1e5674e1fSSoby Mathew /*
2bc8dfca6SNicolas Le Bayon * Copyright (c) 2018-2024, Arm Limited and Contributors. All rights reserved.
3e5674e1fSSoby Mathew *
4e5674e1fSSoby Mathew * SPDX-License-Identifier: BSD-3-Clause
5e5674e1fSSoby Mathew */
6e5674e1fSSoby Mathew
7e5674e1fSSoby Mathew /* Helper functions to offer easier navigation of Device Tree Blob */
8e5674e1fSSoby Mathew
9e5674e1fSSoby Mathew #include <assert.h>
10d13dbb6fSDavid Horstmann #include <errno.h>
114ce3e99aSScott Branden #include <inttypes.h>
124ce3e99aSScott Branden #include <stdint.h>
1327473620SAntonio Nino Diaz #include <string.h>
14e5674e1fSSoby Mathew
1509d40e0eSAntonio Nino Diaz #include <libfdt.h>
1609d40e0eSAntonio Nino Diaz
1709d40e0eSAntonio Nino Diaz #include <common/debug.h>
1809d40e0eSAntonio Nino Diaz #include <common/fdt_wrappers.h>
19d13dbb6fSDavid Horstmann #include <common/uuid.h>
2009d40e0eSAntonio Nino Diaz
21e5674e1fSSoby Mathew /*
2273f1ac6cSAntonio Nino Diaz * Read cells from a given property of the given node. Any number of 32-bit
236e3a89f4SAndre Przywara * cells of the property can be read. Returns 0 on success, or a negative
246e3a89f4SAndre Przywara * FDT error value otherwise.
2573f1ac6cSAntonio Nino Diaz */
fdt_read_uint32_array(const void * dtb,int node,const char * prop_name,unsigned int cells,uint32_t * value)266e3a89f4SAndre Przywara int fdt_read_uint32_array(const void *dtb, int node, const char *prop_name,
276e3a89f4SAndre Przywara unsigned int cells, uint32_t *value)
2873f1ac6cSAntonio Nino Diaz {
296e3a89f4SAndre Przywara const fdt32_t *prop;
3073f1ac6cSAntonio Nino Diaz int value_len;
3173f1ac6cSAntonio Nino Diaz
3273f1ac6cSAntonio Nino Diaz assert(dtb != NULL);
336e3a89f4SAndre Przywara assert(prop_name != NULL);
3473f1ac6cSAntonio Nino Diaz assert(value != NULL);
3573f1ac6cSAntonio Nino Diaz assert(node >= 0);
3673f1ac6cSAntonio Nino Diaz
3773f1ac6cSAntonio Nino Diaz /* Access property and obtain its length (in bytes) */
386e3a89f4SAndre Przywara prop = fdt_getprop(dtb, node, prop_name, &value_len);
396e3a89f4SAndre Przywara if (prop == NULL) {
4049e789e3SAndre Przywara VERBOSE("Couldn't find property %s in dtb\n", prop_name);
416e3a89f4SAndre Przywara return -FDT_ERR_NOTFOUND;
4273f1ac6cSAntonio Nino Diaz }
4373f1ac6cSAntonio Nino Diaz
446e3a89f4SAndre Przywara /* Verify that property length can fill the entire array. */
456e3a89f4SAndre Przywara if (NCELLS((unsigned int)value_len) < cells) {
4673f1ac6cSAntonio Nino Diaz WARN("Property length mismatch\n");
476e3a89f4SAndre Przywara return -FDT_ERR_BADVALUE;
4873f1ac6cSAntonio Nino Diaz }
4973f1ac6cSAntonio Nino Diaz
5073f1ac6cSAntonio Nino Diaz for (unsigned int i = 0U; i < cells; i++) {
516e3a89f4SAndre Przywara value[i] = fdt32_to_cpu(prop[i]);
5273f1ac6cSAntonio Nino Diaz }
5373f1ac6cSAntonio Nino Diaz
5473f1ac6cSAntonio Nino Diaz return 0;
5573f1ac6cSAntonio Nino Diaz }
5673f1ac6cSAntonio Nino Diaz
fdt_read_uint32(const void * dtb,int node,const char * prop_name,uint32_t * value)57ff4e6c35SAndre Przywara int fdt_read_uint32(const void *dtb, int node, const char *prop_name,
58ff4e6c35SAndre Przywara uint32_t *value)
59ff4e6c35SAndre Przywara {
60ff4e6c35SAndre Przywara return fdt_read_uint32_array(dtb, node, prop_name, 1, value);
61ff4e6c35SAndre Przywara }
62ff4e6c35SAndre Przywara
fdt_read_uint32_default(const void * dtb,int node,const char * prop_name,uint32_t dflt_value)63be858cffSAndre Przywara uint32_t fdt_read_uint32_default(const void *dtb, int node,
64be858cffSAndre Przywara const char *prop_name, uint32_t dflt_value)
65be858cffSAndre Przywara {
66be858cffSAndre Przywara uint32_t ret = dflt_value;
67be858cffSAndre Przywara int err = fdt_read_uint32(dtb, node, prop_name, &ret);
68be858cffSAndre Przywara
69be858cffSAndre Przywara if (err < 0) {
70be858cffSAndre Przywara return dflt_value;
71be858cffSAndre Przywara }
72be858cffSAndre Przywara
73be858cffSAndre Przywara return ret;
74be858cffSAndre Przywara }
75be858cffSAndre Przywara
fdt_read_uint64(const void * dtb,int node,const char * prop_name,uint64_t * value)76ff4e6c35SAndre Przywara int fdt_read_uint64(const void *dtb, int node, const char *prop_name,
77ff4e6c35SAndre Przywara uint64_t *value)
78ff4e6c35SAndre Przywara {
79ff4e6c35SAndre Przywara uint32_t array[2] = {0, 0};
80ff4e6c35SAndre Przywara int ret;
81ff4e6c35SAndre Przywara
82ff4e6c35SAndre Przywara ret = fdt_read_uint32_array(dtb, node, prop_name, 2, array);
83ff4e6c35SAndre Przywara if (ret < 0) {
84ff4e6c35SAndre Przywara return ret;
85ff4e6c35SAndre Przywara }
86ff4e6c35SAndre Przywara
87ff4e6c35SAndre Przywara *value = ((uint64_t)array[0] << 32) | array[1];
