diff options
author | Maximilian Brune <maximilian.brune@9elements.com> | 2024-03-04 15:34:41 +0100 |
---|---|---|
committer | Lean Sheng Tan <sheng.tan@9elements.com> | 2024-05-21 13:44:47 +0000 |
commit | 33079b8174e614b75b81b9dea59baef2dc943e58 (patch) | |
tree | 0a725a0dd90929da17fe44e74644967cd41c56c0 /src/lib | |
parent | 25c737d403818a92dfeb06e29ffaf04102d0f260 (diff) |
lib/device_tree: Add some FDT helper functions
This adds some helper functions for FDT, since more and more mainboards
seem to need FDT nowadays. For example our QEMU boards need it in order
to know how much RAM is available. Also all RISC-V boards in our tree
need FDT.
This also adds some tests in order to test said functions.
Signed-off-by: Maximilian Brune <maximilian.brune@9elements.com>
Change-Id: I2fb1d93c5b3e1cb2f7d9584db52bbce3767b63d8
Reviewed-on: https://review.coreboot.org/c/coreboot/+/81081
Reviewed-by: Julius Werner <jwerner@chromium.org>
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Diffstat (limited to 'src/lib')
-rw-r--r-- | src/lib/device_tree.c | 438 |
1 files changed, 393 insertions, 45 deletions
diff --git a/src/lib/device_tree.c b/src/lib/device_tree.c index a36798619b..2bfd5dd376 100644 --- a/src/lib/device_tree.c +++ b/src/lib/device_tree.c @@ -6,21 +6,39 @@ #include <ctype.h> #include <device_tree.h> #include <endian.h> +#include <stdbool.h> #include <stdint.h> #include <string.h> #include <stddef.h> #include <stdlib.h> +#define FDT_PATH_MAX_DEPTH 10 // should be a good enough upper bound +#define FDT_PATH_MAX_LEN 128 // should be a good enough upper bound + /* * Functions for picking apart flattened trees. */ +static int fdt_skip_nops(const void *blob, uint32_t offset) +{ + uint32_t *ptr = (uint32_t *)(((uint8_t *)blob) + offset); + + int index = 0; + while (be32toh(ptr[index]) == FDT_TOKEN_NOP) + index++; + + return index * sizeof(uint32_t); +} + int fdt_next_property(const void *blob, uint32_t offset, struct fdt_property *prop) { struct fdt_header *header = (struct fdt_header *)blob; uint32_t *ptr = (uint32_t *)(((uint8_t *)blob) + offset); + // skip NOP tokens + offset += fdt_skip_nops(blob, offset); + int index = 0; if (be32toh(ptr[index++]) != FDT_TOKEN_PROPERTY) return 0; @@ -40,24 +58,369 @@ int fdt_next_property(const void *blob, uint32_t offset, return index * sizeof(uint32_t); } -int fdt_node_name(const void *blob, uint32_t offset, const char **name) +/* + * fdt_next_node_name reads a node name + * + * @params blob address of FDT + * @params offset offset to the node to read the name from + * @params name parameter to hold the name that has been read or NULL + * + * @returns Either 0 on error or offset to the properties that come after the node name + */ +int fdt_next_node_name(const void *blob, uint32_t offset, const char **name) { - uint8_t *ptr = ((uint8_t *)blob) + offset; + // skip NOP tokens + offset += fdt_skip_nops(blob, offset); + + char *ptr = ((char *)blob) + offset; if (be32dec(ptr) != FDT_TOKEN_BEGIN_NODE) return 0; ptr += 4; if (name) - *name = (char *)ptr; - return ALIGN_UP(strlen((char *)ptr) + 1, sizeof(uint32_t)) + 4; + *name = ptr; + + return ALIGN_UP(strlen(ptr) + 1, 4) + 4; } -static int dt_prop_is_phandle(struct device_tree_property *prop) +/* + * A utility function to skip past nodes in flattened trees. + */ +int fdt_skip_node(const void *blob, uint32_t start_offset) { - return !(strcmp("phandle", prop->prop.name) && - strcmp("linux,phandle", prop->prop.name)); + uint32_t offset = start_offset; + + const char *name; + int size = fdt_next_node_name(blob, offset, &name); + if (!size) + return 0; + offset += size; + + while ((size = fdt_next_property(blob, offset, NULL))) + offset += size; + + while ((size = fdt_skip_node(blob, offset))) + offset += size; + + // skip NOP tokens + offset += fdt_skip_nops(blob, offset); + + return offset - start_offset + sizeof(uint32_t); +} + +/* + * fdt_read_prop reads a property inside a node + * + * @params blob address of FDT + * @params node_offset offset to the node to read the property from + * @params prop_name name of the property to read + * @params fdt_prop property is saved inside this parameter + * + * @returns Either 0 if no property has been found or an offset that points to the location + * of the property + */ +u32 fdt_read_prop(const void *blob, u32 node_offset, const char *prop_name, + struct fdt_property *fdt_prop) +{ + u32 offset = node_offset; + + offset += fdt_next_node_name(blob, offset, NULL); // skip node name + + size_t size; + while ((size = fdt_next_property(blob, offset, fdt_prop))) { + if (strcmp(fdt_prop->name, prop_name) == 0) + return offset; + offset += size; + } + return 0; // property not found +} + +/* + * fdt_read_reg_prop reads the reg property inside a node + * + * @params blob address of FDT + * @params node_offset offset to the node to read the reg property from + * @params addr_cells number of cells used for one address + * @params size_cells number of cells used for one size + * @params regions all regions that are read inside the reg property are saved inside + * this array + * @params regions_count maximum number of entries that can be saved inside the regions array. + * + * Returns: Either 0 on error or returns the number of regions put into the regions array. + */ +u32 fdt_read_reg_prop(const void *blob, u32 node_offset, u32 addr_cells, u32 size_cells, + struct device_tree_region regions[], size_t regions_count) +{ + struct fdt_property prop; + u32 offset = fdt_read_prop(blob, node_offset, "reg", &prop); + + if (!offset) { + printk(BIOS_DEBUG, "no reg property found in node_offset: %x\n", node_offset); + return 0; + } + + // we found the reg property, now need to parse all regions in 'reg' + size_t count = prop.size / (4 * addr_cells + 4 * size_cells); + if (count > regions_count) { + printk(BIOS_ERR, "reg property at node_offset: %x has more entries (%zd) than regions array can hold (%zd)\n", node_offset, count, regions_count); + count = regions_count; + } + if (addr_cells > 2 || size_cells > 2) { + printk(BIOS_ERR, "addr_cells (%d) or size_cells (%d) bigger than 2\n", + addr_cells, size_cells); + return 0; + } + uint32_t *ptr = prop.data; + for (int i = 0; i < count; i++) { + if (addr_cells == 1) + regions[i].addr = be32dec(ptr); + else if (addr_cells == 2) + regions[i].addr = be64dec(ptr); + ptr += addr_cells; + if (size_cells == 1) + regions[i].size = be32dec(ptr); + else if (size_cells == 2) + regions[i].size = be64dec(ptr); + ptr += size_cells; + } + + return count; // return the number of regions found in the reg property } +static u32 fdt_read_cell_props(const void *blob, u32 node_offset, u32 *addrcp, u32 *sizecp) +{ + struct fdt_property prop; + u32 offset = node_offset; + size_t size; + while ((size = fdt_next_property(blob, offset, &prop))) { + if (addrcp && !strcmp(prop.name, "#address-cells")) + *addrcp = be32dec(prop.data); + if (sizecp && !strcmp(prop.name, "#size-cells")) + *sizecp = be32dec(prop.data); + offset += size; + } + return offset; +} + +/* + * fdt_find_node searches for a node relative to another node + * + * @params blob address of FDT + * + * @params parent_node_offset offset to node from which to traverse the tree + * + * @params path null terminated array of node names specifying a + * relative path (e.g: { "cpus", "cpu0", NULL }) + * + * @params addrcp/sizecp If any address-cells and size-cells properties are found that are + * part of the parent node of the node we are looking, addrcp and sizecp + * are set to these respectively. + * + * @returns: Either 0 if no node has been found or the offset to the node found + */ +static u32 fdt_find_node(const void *blob, u32 parent_node_offset, char **path, + u32 *addrcp, u32 *sizecp) +{ + if (*path == NULL) + return parent_node_offset; // node found + + size_t size = fdt_next_node_name(blob, parent_node_offset, NULL); // skip node name + + /* + * get address-cells and size-cells properties while skipping the others. + * According to spec address-cells and size-cells are not inherited, but we + * intentionally follow the Linux implementation here and treat them as inheritable. + */ + u32 node_offset = fdt_read_cell_props(blob, parent_node_offset + size, addrcp, sizecp); + + const char *node_name; + // walk all children nodes + while ((size = fdt_next_node_name(blob, node_offset, &node_name))) { + if (!strcmp(*path, node_name)) { + // traverse one level deeper into the path + return fdt_find_node(blob, node_offset, path + 1, addrcp, sizecp); + } + // node is not the correct one. skip current node + node_offset += fdt_skip_node(blob, node_offset); + } + + // we have searched everything and could not find a fitting node + return 0; +} + +/* + * fdt_find_node_by_path finds a node behind a given node path + * + * @params blob address of FDT + * @params path absolute path to the node that should be searched for + * + * @params addrcp/sizecp Pointer that will be updated with any #address-cells and #size-cells + * value found in the node of the node specified by node_offset. Either + * may be NULL to ignore. If