1e5674e1fSSoby Mathew /* 2*e0c56fd7SYann Gautier * Copyright (c) 2018-2023, 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 */ 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 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 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 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 9173f1ac6cSAntonio Nino Diaz /* 920a2ab6e6SAlexei Fedorov * Read bytes from a given property of the given node. Any number of 930a2ab6e6SAlexei Fedorov * bytes of the property can be read. The fdt pointer is updated. 940a2ab6e6SAlexei Fedorov * Returns 0 on success, and -1 on error. 950a2ab6e6SAlexei Fedorov */ 960a2ab6e6SAlexei Fedorov int fdtw_read_bytes(const void *dtb, int node, const char *prop, 970a2ab6e6SAlexei Fedorov unsigned int length, void *value) 980a2ab6e6SAlexei Fedorov { 990a2ab6e6SAlexei Fedorov const void *ptr; 1000a2ab6e6SAlexei Fedorov int value_len; 1010a2ab6e6SAlexei Fedorov 1020a2ab6e6SAlexei Fedorov assert(dtb != NULL); 1030a2ab6e6SAlexei Fedorov assert(prop != NULL); 1040a2ab6e6SAlexei Fedorov assert(value != NULL); 1050a2ab6e6SAlexei Fedorov assert(node >= 0); 1060a2ab6e6SAlexei Fedorov 1070a2ab6e6SAlexei Fedorov /* Access property and obtain its length (in bytes) */ 1080a2ab6e6SAlexei Fedorov ptr = fdt_getprop_namelen(dtb, node, prop, (int)strlen(prop), 1090a2ab6e6SAlexei Fedorov &value_len); 1100a2ab6e6SAlexei Fedorov if (ptr == NULL) { 1110a2ab6e6SAlexei Fedorov WARN("Couldn't find property %s in dtb\n", prop); 1120a2ab6e6SAlexei Fedorov return -1; 1130a2ab6e6SAlexei Fedorov } 1140a2ab6e6SAlexei Fedorov 1150a2ab6e6SAlexei Fedorov /* Verify that property length is not less than number of bytes */ 1160a2ab6e6SAlexei Fedorov if ((unsigned int)value_len < length) { 1170a2ab6e6SAlexei Fedorov WARN("Property length mismatch\n"); 1180a2ab6e6SAlexei Fedorov return -1; 1190a2ab6e6SAlexei Fedorov } 1200a2ab6e6SAlexei Fedorov 1210a2ab6e6SAlexei Fedorov (void)memcpy(value, ptr, length); 1220a2ab6e6SAlexei Fedorov 1230a2ab6e6SAlexei Fedorov return 0; 1240a2ab6e6SAlexei Fedorov } 1250a2ab6e6SAlexei Fedorov 1260a2ab6e6SAlexei Fedorov /* 12727473620SAntonio Nino Diaz * Read string from a given property of the given node. Up to 'size - 1' 12827473620SAntonio Nino Diaz * characters are read, and a NUL terminator is added. Returns 0 on success, 12927473620SAntonio Nino Diaz * and -1 upon error. 13027473620SAntonio Nino Diaz */ 13127473620SAntonio Nino Diaz int fdtw_read_string(const void *dtb, int node, const char *prop, 13227473620SAntonio Nino Diaz char *str, size_t size) 13327473620SAntonio Nino Diaz { 13427473620SAntonio Nino Diaz const char *ptr; 13527473620SAntonio Nino Diaz size_t len; 13627473620SAntonio Nino Diaz 13727473620SAntonio Nino Diaz assert(dtb != NULL); 13827473620SAntonio Nino Diaz assert(node >= 0); 13927473620SAntonio Nino Diaz assert(prop != NULL); 14027473620SAntonio Nino Diaz assert(str != NULL); 14127473620SAntonio Nino Diaz assert(size > 0U); 14227473620SAntonio Nino Diaz 14327473620SAntonio Nino Diaz ptr = fdt_getprop_namelen(dtb, node, prop, (int)strlen(prop), NULL); 