88ff4e6c35SAndre Przywara return 0;
89ff4e6c35SAndre Przywara }
90ff4e6c35SAndre Przywara
fdt_read_uint64_default(const void * dtb,int node,const char * prop_name,uint64_t dflt_value)91bc8dfca6SNicolas Le Bayon uint64_t fdt_read_uint64_default(const void *dtb, int node,
92bc8dfca6SNicolas Le Bayon const char *prop_name, uint64_t dflt_value)
93bc8dfca6SNicolas Le Bayon {
94bc8dfca6SNicolas Le Bayon uint64_t ret = dflt_value;
95bc8dfca6SNicolas Le Bayon int err = fdt_read_uint64(dtb, node, prop_name, &ret);
96bc8dfca6SNicolas Le Bayon
97bc8dfca6SNicolas Le Bayon if (err < 0) {
98bc8dfca6SNicolas Le Bayon return dflt_value;
99bc8dfca6SNicolas Le Bayon }
100bc8dfca6SNicolas Le Bayon
101bc8dfca6SNicolas Le Bayon return ret;
102bc8dfca6SNicolas Le Bayon }
103bc8dfca6SNicolas Le Bayon
10473f1ac6cSAntonio Nino Diaz /*
1050a2ab6e6SAlexei Fedorov * Read bytes from a given property of the given node. Any number of
1060a2ab6e6SAlexei Fedorov * bytes of the property can be read. The fdt pointer is updated.
1070a2ab6e6SAlexei Fedorov * Returns 0 on success, and -1 on error.
1080a2ab6e6SAlexei Fedorov */
fdtw_read_bytes(const void * dtb,int node,const char * prop,unsigned int length,void * value)1090a2ab6e6SAlexei Fedorov int fdtw_read_bytes(const void *dtb, int node, const char *prop,
1100a2ab6e6SAlexei Fedorov unsigned int length, void *value)
1110a2ab6e6SAlexei Fedorov {
1120a2ab6e6SAlexei Fedorov const void *ptr;
1130a2ab6e6SAlexei Fedorov int value_len;
1140a2ab6e6SAlexei Fedorov
1150a2ab6e6SAlexei Fedorov assert(dtb != NULL);
1160a2ab6e6SAlexei Fedorov assert(prop != NULL);
1170a2ab6e6SAlexei Fedorov assert(value != NULL);
1180a2ab6e6SAlexei Fedorov assert(node >= 0);
1190a2ab6e6SAlexei Fedorov
1200a2ab6e6SAlexei Fedorov /* Access property and obtain its length (in bytes) */
1210a2ab6e6SAlexei Fedorov ptr = fdt_getprop_namelen(dtb, node, prop, (int)strlen(prop),
1220a2ab6e6SAlexei Fedorov &value_len);
1230a2ab6e6SAlexei Fedorov if (ptr == NULL) {
1240a2ab6e6SAlexei Fedorov WARN("Couldn't find property %s in dtb\n", prop);
1250a2ab6e6SAlexei Fedorov return -1;
1260a2ab6e6SAlexei Fedorov }
1270a2ab6e6SAlexei Fedorov
1280a2ab6e6SAlexei Fedorov /* Verify that property length is not less than number of bytes */
1290a2ab6e6SAlexei Fedorov if ((unsigned int)value_len < length) {
1300a2ab6e6SAlexei Fedorov WARN("Property length mismatch\n");
1310a2ab6e6SAlexei Fedorov return -1;
1320a2ab6e6SAlexei Fedorov }
1330a2ab6e6SAlexei Fedorov
1340a2ab6e6SAlexei Fedorov (void)memcpy(value, ptr, length);
1350a2ab6e6SAlexei Fedorov
1360a2ab6e6SAlexei Fedorov return 0;
1370a2ab6e6SAlexei Fedorov }
1380a2ab6e6SAlexei Fedorov
1390a2ab6e6SAlexei Fedorov /*
14027473620SAntonio Nino Diaz * Read string from a given property of the given node. Up to 'size - 1'
14127473620SAntonio Nino Diaz * characters are read, and a NUL terminator is added. Returns 0 on success,
14227473620SAntonio Nino Diaz * and -1 upon error.
14327473620SAntonio Nino Diaz */
fdtw_read_string(const void * dtb,int node,const char * prop,char * str,size_t size)14427473620SAntonio Nino Diaz int fdtw_read_string(const void *dtb, int node, const char *prop,
14527473620SAntonio Nino Diaz char *str, size_t size)
14627473620SAntonio Nino Diaz {
14727473620SAntonio Nino Diaz const char *ptr;
14827473620SAntonio Nino Diaz size_t len;
14927473620SAntonio Nino Diaz
15027473620SAntonio Nino Diaz assert(dtb != NULL);
15127473620SAntonio Nino Diaz assert(node >= 0);
15227473620SAntonio Nino Diaz assert(prop != NULL);
15327473620SAntonio Nino Diaz assert(str != NULL);
15427473620SAntonio Nino Diaz assert(size > 0U);
15527473620SAntonio Nino Diaz
15627473620SAntonio Nino Diaz ptr = fdt_getprop_namelen(dtb, node, prop, (int)strlen(prop), NULL);
15727473620SAntonio Nino Diaz if (ptr == NULL) {
15827473620SAntonio Nino Diaz WARN("Couldn't find property %s in dtb\n", prop);
15927473620SAntonio Nino Diaz return -1;
16027473620SAntonio Nino Diaz }
16127473620SAntonio Nino Diaz
16227473620SAntonio Nino Diaz len = strlcpy(str, ptr, size);
16327473620SAntonio Nino Diaz if (len >= size) {
16427473620SAntonio Nino Diaz WARN("String of property %s in dtb has been truncated\n", prop);
16527473620SAntonio Nino Diaz return -1;
16627473620SAntonio Nino Diaz }
16727473620SAntonio Nino Diaz
16827473620SAntonio Nino Diaz return 0;
16927473620SAntonio Nino Diaz }
17027473620SAntonio Nino Diaz
17127473620SAntonio Nino Diaz /*
172d13dbb6fSDavid Horstmann * Read UUID from a given property of the given node. Returns 0 on success,
173d13dbb6fSDavid Horstmann * and a negative value upon error.