no #address-cells and #size-cells is found + * default values of #address-cells=2 and #size-cells=1 are returned. + * + * @returns Either 0 on error or the offset to the node found behind the path + */ +u32 fdt_find_node_by_path(const void *blob, const char *path, u32 *addrcp, u32 *sizecp) +{ + // sanity check + if (path[0] != '/') { + printk(BIOS_ERR, "devicetree path must start with a /\n"); + return 0; + } + if (!blob) { + printk(BIOS_ERR, "devicetree blob is NULL\n"); + return 0; + } + + if (addrcp) + *addrcp = 2; + if (sizecp) + *sizecp = 1; + + struct fdt_header *fdt_hdr = (struct fdt_header *)blob; + + /* + * split path into separate nodes + * e.g: "/cpus/cpu0" -> { "cpus", "cpu0" } + */ + char *path_array[FDT_PATH_MAX_DEPTH]; + size_t path_size = strlen(path); + assert(path_size < FDT_PATH_MAX_LEN); + char path_copy[FDT_PATH_MAX_LEN]; + memcpy(path_copy, path, path_size + 1); + char *cur = path_copy; + int i; + for (i = 0; i < FDT_PATH_MAX_DEPTH; i++) { + path_array[i] = strtok_r(NULL, "/", &cur); + if (!path_array[i]) + break; + } + assert(i < FDT_PATH_MAX_DEPTH); + + return fdt_find_node(blob, be32toh(fdt_hdr->structure_offset), path_array, addrcp, sizecp); +} + +/* + * fdt_find_subnodes_by_prefix finds a node with a given prefix relative to a parent node + * + * @params blob The FDT to search. + * + * @params node_offset offset to the node of which the children should be searched + * + * @params prefix A string to search for a node with a given prefix. This can for example + * be 'cpu' to look for all nodes matching this prefix. Only children of + * node_offset are searched. Therefore in order to search all nodes matching + * the 'cpu' prefix, node_offset should probably point to the 'cpus' node. + * An empty prefix ("") searches for all children nodes of node_offset. + * + * @params addrcp/sizecp Pointer that will be updated with any #address-cells and #size-cells + * value found in the node of the node specified by node_offset. Either + * may be NULL to ignore. If no #address-cells and #size-cells is found + * addrcp and sizecp are left untouched. + * + * @params results Array of offsets pointing to each node matching the given prefix. + * @params results_len Number of entries allocated for the 'results' array + * + * @returns offset to last node found behind path or 0 if no node has been found + */ +size_t fdt_find_subnodes_by_prefix(const void *blob, u32 node_offset, const char *prefix, + u32 *addrcp, u32 *sizecp, u32 *results, size_t results_len) +{ + // sanity checks + if (!blob || !results || !prefix) { + printk(BIOS_ERR, "%s: input parameter cannot be null/\n", __func__); + return 0; + } + + u32 offset = node_offset; + + // we don't care about the name of the current node + u32 size = fdt_next_node_name(blob, offset, NULL); + if (!size) { + printk(BIOS_ERR, "%s: node_offset: %x does not point to a node\n", + __func__, node_offset); + return 0; + } + offset += size; + + /* + * update addrcp and sizecp if the node contains an address-cells and size-cells + * property. Otherwise use addrcp and sizecp provided by caller. + */ + offset = fdt_read_cell_props(blob, offset, addrcp, sizecp); + + size_t count_results = 0; + int prefix_len = strlen(prefix); + const char *node_name; + // walk all children nodes of offset + while ((size = fdt_next_node_name(blob, offset, &node_name))) { + + if (count_results >= results_len) { + printk(BIOS_WARNING, + "%s: results_len (%zd) smaller than count_results (%zd)\n", + __func__, results_len, count_results); + break; + } + + if (!strncmp(prefix, node_name, prefix_len)) { + // we found a node that matches the prefix + results[count_results++] = offset; + } + + // node does not match the prefix. skip current node + offset += fdt_skip_node(blob, offset); + } + + // return last occurrence + return count_results; +} + +static const char *fdt_read_alias_prop(const void *blob, const char *alias_name) +{ + u32 node_offset = fdt_find_node_by_path(blob, "/aliases", NULL, NULL); + if (!node_offset) { + printk(BIOS_DEBUG, "no /aliases node found\n"); + return NULL; + } + struct fdt_property alias_prop; + if (!fdt_read_prop(blob, node_offset, alias_name, &alias_prop)) { + printk(BIOS_DEBUG, "property %s in /aliases node not found\n", alias_name); + return NULL; + } + return (const char *)alias_prop.data; +} + +/* + * Find a node in the tree from a string device tree path. + * + * @params blob Address to the FDT + * @params alias_name node name alias that should be searched for. + * @params addrcp/sizecp Pointer that