = { MT25QL_FUNC_STATE_NOT_INITED }, }; #endif #if (defined(MT25QL_S) && defined(QSPI_IP6514E_S)) struct mt25ql_dev_t MT25QL_DEV_S = { .controller = &QSPI_DEV_S, .direct_access_start_addr = MUSCA_S1_QSPI_FLASH_S_BASE, .baud_rate_div = 4U, .size = 0x02000000U, /* 32 MiB */ .config_state = { MT25QL_FUNC_STATE_NOT_INITED }, }; #endif