174d13dbb6fSDavid Horstmann */
fdtw_read_uuid(const void * dtb,int node,const char * prop,unsigned int length,uint8_t * uuid)175d13dbb6fSDavid Horstmann int fdtw_read_uuid(const void *dtb, int node, const char *prop,
176d13dbb6fSDavid Horstmann unsigned int length, uint8_t *uuid)
177d13dbb6fSDavid Horstmann {
178d13dbb6fSDavid Horstmann /* Buffer for UUID string (plus NUL terminator) */
179d13dbb6fSDavid Horstmann char uuid_string[UUID_STRING_LENGTH + 1U];
180d13dbb6fSDavid Horstmann int err;
181d13dbb6fSDavid Horstmann
182d13dbb6fSDavid Horstmann assert(dtb != NULL);
183d13dbb6fSDavid Horstmann assert(prop != NULL);
184d13dbb6fSDavid Horstmann assert(uuid != NULL);
185d13dbb6fSDavid Horstmann assert(node >= 0);
186d13dbb6fSDavid Horstmann
187d13dbb6fSDavid Horstmann if (length < UUID_BYTES_LENGTH) {
188d13dbb6fSDavid Horstmann return -EINVAL;
189d13dbb6fSDavid Horstmann }
190d13dbb6fSDavid Horstmann
191d13dbb6fSDavid Horstmann err = fdtw_read_string(dtb, node, prop, uuid_string,
192d13dbb6fSDavid Horstmann UUID_STRING_LENGTH + 1U);
193d13dbb6fSDavid Horstmann if (err != 0) {
194d13dbb6fSDavid Horstmann return err;
195d13dbb6fSDavid Horstmann }
196d13dbb6fSDavid Horstmann
197d13dbb6fSDavid Horstmann if (read_uuid(uuid, uuid_string) != 0) {
198d13dbb6fSDavid Horstmann return -FDT_ERR_BADVALUE;
199d13dbb6fSDavid Horstmann }
200d13dbb6fSDavid Horstmann
201d13dbb6fSDavid Horstmann return 0;
202d13dbb6fSDavid Horstmann }
203d13dbb6fSDavid Horstmann
204d13dbb6fSDavid Horstmann /*
205e5674e1fSSoby Mathew * Write cells in place to a given property of the given node. At most 2 cells
206e5674e1fSSoby Mathew * of the property are written. Returns 0 on success, and -1 upon error.
207e5674e1fSSoby Mathew */
fdtw_write_inplace_cells(void * dtb,int node,const char * prop,unsigned int cells,void * value)208e5674e1fSSoby Mathew int fdtw_write_inplace_cells(void *dtb, int node, const char *prop,
209e5674e1fSSoby Mathew unsigned int cells, void *value)
210e5674e1fSSoby Mathew {
211e5674e1fSSoby Mathew int err, len;
212e5674e1fSSoby Mathew
213da5f2745SSoby Mathew assert(dtb != NULL);
214da5f2745SSoby Mathew assert(prop != NULL);
215da5f2745SSoby Mathew assert(value != NULL);
216e5674e1fSSoby Mathew assert(node >= 0);
217e5674e1fSSoby Mathew
218e5674e1fSSoby Mathew /* We expect either 1 or 2 cell property */
219da5f2745SSoby Mathew assert(cells <= 2U);
220e5674e1fSSoby Mathew
221da5f2745SSoby Mathew if (cells == 2U)
222e0c56fd7SYann Gautier *(fdt64_t *)value = cpu_to_fdt64(*(uint64_t *)value);
223e5674e1fSSoby Mathew else
224e0c56fd7SYann Gautier *(fdt32_t *)value = cpu_to_fdt32(*(uint32_t *)value);
225e5674e1fSSoby Mathew
226da5f2745SSoby Mathew len = (int)cells * 4;
227e5674e1fSSoby Mathew
228e5674e1fSSoby Mathew /* Set property value in place */
229e5674e1fSSoby Mathew err = fdt_setprop_inplace(dtb, node, prop, value, len);
230e5674e1fSSoby Mathew if (err != 0) {
231e5674e1fSSoby Mathew WARN("Modify property %s failed with error %d\n", prop, err);
232e5674e1fSSoby Mathew return -1;
233e5674e1fSSoby Mathew }
234e5674e1fSSoby Mathew
235e5674e1fSSoby Mathew return 0;
236e5674e1fSSoby Mathew }
2370a2ab6e6SAlexei Fedorov
2380a2ab6e6SAlexei Fedorov /*
2390a2ab6e6SAlexei Fedorov * Write bytes in place to a given property of the given node.
2400a2ab6e6SAlexei Fedorov * Any number of bytes of the property can be written.
2410a2ab6e6SAlexei Fedorov * Returns 0 on success, and < 0 on error.
