// SPDX-License-Identifier: GPL-2.0+ /* * Core driver model support for ACPI table generation * * Copyright 2019 Google LLC * Written by Simon Glass */ #define LOG_CATEOGRY LOGC_ACPI #include #include #include #include #include #include #include #include #include #define MAX_ACPI_ITEMS 100 /** * Type of table that we collected * * @TYPE_NONE: Not yet known * @TYPE_SSDT: Items in the Secondary System Description Table * @TYPE_DSDT: Items in the Differentiated System Description Table * @TYPE_OTHER: Other (whole) */ enum gen_type_t { TYPE_NONE, TYPE_SSDT, TYPE_DSDT, TYPE_OTHER, }; const char *gen_type_str[] = { "-", "ssdt", "dsdt", "other", }; /* Type of method to call */ enum method_t { METHOD_WRITE_TABLES, METHOD_FILL_SSDT, METHOD_INJECT_DSDT, METHOD_SETUP_NHLT, }; /* Prototype for all methods */ typedef int (*acpi_method)(const struct udevice *dev, struct acpi_ctx *ctx); /** * struct acpi_item - Holds info about ACPI data generated by a driver method * * @dev: Device that generated this data * @type: Table type it refers to * @writer: Writer that wrote this table * @base: Pointer to base of table in its original location * @buf: Buffer allocated to contain the data (NULL if not allocated) * @size: Size of the data in bytes */ struct acpi_item { struct udevice *dev; const struct acpi_writer *writer; enum gen_type_t type; const char *base; char *buf; int size; }; /* List of ACPI items collected */ static struct acpi_item acpi_item[MAX_ACPI_ITEMS]; static int item_count; int acpi_copy_name(char *out_name, const char *name) { strncpy(out_name, name, ACPI_NAME_LEN); out_name[ACPI_NAME_LEN] = '\0'; return 0; } int acpi_get_name(const struct udevice *dev, char *out_name) { struct acpi_ops *aops; const char *name; int ret; aops = device_get_acpi_ops(dev); if (aops && aops->get_name) return aops->get_name(dev, out_name); name = dev_read_string(dev, "acpi,name"); if (name) return acpi_copy_name(out_name, name); ret = acpi_device_infer_name(dev, out_name); if (ret) return log_msg_ret("dev", ret); return 0; } int acpi_get_path(const struct udevice *dev, char *out_path, int maxlen) { const char *path; int ret; path = dev_read_string(dev, "acpi,path"); if (path) { if (strlen(path) >= maxlen) return -ENOSPC; strcpy(out_path, path); return 0; } ret = acpi_device_path(dev, out_path, maxlen); if (ret) return log_msg_ret("dev", ret); return 0; } /** * add_item() - Add a new item to the list of data collected * * @ctx: ACPI context * @dev: Device that generated the data, if type != TYPE_OTHER * @writer: Writer entry that generated the data, if type == TYPE_OTHER * @type: Table type it refers to * @start: The start of the data (the end is obtained from ctx->current) * Return: 0 if OK, -ENOSPC if too many items, -ENOMEM if out of memory */ static int add_item(struct acpi_ctx *ctx, struct udevice *dev, const struct acpi_writer *writer, enum gen_type_t type, void *start) { struct acpi_item *item; void *end = ctx->current; if (item_count == MAX_ACPI_ITEMS) { log_err("Too many items\n"); return log_msg_ret("mem", -ENOSPC); } item = &acpi_item[item_count]; item->dev = dev; item->writer = writer; item->type = type; item->size = end - start; item->base = start; if (!item->size) return 0; if (type != TYPE_OTHER) { item->buf = malloc(item->size); if (!item->buf) return log_msg_ret("mem", -ENOMEM); memcpy(item->buf, start, item->size); } item_count++; log_debug("* %s: Added type %d, %p, size %x\n", dev ? dev->name : "other", type, start, item->size); return 0; } int acpi_add_other_item(struct acpi_ctx *ctx, const struct acpi_writer *writer, void *start) { return add_item(ctx, NULL, writer, TYPE_OTHER, start); } void acpi_dump_items(enum acpi_dump_option option) { int i; printf("Seq Type Base Size Device/Writer\n"); printf("--- ----- -------- ---- -------------\n"); for (i = 0; i < item_count; i++) { struct acpi_item *item = &acpi_item[i]; printf("%3x %-5s %8lx %5x %s\n", i, gen_type_str[item->type], (ulong)map_to_sysmem(item->base), item->size, item->dev ? item->dev->name : item->writer->name); if (option == ACPI_DUMP_CONTENTS) { print_buffer(0, item->buf ? item->buf : item->base, 1, item->size, 0); printf("\n"); } } } static struct