14427473620SAntonio Nino Diaz if (ptr == NULL) { 14527473620SAntonio Nino Diaz WARN("Couldn't find property %s in dtb\n", prop); 14627473620SAntonio Nino Diaz return -1; 14727473620SAntonio Nino Diaz } 14827473620SAntonio Nino Diaz 14927473620SAntonio Nino Diaz len = strlcpy(str, ptr, size); 15027473620SAntonio Nino Diaz if (len >= size) { 15127473620SAntonio Nino Diaz WARN("String of property %s in dtb has been truncated\n", prop); 15227473620SAntonio Nino Diaz return -1; 15327473620SAntonio Nino Diaz } 15427473620SAntonio Nino Diaz 15527473620SAntonio Nino Diaz return 0; 15627473620SAntonio Nino Diaz } 15727473620SAntonio Nino Diaz 15827473620SAntonio Nino Diaz /* 159d13dbb6fSDavid Horstmann * Read UUID from a given property of the given node. Returns 0 on success, 160d13dbb6fSDavid Horstmann * and a negative value upon error. 161d13dbb6fSDavid Horstmann */ 162d13dbb6fSDavid Horstmann int fdtw_read_uuid(const void *dtb, int node, const char *prop, 163d13dbb6fSDavid Horstmann unsigned int length, uint8_t *uuid) 164d13dbb6fSDavid Horstmann { 165d13dbb6fSDavid Horstmann /* Buffer for UUID string (plus NUL terminator) */ 166d13dbb6fSDavid Horstmann char uuid_string[UUID_STRING_LENGTH + 1U]; 167d13dbb6fSDavid Horstmann int err; 168d13dbb6fSDavid Horstmann 169d13dbb6fSDavid Horstmann assert(dtb != NULL); 170d13dbb6fSDavid Horstmann assert(prop != NULL); 171d13dbb6fSDavid Horstmann assert(uuid != NULL); 172d13dbb6fSDavid Horstmann assert(node >= 0); 173d13dbb6fSDavid Horstmann 174d13dbb6fSDavid Horstmann if (length < UUID_BYTES_LENGTH) { 175d13dbb6fSDavid Horstmann return -EINVAL; 176d13dbb6fSDavid Horstmann } 177d13dbb6fSDavid Horstmann 178d13dbb6fSDavid Horstmann err = fdtw_read_string(dtb, node, prop, uuid_string, 179d13dbb6fSDavid Horstmann UUID_STRING_LENGTH + 1U); 180d13dbb6fSDavid Horstmann if (err != 0) { 181d13dbb6fSDavid Horstmann return err; 182d13dbb6fSDavid Horstmann } 183d13dbb6fSDavid Horstmann 184d13dbb6fSDavid Horstmann if (read_uuid(uuid, uuid_string) != 0) { 185d13dbb6fSDavid Horstmann return -FDT_ERR_BADVALUE; 186d13dbb6fSDavid Horstmann } 187d13dbb6fSDavid Horstmann 188d13dbb6fSDavid Horstmann return 0; 189d13dbb6fSDavid Horstmann } 190d13dbb6fSDavid Horstmann 191d13dbb6fSDavid Horstmann /* 192e5674e1fSSoby Mathew * Write cells in place to a given property of the given node. At most 2 cells 193e5674e1fSSoby Mathew * of the property are written. Returns 0 on success, and -1 upon error. 194e5674e1fSSoby Mathew */ 195e5674e1fSSoby Mathew int fdtw_write_inplace_cells(void *dtb, int node, const char *prop, 196e5674e1fSSoby Mathew unsigned int cells, void *value) 197e5674e1fSSoby Mathew { 198e5674e1fSSoby Mathew int err, len; 199e5674e1fSSoby Mathew 200da5f2745SSoby Mathew assert(dtb != NULL); 201da5f2745SSoby Mathew assert(prop != NULL); 202da5f2745SSoby Mathew assert(value != NULL); 203e5674e1fSSoby Mathew assert(node >= 0); 204e5674e1fSSoby Mathew 205e5674e1fSSoby Mathew /* We expect either 1 or 2 cell property */ 206da5f2745SSoby Mathew assert(cells <= 2U); 207e5674e1fSSoby