2420a2ab6e6SAlexei Fedorov */
fdtw_write_inplace_bytes(void * dtb,int node,const char * prop,unsigned int length,const void * data)2430a2ab6e6SAlexei Fedorov int fdtw_write_inplace_bytes(void *dtb, int node, const char *prop,
2440a2ab6e6SAlexei Fedorov unsigned int length, const void *data)
2450a2ab6e6SAlexei Fedorov {
2460a2ab6e6SAlexei Fedorov const void *ptr;
2470a2ab6e6SAlexei Fedorov int namelen, value_len, err;
2480a2ab6e6SAlexei Fedorov
2490a2ab6e6SAlexei Fedorov assert(dtb != NULL);
2500a2ab6e6SAlexei Fedorov assert(prop != NULL);
2510a2ab6e6SAlexei Fedorov assert(data != NULL);
2520a2ab6e6SAlexei Fedorov assert(node >= 0);
2530a2ab6e6SAlexei Fedorov
2540a2ab6e6SAlexei Fedorov namelen = (int)strlen(prop);
2550a2ab6e6SAlexei Fedorov
2560a2ab6e6SAlexei Fedorov /* Access property and obtain its length in bytes */
2570a2ab6e6SAlexei Fedorov ptr = fdt_getprop_namelen(dtb, node, prop, namelen, &value_len);
2580a2ab6e6SAlexei Fedorov if (ptr == NULL) {
2590a2ab6e6SAlexei Fedorov WARN("Couldn't find property %s in dtb\n", prop);
2600a2ab6e6SAlexei Fedorov return -1;
2610a2ab6e6SAlexei Fedorov }
2620a2ab6e6SAlexei Fedorov
2630a2ab6e6SAlexei Fedorov /* Verify that property length is not less than number of bytes */
2640a2ab6e6SAlexei Fedorov if ((unsigned int)value_len < length) {
2650a2ab6e6SAlexei Fedorov WARN("Property length mismatch\n");
2660a2ab6e6SAlexei Fedorov return -1;
2670a2ab6e6SAlexei Fedorov }
2680a2ab6e6SAlexei Fedorov
2690a2ab6e6SAlexei Fedorov /* Set property value in place */
2700a2ab6e6SAlexei Fedorov err = fdt_setprop_inplace_namelen_partial(dtb, node, prop,
2710a2ab6e6SAlexei Fedorov namelen, 0,
2720a2ab6e6SAlexei Fedorov data, (int)length);
2730a2ab6e6SAlexei Fedorov if (err != 0) {
2740a2ab6e6SAlexei Fedorov WARN("Set property %s failed with error %d\n", prop, err);
2750a2ab6e6SAlexei Fedorov }
2760a2ab6e6SAlexei Fedorov
2770a2ab6e6SAlexei Fedorov return err;
2780a2ab6e6SAlexei Fedorov }
279364ad245SAndre Przywara
fdt_read_prop_cells(const fdt32_t * prop,int nr_cells)280*bef44f60SAlexeiFedorov uint64_t fdt_read_prop_cells(const fdt32_t *prop, int nr_cells)
281364ad245SAndre Przywara {
282364ad245SAndre Przywara uint64_t reg = fdt32_to_cpu(prop[0]);
283364ad245SAndre Przywara
284364ad245SAndre Przywara if (nr_cells > 1) {
285364ad245SAndre Przywara reg = (reg << 32) | fdt32_to_cpu(prop[1]);
286364ad245SAndre Przywara }
287364ad245SAndre Przywara
288364ad245SAndre Przywara return reg;
289364ad245SAndre Przywara }
290364ad245SAndre Przywara
fdt_get_reg_props_by_index(const void * dtb,int node,int index,uintptr_t * base,size_t * size)291364ad245SAndre Przywara int fdt_get_reg_props_by_index(const void *dtb, int node, int index,
292364ad245SAndre Przywara uintptr_t *base, size_t *size)
293364ad245SAndre Przywara {
294364ad245SAndre Przywara const fdt32_t *prop;
295364ad245SAndre Przywara int parent, len;
296364ad245SAndre Przywara int ac, sc;
297364ad245SAndre Przywara int cell;
298364ad245SAndre Przywara
299364ad245SAndre Przywara parent = fdt_parent_offset(dtb, node);
300364ad245SAndre Przywara if (parent < 0) {
301364ad245SAndre Przywara return -FDT_ERR_BADOFFSET;
302364ad245SAndre Przywara }
303364ad245SAndre Przywara
304364ad245SAndre Przywara ac = fdt_address_cells(dtb, parent);
305364ad245SAndre Przywara sc = fdt_size_cells(dtb, parent);
306364ad245SAndre Przywara
307364ad245SAndre Przywara cell = index * (ac + sc);
308364ad245SAndre Przywara
309364ad245SAndre Przywara prop = fdt_getprop(dtb, node, "reg", &len);
310364ad245SAndre Przywara if (prop == NULL) {
311364ad245SAndre Przywara WARN("Couldn't find \"reg\" property in dtb\n");
312364ad245SAndre Przywara return -FDT_ERR_NOTFOUND;
313364ad245SAndre Przywara }
314364ad245SAndre Przywara
315364ad245SAndre Przywara if (((cell + ac + sc) * (int)sizeof(uint32_t)) > len) {
316364ad245SAndre Przywara return -FDT_ERR_BADVALUE;
317364ad245SAndre Przywara }
318364ad245SAndre Przywara
319364ad245SAndre Przywara if (base != NULL) {
320364ad245SAndre Przywara *base = (uintptr_t)fdt_read_prop_cells(&prop[cell], ac);
321364ad245SAndre Przywara }
322364ad245SAndre Przywara
323364ad245SAndre Przywara if (size != NULL) {
324364ad245SAndre Przywara *size = (size_t)fdt_read_prop_cells(&prop[cell + ac], sc);
325364ad245SAndre Przywara }
326364ad245SAndre Przywara
327364ad245SAndre Przywara return 0;
328364ad245SAndre Przywara }
3297ad6d362SAndre Przywara
3307ad6d362SAndre Przywara /*******************************************************************************
3317ad6d362SAndre Przywara * This function fills reg node info (base & size) with an index found by
3327ad6d362SAndre Przywara * checking the reg-names node.
3337ad6d362SAndre Przywara * Returns 0 on success and a negative FDT error code on failure.