will be updated with any #address-cells and #size-cells + * value found in the node of the node specified by node_offset. Either + * may be NULL to ignore. If no #address-cells and #size-cells is found + * default values of #address-cells=2 and #size-cells=1 are returned. + * + * @returns offset to last node found behind path or 0 if no node has been found + */ +u32 fdt_find_node_by_alias(const void *blob, const char *alias_name, u32 *addrcp, u32 *sizecp) +{ + const char *node_name = fdt_read_alias_prop(blob, alias_name); + if (!node_name) { + printk(BIOS_DEBUG, "alias %s not found\n", alias_name); + return 0; + } + + u32 node_offset = fdt_find_node_by_path(blob, node_name, addrcp, sizecp); + if (!node_offset) { + // This should not happen (invalid devicetree) + printk(BIOS_WARNING, + "Could not find node '%s', which alias was referring to '%s'\n", + node_name, alias_name); + return 0; + } + return node_offset; +} /* @@ -108,7 +471,7 @@ static int print_flat_node(const void *blob, uint32_t start_offset, int depth) const char *name; int size; - size = fdt_node_name(blob, offset, &name); + size = fdt_next_node_name(blob, offset, &name); if (!size) return 0; offset += size; @@ -139,38 +502,16 @@ void fdt_print_node(const void *blob, uint32_t offset) print_flat_node(blob, offset, 0); } - - /* - * A utility function to skip past nodes in flattened trees. + * Functions to turn a flattened tree into an unflattened one. */ -int fdt_skip_node(const void *blob, uint32_t start_offset) +static int dt_prop_is_phandle(struct device_tree_property *prop) { - int offset = start_offset; - int size; - - const char *name; - size = fdt_node_name(blob, offset, &name); - if (!size) - return 0; - offset += size; - - while ((size = fdt_next_property(blob, offset, NULL))) - offset += size; - - while ((size = fdt_skip_node(blob, offset))) - offset += size; - - return offset - start_offset + sizeof(uint32_t); + return !(strcmp("phandle", prop->prop.name) && + strcmp("linux,phandle", prop->prop.name)); } - - -/* - * Functions to turn a flattened tree into an unflattened one. - */ - static int fdt_unflatten_node(const void *blob, uint32_t start_offset, struct device_tree *tree, struct device_tree_node **new_node) @@ -180,7 +521,7 @@ static int fdt_unflatten_node(const void *blob, uint32_t start_offset, const char *name; int size; - size = fdt_node_name(blob, offset, &name); + size = fdt_next_node_name(blob, offset, &name); if (!size) return 0; offset += size; @@ -237,30 +578,37 @@ static int fdt_unflatten_map_entry(const void *blob, uint32_t offset, return sizeof(uint64_t) * 2; } -struct device_tree *fdt_unflatten(const void *blob) +bool fdt_is_valid(const void *blob) { - struct device_tree *tree = xzalloc(sizeof(*tree)); const struct fdt_header *header = (const struct fdt_header *)blob; - tree->header = header; uint32_t magic = be32toh(header->magic); uint32_t version = be32toh(header->version); uint32_t last_comp_version = be32toh(header->last_comp_version); if (magic != FDT_HEADER_MAGIC) { - printk(BIOS_DEBUG, "Invalid device tree magic %#.8x!\n", magic); - free(tree); - return NULL; + printk(BIOS_ERR, "Invalid device tree magic %#.8x!\n", magic); + return false; } if (last_comp_version > FDT_SUPPORTED_VERSION) { - printk(BIOS_DEBUG, "Unsupported device tree version %u(>=%u)\n", + printk(BIOS_ERR, "Unsupported device tree version %u(>=%u)\n", version, last_comp_version); - free(tree); - return NULL; + return false; } if (version > FDT_SUPPORTED_VERSION) printk(BIOS_NOTICE, "FDT version %u too new, should add support!\n", version); + return true; +} + +struct device_tree *fdt_unflatten(const void *blob) +{ + struct device_tree *tree = xzalloc(sizeof(*tree)); + const struct fdt_header *header = (const struct fdt_header *)blob; + tree->header = header; + + if (fdt_is_valid(blob)) + return NULL; uint32_t struct_offset = be32toh(header->structure_offset); uint32_t strings_offset = be32toh(header->strings_offset); @@ -981,7 +1329,7 @@ void dt_add_u64_prop(struct device_tree_node *node, const char *name, u64 val) * Add a 'reg' address list property to a node, or update it if it exists. * * @param node The device tree node to add to. - * @param addrs Array of address values to be stored in the property. + * @param regions Array of address values to be stored in the property. * @param sizes Array of corresponding size values to 'addrs'. * @param count Number of values in 'addrs' and 'sizes' (must be equal). * @param addr_cells Value of #address-cells property valid for this node. |