Mathew 208da5f2745SSoby Mathew if (cells == 2U) 209*e0c56fd7SYann Gautier *(fdt64_t *)value = cpu_to_fdt64(*(uint64_t *)value); 210e5674e1fSSoby Mathew else 211*e0c56fd7SYann Gautier *(fdt32_t *)value = cpu_to_fdt32(*(uint32_t *)value); 212e5674e1fSSoby Mathew 213da5f2745SSoby Mathew len = (int)cells * 4; 214e5674e1fSSoby Mathew 215e5674e1fSSoby Mathew /* Set property value in place */ 216e5674e1fSSoby Mathew err = fdt_setprop_inplace(dtb, node, prop, value, len); 217e5674e1fSSoby Mathew if (err != 0) { 218e5674e1fSSoby Mathew WARN("Modify property %s failed with error %d\n", prop, err); 219e5674e1fSSoby Mathew return -1; 220e5674e1fSSoby Mathew } 221e5674e1fSSoby Mathew 222e5674e1fSSoby Mathew return 0; 223e5674e1fSSoby Mathew } 2240a2ab6e6SAlexei Fedorov 2250a2ab6e6SAlexei Fedorov /* 2260a2ab6e6SAlexei Fedorov * Write bytes in place to a given property of the given node. 2270a2ab6e6SAlexei Fedorov * Any number of bytes of the property can be written. 2280a2ab6e6SAlexei Fedorov * Returns 0 on success, and < 0 on error. 2290a2ab6e6SAlexei Fedorov */ 2300a2ab6e6SAlexei Fedorov int fdtw_write_inplace_bytes(void *dtb, int node, const char *prop, 2310a2ab6e6SAlexei Fedorov unsigned int length, const void *data) 2320a2ab6e6SAlexei Fedorov { 2330a2ab6e6SAlexei Fedorov const void *ptr; 2340a2ab6e6SAlexei Fedorov int namelen, value_len, err; 2350a2ab6e6SAlexei Fedorov 2360a2ab6e6SAlexei Fedorov assert(dtb != NULL); 2370a2ab6e6SAlexei Fedorov assert(prop != NULL); 2380a2ab6e6SAlexei Fedorov assert(data != NULL); 2390a2ab6e6SAlexei Fedorov assert(node >= 0); 2400a2ab6e6SAlexei Fedorov 2410a2ab6e6SAlexei Fedorov namelen = (int)strlen(prop); 2420a2ab6e6SAlexei Fedorov 2430a2ab6e6SAlexei Fedorov /* Access property and obtain its length in bytes */ 2440a2ab6e6SAlexei Fedorov ptr = fdt_getprop_namelen(dtb, node, prop, namelen, &value_len); 2450a2ab6e6SAlexei Fedorov if (ptr == NULL) { 2460a2ab6e6SAlexei Fedorov WARN("Couldn't find property %s in dtb\n", prop); 2470a2ab6e6SAlexei Fedorov return -1; 2480a2ab6e6SAlexei Fedorov } 2490a2ab6e6SAlexei Fedorov 2500a2ab6e6SAlexei Fedorov /* Verify that property length is not less than number of bytes */ 2510a2ab6e6SAlexei Fedorov if ((unsigned int)value_len < length) { 2520a2ab6e6SAlexei Fedorov WARN("Property length mismatch\n"); 2530a2ab6e6SAlexei Fedorov return -1; 2540a2ab6e6SAlexei Fedorov } 2550a2ab6e6SAlexei Fedorov 2560a2ab6e6SAlexei Fedorov /* Set property value in place */ 2570a2ab6e6SAlexei Fedorov err = fdt_setprop_inplace_namelen_partial(dtb, node, prop, 2580a2ab6e6SAlexei Fedorov namelen, 0, 2590a2ab6e6SAlexei Fedorov data, (int)length); 2600a2ab6e6SAlexei Fedorov if (err != 0) { 2610a2ab6e6SAlexei Fedorov WARN("Set property %s failed with error %d\n", prop, err); 2620a2ab6e6SAlexei Fedorov } 2630a2ab6e6SAlexei Fedorov 2640a2ab6e6SAlexei Fedorov return err; 2650a2ab6e6SAlexei Fedorov } 266364ad245SAndre Przywara 267364ad245SAndre Przywara static uint64_t fdt_read_prop_cells(const fdt32_t *prop, int nr_cells) 268364ad245SAndre Przywara { 269364ad245SAndre Przywara uint64_t reg = fdt32_to_cpu(prop[0]); 270364ad245SAndre Przywara 271364ad245SAndre Przywara if (nr_cells > 1) { 272364ad245SAndre Przywara reg = (reg << 32) | fdt32_to_cpu(prop[1]); 273364ad245SAndre Przywara } 274364ad245SAndre Przywara 275364ad245SAndre Przywara return reg; 276364ad245SAndre Przywara } 277364ad245SAndre Przywara 278364ad245SAndre Przywara int fdt_get_reg_props_by_index(const void *dtb, int node, int index, 279364ad245SAndre Przywara uintptr_t *base, size_t *size) 280364ad245SAndre Przywara { 281364ad245SAndre Przywara const fdt32_t *prop; 282364ad245SAndre Przywara int parent, len; 283364ad245SAndre Przywara int ac, sc; 284364ad245SAndre Przywara int cell; 285364ad245SAndre Przywara 286364ad245SAndre Przywara parent = fdt_parent_offset(dtb, node); 287364ad245SAndre Przywara if (parent < 0) { 288364ad245SAndre Przywara return -FDT_ERR_BADOFFSET; 289364ad245SAndre Przywara } 290364ad245SAndre Przywara 291364ad245SAndre Przywara ac = fdt_address_cells(dtb, parent); 292364ad245SAndre Przywara sc = fdt_size_cells(dtb, parent); 293364ad245SAndre Przywara 294364ad245SAndre Przywara cell = index * (ac + sc); 295364ad245SAndre Przywara 296364ad245SAndre Przywara prop = fdt_getprop(dtb, node, "reg", &len); 297364ad245SAndre Przywara if (prop == NULL) { 298364ad245SAndre Przywara WARN("Couldn't find \"reg\" property in dtb\n"); 299364ad245SAndre Przywara return -FDT_ERR_NOTFOUND; 300364ad245SAndre Przywara } 301364ad245SAndre Przywara 302364ad245SAndre Przywara if (((cell + ac + sc) * (int)sizeof(uint32_t)) > len) { 303364ad245SAndre Przywara return -FDT_ERR_BADVALUE; 304364ad245SAndre Przywara } 305364ad245SAndre Przywara 306364ad245SAndre Przywara if (base != NULL) { 307364ad245SAndre Przywara *base = (uintptr_t)fdt_read_prop_cells(&prop[cell], ac); 308364ad245SAndre Przywara } 309364ad245SAndre Przywara 310364ad245SAndre Przywara if (size != NULL) { 311364ad245SAndre Przywara *size = (size_t)fdt_read_prop_cells(&prop[cell + ac], sc); 312364ad245SAndre Przywara } 313364ad245SAndre Przywara 314364ad245SAndre Przywara return 0; 315364ad245SAndre Przywara } 3167ad6d362SAndre Przywara 3177ad6d362SAndre Przywara /******************************************************************************* 3187ad6d362SAndre Przywara * This function fills reg node info (base & size) with an index found by 3197ad6d362SAndre Przywara * checking the reg-names node. 3207ad6d362SAndre Przywara * Returns 0 on success and a negative FDT error code on failure. 3217ad6d362SAndre Przywara ******************************************************************************/ 3227ad6d362SAndre Przywara int fdt_get_reg_props_by_name(const void *dtb, int node, const char *name, 3237ad6d362SAndre Przywara uintptr_t *base, size_t *size) 3247ad6d362SAndre Przywara { 3257ad6d362SAndre Przywara int index; 3267ad6d362SAndre Przywara 3277ad6d362SAndre Przywara index = fdt_stringlist_search(dtb, node, "reg-names", name); 3287ad6d362SAndre Przywara if (index < 0) { 3297ad6d362SAndre Przywara return index; 3307ad6d362SAndre Przywara } 3317ad6d362SAndre Przywara 3327ad6d362SAndre