3347ad6d362SAndre Przywara ******************************************************************************/
fdt_get_reg_props_by_name(const void * dtb,int node,const char * name,uintptr_t * base,size_t * size)3357ad6d362SAndre Przywara int fdt_get_reg_props_by_name(const void *dtb, int node, const char *name,
3367ad6d362SAndre Przywara uintptr_t *base, size_t *size)
3377ad6d362SAndre Przywara {
3387ad6d362SAndre Przywara int index;
3397ad6d362SAndre Przywara
3407ad6d362SAndre Przywara index = fdt_stringlist_search(dtb, node, "reg-names", name);
3417ad6d362SAndre Przywara if (index < 0) {
3427ad6d362SAndre Przywara return index;
3437ad6d362SAndre Przywara }
3447ad6d362SAndre Przywara
3457ad6d362SAndre Przywara return fdt_get_reg_props_by_index(dtb, node, index, base, size);
3467ad6d362SAndre Przywara }
34760e2e27dSAndre Przywara
34860e2e27dSAndre Przywara /*******************************************************************************
34960e2e27dSAndre Przywara * This function gets the stdout path node.
35060e2e27dSAndre Przywara * It reads the value indicated inside the device tree.
35160e2e27dSAndre Przywara * Returns node offset on success and a negative FDT error code on failure.
35260e2e27dSAndre Przywara ******************************************************************************/
fdt_get_stdout_node_offset(const void * dtb)35360e2e27dSAndre Przywara int fdt_get_stdout_node_offset(const void *dtb)
35460e2e27dSAndre Przywara {
35560e2e27dSAndre Przywara int node;
35660e2e27dSAndre Przywara const char *prop, *path;
35760e2e27dSAndre Przywara int len;
35860e2e27dSAndre Przywara
35960e2e27dSAndre Przywara /* The /secure-chosen node takes precedence over the standard one. */
36060e2e27dSAndre Przywara node = fdt_path_offset(dtb, "/secure-chosen");
36160e2e27dSAndre Przywara if (node < 0) {
36260e2e27dSAndre Przywara node = fdt_path_offset(dtb, "/chosen");
36360e2e27dSAndre Przywara if (node < 0) {
36460e2e27dSAndre Przywara return -FDT_ERR_NOTFOUND;
36560e2e27dSAndre Przywara }
36660e2e27dSAndre Przywara }
36760e2e27dSAndre Przywara
36860e2e27dSAndre Przywara prop = fdt_getprop(dtb, node, "stdout-path", NULL);
36960e2e27dSAndre Przywara if (prop == NULL) {
37060e2e27dSAndre Przywara return -FDT_ERR_NOTFOUND;
37160e2e27dSAndre Przywara }
37260e2e27dSAndre Przywara
37360e2e27dSAndre Przywara /* Determine the actual path length, as a colon terminates the path. */
37460e2e27dSAndre Przywara path = strchr(prop, ':');
37560e2e27dSAndre Przywara if (path == NULL) {
37660e2e27dSAndre Przywara len = strlen(prop);
37760e2e27dSAndre Przywara } else {
37860e2e27dSAndre Przywara len = path - prop;
37960e2e27dSAndre Przywara }
38060e2e27dSAndre Przywara
38160e2e27dSAndre Przywara /* Aliases cannot start with a '/', so it must be the actual path. */
38260e2e27dSAndre Przywara if (prop[0] == '/') {
38360e2e27dSAndre Przywara return fdt_path_offset_namelen(dtb, prop, len);
38460e2e27dSAndre Przywara }
38560e2e27dSAndre Przywara
38660e2e27dSAndre Przywara /* Lookup the alias, as this contains the actual path. */
38760e2e27dSAndre Przywara path = fdt_get_alias_namelen(dtb, prop, len);
38860e2e27dSAndre Przywara if (path == NULL) {
38960e2e27dSAndre Przywara return -FDT_ERR_NOTFOUND;
39060e2e27dSAndre Przywara }
39160e2e27dSAndre Przywara
39260e2e27dSAndre Przywara return fdt_path_offset(dtb, path);
39360e2e27dSAndre Przywara }
394447870bfSMadhukar Pappireddy
395447870bfSMadhukar Pappireddy
396447870bfSMadhukar Pappireddy /*******************************************************************************
397447870bfSMadhukar Pappireddy * Only devices which are direct children of root node use CPU address domain.
398447870bfSMadhukar Pappireddy * All other devices use addresses that are local to the device node and cannot
399447870bfSMadhukar Pappireddy * directly used by CPU. Device tree provides an address translation mechanism
400447870bfSMadhukar Pappireddy * through "ranges" property which provides mappings from local address space to
401447870bfSMadhukar Pappireddy * parent address space. Since a device could be a child of a child node to the
402447870bfSMadhukar Pappireddy * root node, there can be more than one level of address translation needed to
403447870bfSMadhukar Pappireddy * map the device local address space to CPU address space.
404447870bfSMadhukar Pappireddy * fdtw_translate_address() API performs address translation of a local address
405447870bfSMadhukar Pappireddy * to a global address with help of various helper functions.
