/* * Copyright (c) 2018 Foundries.io Ltd * * SPDX-License-Identifier: Apache-2.0 */ #ifndef SOC_RISCV32_OPENISA_RV32M1_SOC_H_ #define SOC_RISCV32_OPENISA_RV32M1_SOC_H_ #ifndef _ASMLANGUAGE #include "fsl_device_registers.h" #include /* * Helpers related to interrupt handling. This SoC has two levels of * interrupts. * * Level 1 interrupts go straight to the SoC. Level 2 interrupts must * go through one of the 8 channels in the the INTMUX * peripheral. There are 32 level 1 interrupts, including 8 INTMUX * interrupts. Each INTMUX interrupt can mux at most * CONFIG_MAX_IRQ_PER_AGGREGATOR (which happens to be 32) interrupts * to its level 1 interrupt. * * See gen_isr_tables.py for details on the Zephyr multi-level IRQ * number encoding, which determines how these helpers work. */ /** * @brief Get an IRQ's level * @param irq The IRQ number in the Zephyr irq.h numbering system * @return IRQ level, either 1 or 2 */ static inline unsigned int rv32m1_irq_level(unsigned int irq) { return ((irq >> 8) & 0xff) == 0U ? 1 : 2; } /** * @brief Level 1 interrupt line associated with an IRQ * * Results are undefined if rv32m1_irq_level(irq) is not 1. * * @param The IRQ number in the Zephyr numbering system * @return Level 1 (i.e. event unit) IRQ number associated with irq */ static inline uint32_t rv32m1_level1_irq(unsigned int irq) { /* * There's no need to do any math; the precondition is that * it's a level 1 IRQ. */ return irq; } /** * @brief INTMUX channel (i.e. level 2 aggregator number) for an IRQ * * Results are undefined if rv32m1_irq_level(irq) is not 2. * * @param irq The IRQ number whose INTMUX channel / level 2 aggregator * to get, in the Zephyr numbering system * @return INTMUX channel number associated with the IRQ */ static inline uint32_t rv32m1_intmux_channel(unsigned int irq) { /* * Here we make use of these facts: * * - the INTMUX output IRQ numbers are arranged consecutively * by channel in the event unit IRQ numbering assignment, * starting from channel 0. * * - CONFIG_2ND_LVL_INTR_00_OFFSET is defined to * be the offset of the first level 2 aggregator in the parent * interrupt controller's IRQ numbers, i.e. channel 0's * IRQ number in the event unit. */ return (irq & 0xff) - CONFIG_2ND_LVL_INTR_00_OFFSET; } /** * @brief INTMUX interrupt ID number for an IRQ * * Results are undefined if rv32m1_irq_level(irq) is not 2. * * @param The IRQ number whose INTMUX interrupt ID to get, in the Zephyr * numbering system * @return The INTMUX interrupt ID, in the inclusive range 0 to 31 */ static inline uint32_t rv32m1_intmux_line(unsigned int irq) { return ((irq >> 8) & 0xff) - 1; } void soc_interrupt_init(void); #endif /* !_ASMLANGUAGE */ #if defined(CONFIG_SOC_OPENISA_RV32M1_RI5CY) #include "soc_ri5cy.h" #elif defined(CONFIG_SOC_OPENISA_RV32M1_ZERO_RISCY) #include "soc_zero_riscy.h" #endif /* Newlib hooks (and potentially other things) use these defines. */ #define RISCV_RAM_SIZE KB(CONFIG_SRAM_SIZE) #define RISCV_RAM_BASE CONFIG_SRAM_BASE_ADDRESS /* helper macro to convert from a DT_INST to HAL clock_ip_name */ #define INST_DT_CLOCK_IP_NAME(n) \ MAKE_PCC_REGADDR(DT_REG_ADDR(DT_INST_PHANDLE(n, clocks)), \ DT_INST_CLOCKS_CELL(n, name)) #endif /* SOC_RISCV32_OPENISA_RV32M1_SOC_H_ */