acpi_item *find_acpi_item(const char *devname) { int i; for (i = 0; i < item_count; i++) { struct acpi_item *item = &acpi_item[i]; if (item->dev && !strcmp(devname, item->dev->name)) return item; } return NULL; } /** * sort_acpi_item_type - Sort the ACPI items into the desired order * * This looks up the ordering in the device tree and then adds each item one by * one into the supplied buffer * * @ctx: ACPI context * @start: Start position to put the sorted items. The items will follow each * other in sorted order * @type: Type of items to sort * Return: 0 if OK, -ve on error */ static int sort_acpi_item_type(struct acpi_ctx *ctx, void *start, enum gen_type_t type) { const u32 *order; int size; int count; void *ptr; void *end = ctx->current; ptr = start; order = ofnode_read_chosen_prop(type == TYPE_DSDT ? "u-boot,acpi-dsdt-order" : "u-boot,acpi-ssdt-order", &size); if (!order) { log_debug("Failed to find ordering, leaving as is\n"); return 0; } /* * This algorithm rewrites the context buffer without changing its * length. So there is no need to update ctx-current */ count = size / sizeof(u32); while (count--) { struct acpi_item *item; const char *name; ofnode node; node = ofnode_get_by_phandle(fdt32_to_cpu(*order++)); name = ofnode_get_name(node); item = find_acpi_item(name); if (!item) { log_err("Failed to find item '%s'\n", name); return log_msg_ret("find", -ENOENT); } if (item->type == type) { log_debug(" - add %s\n", item->dev->name); memcpy(ptr, item->buf, item->size); ptr += item->size; } } /* * If the sort order is missing an item then the output will be too * small. Report this error since the item needs to be added to the * ordering for the ACPI tables to be complete. */ if (ptr != end) { log_warning("*** Missing bytes: ptr=%p, end=%p\n", ptr, end); return -ENXIO; } return 0; } acpi_method acpi_get_method(struct udevice *dev, enum method_t method) { struct acpi_ops *aops; aops = device_get_acpi_ops(dev); if (aops) { switch (method) { case METHOD_WRITE_TABLES: return aops->write_tables; case METHOD_FILL_SSDT: return aops->fill_ssdt; case METHOD_INJECT_DSDT: return aops->inject_dsdt; case METHOD_SETUP_NHLT: return aops->setup_nhlt; } } return NULL; } int acpi_recurse_method(struct acpi_ctx *ctx, struct udevice *parent, enum method_t method, enum gen_type_t type) { struct udevice *dev; acpi_method func; int ret; func = acpi_get_method(parent, method); if (func) { log_debug("- method %d, %s %p\n", method, parent->name, func); ret = device_of_to_plat(parent); if (ret) return log_msg_ret("ofdata", ret); ctx->tab_start = ctx->current; ret = func(parent, ctx); if (ret) return log_msg_ret("func", ret); /* Add the item to the internal list */ if (type != TYPE_NONE) { ret = add_item(ctx, parent, NULL, type, ctx->tab_start); if (ret) return log_msg_ret("add", ret); } } device_foreach_child(dev, parent) { ret = acpi_recurse_method(ctx, dev, method, type); if (ret) return log_msg_ret("recurse", ret); } return 0; } int acpi_fill_ssdt(struct acpi_ctx *ctx) { void *start = ctx->current; int ret; log_debug("Writing SSDT tables\n"); ret = acpi_recurse_method(ctx, dm_root(), METHOD_FILL_SSDT, TYPE_SSDT); log_debug("Writing SSDT finished, err=%d\n", ret); ret = sort_acpi_item_type(ctx, start, TYPE_SSDT); if (ret) return log_msg_ret("build", ret); return ret; } int acpi_inject_dsdt(struct acpi_ctx *ctx) { void *start = ctx->current; int ret; log_debug("Writing DSDT tables\n"); ret = acpi_recurse_method(ctx, dm_root(), METHOD_INJECT_DSDT, TYPE_DSDT); log_debug("Writing DSDT finished, err=%d\n", ret); ret = sort_acpi_item_type(ctx, start, TYPE_DSDT); if (ret) return log_msg_ret("build", ret); return ret; } void acpi_reset_items(void) { item_count = 0; } int acpi_write_dev_tables(struct acpi_ctx *ctx) { int ret; log_debug("Writing device tables\n"); ret = acpi_recurse_method(ctx, dm_root(), METHOD_WRITE_TABLES, TYPE_NONE); log_debug("Writing finished, err=%d\n", ret); return ret; } int acpi_setup_nhlt(struct acpi_ctx *ctx, struct nhlt *nhlt) { int ret; log_debug("Setup NHLT\n"); ctx->nhlt = nhlt; ret = acpi_recurse_method(ctx, dm_root(), METHOD_SETUP_NHLT, TYPE_NONE); log_debug("Setup finished, err=%d\n", ret); return ret; }