406447870bfSMadhukar Pappireddy ******************************************************************************/
407447870bfSMadhukar Pappireddy
fdtw_xlat_hit(const fdt32_t * value,int child_addr_size,int parent_addr_size,int range_size,uint64_t base_address,uint64_t * translated_addr)408e0c56fd7SYann Gautier static bool fdtw_xlat_hit(const fdt32_t *value, int child_addr_size,
409447870bfSMadhukar Pappireddy int parent_addr_size, int range_size, uint64_t base_address,
410447870bfSMadhukar Pappireddy uint64_t *translated_addr)
411447870bfSMadhukar Pappireddy {
412447870bfSMadhukar Pappireddy uint64_t local_address, parent_address, addr_range;
413447870bfSMadhukar Pappireddy
414447870bfSMadhukar Pappireddy local_address = fdt_read_prop_cells(value, child_addr_size);
415447870bfSMadhukar Pappireddy parent_address = fdt_read_prop_cells(value + child_addr_size,
416447870bfSMadhukar Pappireddy parent_addr_size);
417447870bfSMadhukar Pappireddy addr_range = fdt_read_prop_cells(value + child_addr_size +
418447870bfSMadhukar Pappireddy parent_addr_size,
419447870bfSMadhukar Pappireddy range_size);
4204ce3e99aSScott Branden VERBOSE("DT: Address %" PRIx64 " mapped to %" PRIx64 " with range %" PRIx64 "\n",
421447870bfSMadhukar Pappireddy local_address, parent_address, addr_range);
422447870bfSMadhukar Pappireddy
423447870bfSMadhukar Pappireddy /* Perform range check */
424447870bfSMadhukar Pappireddy if ((base_address < local_address) ||
425447870bfSMadhukar Pappireddy (base_address >= local_address + addr_range)) {
426447870bfSMadhukar Pappireddy return false;
427447870bfSMadhukar Pappireddy }
428447870bfSMadhukar Pappireddy
429447870bfSMadhukar Pappireddy /* Found hit for the addr range that needs to be translated */
430447870bfSMadhukar Pappireddy *translated_addr = parent_address + (base_address - local_address);
4314ce3e99aSScott Branden VERBOSE("DT: child address %" PRIx64 "mapped to %" PRIx64 " in parent bus\n",
432447870bfSMadhukar Pappireddy local_address, parent_address);
433447870bfSMadhukar Pappireddy return true;
434447870bfSMadhukar Pappireddy }
435447870bfSMadhukar Pappireddy
436447870bfSMadhukar Pappireddy #define ILLEGAL_ADDR ULL(~0)
437447870bfSMadhukar Pappireddy
fdtw_search_all_xlat_entries(const void * dtb,const struct fdt_property * ranges_prop,int local_bus,uint64_t base_address)438447870bfSMadhukar Pappireddy static uint64_t fdtw_search_all_xlat_entries(const void *dtb,
439447870bfSMadhukar Pappireddy const struct fdt_property *ranges_prop,
440447870bfSMadhukar Pappireddy int local_bus, uint64_t base_address)
441447870bfSMadhukar Pappireddy {
442447870bfSMadhukar Pappireddy uint64_t translated_addr;
443e0c56fd7SYann Gautier const fdt32_t *next_entry;
444447870bfSMadhukar Pappireddy int parent_bus_node, nxlat_entries, length;
445447870bfSMadhukar Pappireddy int self_addr_cells, parent_addr_cells, self_size_cells, ncells_xlat;
446447870bfSMadhukar Pappireddy
447447870bfSMadhukar Pappireddy /*
448447870bfSMadhukar Pappireddy * The number of cells in one translation entry in ranges is the sum of
449447870bfSMadhukar Pappireddy * the following values:
450447870bfSMadhukar Pappireddy * self#address-cells + parent#address-cells + self#size-cells
451447870bfSMadhukar Pappireddy * Ex: the iofpga ranges property has one translation entry with 4 cells
452447870bfSMadhukar Pappireddy * They represent iofpga#addr-cells + motherboard#addr-cells + iofpga#size-cells
453447870bfSMadhukar Pappireddy * = 1 + 2 + 1
454447870bfSMadhukar Pappireddy */
455447870bfSMadhukar Pappireddy
456447870bfSMadhukar Pappireddy parent_bus_node = fdt_parent_offset(dtb, local_bus);
457447870bfSMadhukar Pappireddy self_addr_cells = fdt_address_cells(dtb, local_bus);
458447870bfSMadhukar Pappireddy self_size_cells = fdt_size_cells(dtb, local_bus);
459447870bfSMadhukar Pappireddy parent_addr_cells = fdt_address_cells(dtb, parent_bus_node);
460447870bfSMadhukar Pappireddy
461447870bfSMadhukar Pappireddy /* Number of cells per translation entry i.e., mapping */
462447870bfSMadhukar Pappireddy ncells_xlat = self_addr_cells + parent_addr_cells + self_size_cells;
463447870bfSMadhukar Pappireddy
464447870bfSMadhukar Pappireddy assert(ncells_xlat > 0);
465447870bfSMadhukar Pappireddy
466447870bfSMadhukar Pappireddy /*
467447870bfSMadhukar Pappireddy * Find the number of translations(mappings) specified in the current
468447870bfSMadhukar Pappireddy * `ranges` property. Note that length represents number of bytes and
469447870bfSMadhukar Pappireddy * is stored in big endian mode.
470447870bfSMadhukar Pappireddy */
471447870bfSMadhukar Pappireddy length = fdt32_to_cpu(ranges_prop->len);
472447870bfSMadhukar Pappireddy nxlat_entries = (length/sizeof(uint32_t))/ncells_xlat;
473447870bfSMadhukar Pappireddy
474447870bfSMadhukar Pappireddy assert(nxlat_entries > 0);
475447870bfSMadhukar Pappireddy
476e0c56fd7SYann Gautier next_entry = (const fdt32_t *)ranges_prop->data;
477447870bfSMadhukar Pappireddy
478447870bfSMadhukar Pappireddy /* Iterate over the entries in the "ranges" */
479447870bfSMadhukar Pappireddy for (int i = 0; i < nxlat_entries; i++) {
480447870bfSMadhukar Pappireddy if (fdtw_xlat_hit(next_entry, self_addr_cells,
481447870bfSMadhukar Pappireddy parent_addr_cells, self_size_cells, base_address,
482447870bfSMadhukar Pappireddy &translated_addr)){
483447870bfSMadhukar Pappireddy return translated_addr;
484447870bfSMadhukar Pappireddy }
485447870bfSMadhukar Pappireddy next_entry = next_entry + ncells_xlat;
486447870bfSMadhukar Pappireddy }
487447870bfSMadhukar Pappireddy
4884ce3e99aSScott Branden INFO("DT: No translation found for address %" PRIx64 " in node %s\n",
489447870bfSMadhukar Pappireddy base_address, fdt_get_name(dtb, local_bus, NULL));
490447870bfSMadhukar Pappireddy return ILLEGAL_ADDR;
491447870bfSMadhukar Pappireddy }
492447870bfSMadhukar Pappireddy
493447870bfSMadhukar Pappireddy
494447870bfSMadhukar Pappireddy /*******************************************************************************
495447870bfSMadhukar Pappireddy * address mapping needs to be done recursively starting from current node to
496447870bfSMadhukar Pappireddy * root node through all intermediate parent nodes.
