/* * Copyright (C) 2016 Freescale Semiconductor, Inc. * * SPDX-License-Identifier: GPL-2.0+ */ #include #include #include #include #include #include /* * Check if the RDC Semaphore is required for this peripheral. */ static inline int imx_rdc_check_sema_required(int per_id) { struct rdc_regs *imx_rdc = (struct rdc_regs *)RDC_BASE_ADDR; u32 reg; reg = readl(&imx_rdc->pdap[per_id]); /* * No semaphore: * Intial value or this peripheral is assigned to only one domain */ if (!(reg & RDC_PDAP_SREQ_MASK)) return -ENOENT; return 0; } /* * Check the peripheral read / write access permission on Domain [dom_id]. */ int imx_rdc_check_permission(int per_id, int dom_id) { struct rdc_regs *imx_rdc = (struct rdc_regs *)RDC_BASE_ADDR; u32 reg; reg = readl(&imx_rdc->pdap[per_id]); if (!(reg & RDC_PDAP_DRW_MASK(dom_id))) return -EACCES; /*No access*/ return 0; } /* * Lock up the RDC semaphore for this peripheral if semaphore is required. */ int imx_rdc_sema_lock(int per_id) { struct rdc_sema_regs *imx_rdc_sema; int ret; u8 reg; ret = imx_rdc_check_sema_required(per_id); if (ret) return ret; if (per_id < SEMA_GATES_NUM) imx_rdc_sema = (struct rdc_sema_regs *)SEMAPHORE1_BASE_ADDR; else imx_rdc_sema = (struct rdc_sema_regs *)SEMAPHORE2_BASE_ADDR; do { writeb(RDC_SEMA_PROC_ID, &imx_rdc_sema->gate[per_id % SEMA_GATES_NUM]); reg = readb(&imx_rdc_sema->gate[per_id % SEMA_GATES_NUM]); if ((reg & RDC_SEMA_GATE_GTFSM_MASK) == RDC_SEMA_PROC_ID) break; /* Get the Semaphore*/ } while (1); return 0; } /* * Unlock the RDC semaphore for this peripheral if main CPU is the * semaphore owner. */ int imx_rdc_sema_unlock(int per_id) { struct rdc_sema_regs *imx_rdc_sema; int ret; u8 reg; ret = imx_rdc_check_sema_required(per_id); if (ret) return ret; if (per_id < SEMA_GATES_NUM) imx_rdc_sema = (struct rdc_sema_regs *)SEMAPHORE1_BASE_ADDR; else imx_rdc_sema = (struct rdc_sema_regs *)SEMAPHORE2_BASE_ADDR; reg = readb(&imx_rdc_sema->gate[per_id % SEMA_GATES_NUM]); if ((reg & RDC_SEMA_GATE_GTFSM_MASK) != RDC_SEMA_PROC_ID) return 1; /*Not the semaphore owner */ writeb(0x0, &imx_rdc_sema->gate[per_id % SEMA_GATES_NUM]); return 0; } /* * Setup RDC setting for one peripheral */ int imx_rdc_setup_peri(rdc_peri_cfg_t p) { struct rdc_regs *imx_rdc = (struct rdc_regs *)RDC_BASE_ADDR; u32 reg = 0; u32 share_count = 0; u32 peri_id = p & RDC_PERI_MASK; u32 domain = (p & RDC_DOMAIN_MASK) >> RDC_DOMAIN_SHIFT_BASE; /* No domain assigned */ if (domain == 0) return -EINVAL; reg |= domain; share_count = (domain & 0x3) + ((domain >> 2) & 0x3) + ((domain >> 4) & 0x3) + ((domain >> 6) & 0x3); if (share_count > 0x3) reg |= RDC_PDAP_SREQ_MASK; writel(reg, &imx_rdc->pdap[peri_id]); return 0; } /* * Setup RDC settings for multiple peripherals */ int imx_rdc_setup_peripherals(rdc_peri_cfg_t const *peripherals_list, unsigned count) { rdc_peri_cfg_t const *p = peripherals_list; int i, ret; for (i = 0; i < count; i++) { ret = imx_rdc_setup_peri(*p); if (ret) return ret; p++; } return 0; } /* * Setup RDC setting for one master */ int imx_rdc_setup_ma(rdc_ma_cfg_t p) { struct rdc_regs *imx_rdc = (struct rdc_regs *)RDC_BASE_ADDR; u32 master_id = (p & RDC_MASTER_MASK) >> RDC_MASTER_SHIFT; u32 domain = (p & RDC_DOMAIN_MASK) >> RDC_DOMAIN_SHIFT_BASE; writel((domain & RDC_MDA_DID_MASK), &imx_rdc->mda[master_id]); return 0; } /* * Setup RDC settings for multiple masters */ int imx_rdc_setup_masters(rdc_ma_cfg_t const *masters_list, unsigned count) { rdc_ma_cfg_t const *p = masters_list; int i, ret; for (i = 0; i < count; i++) { ret = imx_rdc_setup_ma(*p); if (ret) return ret; p++; } return 0; }