/* * Copyright (c) 2015, Xilinx Inc. and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include int metal_bus_register(struct metal_bus *bus) { if (!bus || !bus->name || !strlen(bus->name)) return -EINVAL; if (metal_bus_find(bus->name, NULL) == 0) return -EEXIST; metal_list_init(&bus->devices); metal_list_add_tail(&_metal.common.bus_list, &bus->node); metal_log(METAL_LOG_DEBUG, "registered %s bus\n", bus->name); return 0; } int metal_bus_unregister(struct metal_bus *bus) { metal_list_del(&bus->node); if (bus->ops.bus_close) bus->ops.bus_close(bus); metal_log(METAL_LOG_DEBUG, "unregistered %s bus\n", bus->name); return 0; } int metal_bus_find(const char *name, struct metal_bus **result) { struct metal_list *node; struct metal_bus *bus; metal_list_for_each(&_metal.common.bus_list, node) { bus = metal_container_of(node, struct metal_bus, node); if (strcmp(bus->name, name) == 0 && result) { *result = bus; return 0; } } return -ENOENT; } int metal_device_open(const char *bus_name, const char *dev_name, struct metal_device **device) { struct metal_bus *bus; int error; if (!bus_name || !strlen(bus_name) || !dev_name || !strlen(dev_name) || !device) return -EINVAL; error = metal_bus_find(bus_name, &bus); if (error) return error; if (!bus->ops.dev_open) return -ENODEV; error = (*bus->ops.dev_open)(bus, dev_name, device); if (error) return error; return 0; } void metal_device_close(struct metal_device *device) { metal_assert(device && device->bus); if (device->bus->ops.dev_close) device->bus->ops.dev_close(device->bus, device); } int metal_register_generic_device(struct metal_device *device) { if (!device->name || !strlen(device->name) || device->num_regions > METAL_MAX_DEVICE_REGIONS) return -EINVAL; device->bus = &metal_generic_bus; metal_list_add_tail(&_metal.common.generic_device_list, &device->node); return 0; } int metal_generic_dev_open(struct metal_bus *bus, const char *dev_name, struct metal_device **device) { struct metal_list *node; struct metal_device *dev; (void)bus; metal_list_for_each(&_metal.common.generic_device_list, node) { dev = metal_container_of(node, struct metal_device, node); if (strcmp(dev->name, dev_name) == 0) { *device = dev; return metal_generic_dev_sys_open(dev); } } return -ENODEV; } int metal_generic_dev_dma_map(struct metal_bus *bus, struct metal_device *device, uint32_t dir, struct metal_sg *sg_in, int nents_in, struct metal_sg *sg_out) { int i; (void)bus; (void)device; if (sg_out != sg_in) memcpy(sg_out, sg_in, nents_in*(sizeof(struct metal_sg))); for (i = 0; i < nents_in; i++) { if (dir == METAL_DMA_DEV_W) { metal_cache_flush(sg_out[i].virt, sg_out[i].len); } metal_cache_invalidate(sg_out[i].virt, sg_out[i].len); } return nents_in; } void metal_generic_dev_dma_unmap(struct metal_bus *bus, struct metal_device *device, uint32_t dir, struct metal_sg *sg, int nents) { int i; (void)bus; (void)device; (void)dir; for (i = 0; i < nents; i++) { metal_cache_invalidate(sg[i].virt, sg[i].len); } } struct metal_bus metal_weak metal_generic_bus = { .name = "generic", .ops = { .bus_close = NULL, .dev_open = metal_generic_dev_open, .dev_close = NULL, .dev_irq_ack = NULL, .dev_dma_map = metal_generic_dev_dma_map, .dev_dma_unmap = metal_generic_dev_dma_unmap, }, };