497447870bfSMadhukar Pappireddy * Sample device tree is shown here:
498447870bfSMadhukar Pappireddy
499447870bfSMadhukar Pappireddy smb@0,0 {
500447870bfSMadhukar Pappireddy compatible = "simple-bus";
501447870bfSMadhukar Pappireddy
502447870bfSMadhukar Pappireddy #address-cells = <2>;
503447870bfSMadhukar Pappireddy #size-cells = <1>;
504447870bfSMadhukar Pappireddy ranges = <0 0 0 0x08000000 0x04000000>,
505447870bfSMadhukar Pappireddy <1 0 0 0x14000000 0x04000000>,
506447870bfSMadhukar Pappireddy <2 0 0 0x18000000 0x04000000>,
507447870bfSMadhukar Pappireddy <3 0 0 0x1c000000 0x04000000>,
508447870bfSMadhukar Pappireddy <4 0 0 0x0c000000 0x04000000>,
509447870bfSMadhukar Pappireddy <5 0 0 0x10000000 0x04000000>;
510447870bfSMadhukar Pappireddy
511447870bfSMadhukar Pappireddy motherboard {
512447870bfSMadhukar Pappireddy arm,v2m-memory-map = "rs1";
513447870bfSMadhukar Pappireddy compatible = "arm,vexpress,v2m-p1", "simple-bus";
514447870bfSMadhukar Pappireddy #address-cells = <2>;
515447870bfSMadhukar Pappireddy #size-cells = <1>;
516447870bfSMadhukar Pappireddy ranges;
517447870bfSMadhukar Pappireddy
518447870bfSMadhukar Pappireddy iofpga@3,00000000 {
519447870bfSMadhukar Pappireddy compatible = "arm,amba-bus", "simple-bus";
520447870bfSMadhukar Pappireddy #address-cells = <1>;
521447870bfSMadhukar Pappireddy #size-cells = <1>;
522447870bfSMadhukar Pappireddy ranges = <0 3 0 0x200000>;
523447870bfSMadhukar Pappireddy v2m_serial1: uart@a0000 {
524447870bfSMadhukar Pappireddy compatible = "arm,pl011", "arm,primecell";
525447870bfSMadhukar Pappireddy reg = <0x0a0000 0x1000>;
526447870bfSMadhukar Pappireddy interrupts = <0 6 4>;
527447870bfSMadhukar Pappireddy clocks = <&v2m_clk24mhz>, <&v2m_clk24mhz>;
528447870bfSMadhukar Pappireddy clock-names = "uartclk", "apb_pclk";
529447870bfSMadhukar Pappireddy };
530447870bfSMadhukar Pappireddy };
531447870bfSMadhukar Pappireddy };
532447870bfSMadhukar Pappireddy
533447870bfSMadhukar Pappireddy * As seen above, there are 3 levels of address translations needed. An empty
534447870bfSMadhukar Pappireddy * `ranges` property denotes identity mapping (as seen in `motherboard` node).
535447870bfSMadhukar Pappireddy * Each ranges property can map a set of child addresses to parent bus. Hence
536447870bfSMadhukar Pappireddy * there can be more than 1 (translation) entry in the ranges property as seen
537447870bfSMadhukar Pappireddy * in the `smb` node which has 6 translation entries.
538447870bfSMadhukar Pappireddy ******************************************************************************/
539447870bfSMadhukar Pappireddy
540447870bfSMadhukar Pappireddy /* Recursive implementation */
fdtw_translate_address(const void * dtb,int node,uint64_t base_address)541447870bfSMadhukar Pappireddy uint64_t fdtw_translate_address(const void *dtb, int node,
542447870bfSMadhukar Pappireddy uint64_t base_address)
543447870bfSMadhukar Pappireddy {
544447870bfSMadhukar Pappireddy int length, local_bus_node;
545447870bfSMadhukar Pappireddy const char *node_name;
546447870bfSMadhukar Pappireddy uint64_t global_address;
547447870bfSMadhukar Pappireddy
548447870bfSMadhukar Pappireddy local_bus_node = fdt_parent_offset(dtb, node);
549447870bfSMadhukar Pappireddy node_name = fdt_get_name(dtb, local_bus_node, NULL);
550447870bfSMadhukar Pappireddy
551447870bfSMadhukar Pappireddy /*
552447870bfSMadhukar Pappireddy * In the example given above, starting from the leaf node:
553447870bfSMadhukar Pappireddy * uart@a000 represents the current node
554447870bfSMadhukar Pappireddy * iofpga@3,00000000 represents the local bus
555447870bfSMadhukar Pappireddy * motherboard represents the parent bus
556447870bfSMadhukar Pappireddy */
557447870bfSMadhukar Pappireddy
558447870bfSMadhukar Pappireddy /* Read the ranges property */
559447870bfSMadhukar Pappireddy const struct fdt_property *property = fdt_get_property(dtb,
560447870bfSMadhukar Pappireddy local_bus_node, "ranges", &length);
561447870bfSMadhukar Pappireddy
562447870bfSMadhukar Pappireddy if (property == NULL) {
563447870bfSMadhukar Pappireddy if (local_bus_node == 0) {
564447870bfSMadhukar Pappireddy /*
565447870bfSMadhukar Pappireddy * root node doesn't have range property as addresses
566447870bfSMadhukar Pappireddy * are in CPU address space.
567447870bfSMadhukar Pappireddy */
568447870bfSMadhukar Pappireddy return base_address;
569447870bfSMadhukar Pappireddy }
570447870bfSMadhukar Pappireddy INFO("DT: Couldn't find ranges property in node %s\n",
571447870bfSMadhukar Pappireddy node_name);
572447870bfSMadhukar Pappireddy return ILLEGAL_ADDR;
573447870bfSMadhukar Pappireddy } else if (length == 0) {
574447870bfSMadhukar Pappireddy /* empty ranges indicates identity map to parent bus */
575447870bfSMadhukar Pappireddy return fdtw_translate_address(dtb, local_bus_node, base_address);
576447870bfSMadhukar Pappireddy }
577447870bfSMadhukar Pappireddy
578447870bfSMadhukar Pappireddy VERBOSE("DT: Translation lookup in node %s at offset %d\n", node_name,
579447870bfSMadhukar Pappireddy local_bus_node);
580447870bfSMadhukar Pappireddy global_address = fdtw_search_all_xlat_entries(dtb, property,
581447870bfSMadhukar Pappireddy local_bus_node, base_address);
582447870bfSMadhukar Pappireddy
583447870bfSMadhukar Pappireddy if (global_address == ILLEGAL_ADDR) {
584447870bfSMadhukar Pappireddy return ILLEGAL_ADDR;
585447870bfSMadhukar Pappireddy }
586447870bfSMadhukar Pappireddy
587447870bfSMadhukar Pappireddy /* Translate the local device address recursively */
588447870bfSMadhukar Pappireddy return fdtw_translate_address(dtb, local_bus_node, global_address);
589447870bfSMadhukar Pappireddy }
5902d9ea360SChris Kay
5912d9ea360SChris Kay /*
5922d9ea360SChris Kay * For every CPU node (`/cpus/cpu@n`) in an FDT, execute a callback passing a
5932d9ea360SChris Kay * pointer to the FDT and the offset of the CPU node. If the return value of the
5942d9ea360SChris Kay * callback is negative, it is treated as an error and the loop is aborted. In
5952d9ea360SChris Kay * this situation, the value of the callback is returned from the function.
5962d9ea360SChris Kay *
5972d9ea360SChris Kay * Returns `0` on success, or a negative integer representing an error code.
5982d9ea360SChris Kay */
fdtw_for_each_cpu(const void * dtb,int (* callback)(const void * dtb,int node,uintptr_t mpidr))5992d9ea360SChris Kay int fdtw_for_each_cpu(const void *dtb,
6002d9ea360SChris Kay int (*callback)(const void *dtb, int node, uintptr_t mpidr))
6012d9ea360SChris Kay {
6022d9ea360SChris Kay int ret = 0;
6032d9ea360SChris Kay int parent, node = 0;
6042d9ea360SChris Kay
6052d9ea360SChris Kay parent = fdt_path_offset(dtb, "/cpus");
6062d9ea360SChris Kay if (parent < 0) {
6072d9ea360SChris Kay return parent;
6082d9ea360SChris Kay }
6092d9ea360SChris Kay
6102d9ea360SChris Kay fdt_for_each_subnode(node, dtb, parent) {
6112d9ea360SChris Kay const char *name;
6122d9ea360SChris Kay int len;
6132d9ea360SChris Kay
6142d9ea360SChris Kay uintptr_t mpidr = 0U;
6152d9ea360SChris Kay
6162d9ea360SChris Kay name = fdt_get_name(dtb, node, &len);
6172d9ea360SChris Kay if (strncmp(name, "cpu@", 4) != 0) {
6182d9ea360SChris Kay continue;
6192d9ea360SChris Kay }
6202d9ea360SChris Kay
6212d9ea360SChris Kay ret = fdt_get_reg_props_by_index(dtb, node, 0, &mpidr, NULL);
6222d9ea360SChris Kay if (ret < 0) {
6232d9ea360SChris Kay break;
6242d9ea360SChris Kay }
6252d9ea360SChris Kay
6262d9ea360SChris Kay ret = callback(dtb, node, mpidr);
6272d9ea360SChris Kay if (ret < 0) {
6282d9ea360SChris Kay break;
6292d9ea360SChris Kay }
6302d9ea360SChris Kay }
6312d9ea360SChris Kay
6322d9ea360SChris Kay return ret;
6332d9ea360SChris Kay }
634dea8ee0dSRuchika Gupta
635dea8ee0dSRuchika Gupta /*
636dea8ee0dSRuchika Gupta * Find a given node in device tree. If not present, add it.
637dea8ee0dSRuchika Gupta * Returns offset of node found/added on success, and < 0 on error.
638dea8ee0dSRuchika Gupta */
fdtw_find_or_add_subnode(void * fdt,int parentoffset,const char * name)639dea8ee0dSRuchika Gupta int fdtw_find_or_add_subnode(void *fdt, int parentoffset, const char *name)
640dea8ee0dSRuchika Gupta {
641dea8ee0dSRuchika Gupta int offset;
642dea8ee0dSRuchika Gupta
643dea8ee0dSRuchika Gupta offset = fdt_subnode_offset(fdt, parentoffset, name);
644dea8ee0dSRuchika Gupta
645dea8ee0dSRuchika Gupta if (offset == -FDT_ERR_NOTFOUND) {
646dea8ee0dSRuchika Gupta offset = fdt_add_subnode(fdt, parentoffset, name);
647dea8ee0dSRuchika Gupta }
648dea8ee0dSRuchika Gupta
649dea8ee0dSRuchika Gupta if (offset < 0) {
650dea8ee0dSRuchika Gupta ERROR("%s: %s: %s\n", __func__, name, fdt_strerror(offset));
651dea8ee0dSRuchika Gupta }
652dea8ee0dSRuchika Gupta
653dea8ee0dSRuchika Gupta return offset;
654dea8ee0dSRuchika Gupta }
655