Przywara return fdt_get_reg_props_by_index(dtb, node, index, base, size); 3337ad6d362SAndre Przywara } 33460e2e27dSAndre Przywara 33560e2e27dSAndre Przywara /******************************************************************************* 33660e2e27dSAndre Przywara * This function gets the stdout path node. 33760e2e27dSAndre Przywara * It reads the value indicated inside the device tree. 33860e2e27dSAndre Przywara * Returns node offset on success and a negative FDT error code on failure. 33960e2e27dSAndre Przywara ******************************************************************************/ 34060e2e27dSAndre Przywara int fdt_get_stdout_node_offset(const void *dtb) 34160e2e27dSAndre Przywara { 34260e2e27dSAndre Przywara int node; 34360e2e27dSAndre Przywara const char *prop, *path; 34460e2e27dSAndre Przywara int len; 34560e2e27dSAndre Przywara 34660e2e27dSAndre Przywara /* The /secure-chosen node takes precedence over the standard one. */ 34760e2e27dSAndre Przywara node = fdt_path_offset(dtb, "/secure-chosen"); 34860e2e27dSAndre Przywara if (node < 0) { 34960e2e27dSAndre Przywara node = fdt_path_offset(dtb, "/chosen"); 35060e2e27dSAndre Przywara if (node < 0) { 35160e2e27dSAndre Przywara return -FDT_ERR_NOTFOUND; 35260e2e27dSAndre Przywara } 35360e2e27dSAndre Przywara } 35460e2e27dSAndre Przywara 35560e2e27dSAndre Przywara prop = fdt_getprop(dtb, node, "stdout-path", NULL); 35660e2e27dSAndre Przywara if (prop == NULL) { 35760e2e27dSAndre Przywara return -FDT_ERR_NOTFOUND; 35860e2e27dSAndre Przywara } 35960e2e27dSAndre Przywara 36060e2e27dSAndre Przywara /* Determine the actual path length, as a colon terminates the path. */ 36160e2e27dSAndre Przywara path = strchr(prop, ':'); 36260e2e27dSAndre Przywara if (path == NULL) { 36360e2e27dSAndre Przywara len = strlen(prop); 36460e2e27dSAndre Przywara } else { 36560e2e27dSAndre Przywara len = path - prop; 36660e2e27dSAndre Przywara } 36760e2e27dSAndre Przywara 36860e2e27dSAndre Przywara /* Aliases cannot start with a '/', so it must be the actual path. */ 36960e2e27dSAndre Przywara if (prop[0] == '/') { 37060e2e27dSAndre Przywara return fdt_path_offset_namelen(dtb, prop, len); 37160e2e27dSAndre Przywara } 37260e2e27dSAndre Przywara 37360e2e27dSAndre Przywara /* Lookup the alias, as this contains the actual path. */ 37460e2e27dSAndre Przywara path = fdt_get_alias_namelen(dtb, prop, len); 37560e2e27dSAndre Przywara if (path == NULL) { 37660e2e27dSAndre Przywara return -FDT_ERR_NOTFOUND; 37760e2e27dSAndre Przywara } 37860e2e27dSAndre Przywara 37960e2e27dSAndre Przywara return fdt_path_offset(dtb, path); 38060e2e27dSAndre Przywara } 381447870bfSMadhukar Pappireddy 382447870bfSMadhukar Pappireddy 383447870bfSMadhukar Pappireddy /******************************************************************************* 384447870bfSMadhukar Pappireddy * Only devices which are direct children of root node use CPU address domain. 385447870bfSMadhukar Pappireddy * All other devices use addresses that are local to the device node and cannot 386447870bfSMadhukar Pappireddy * directly used by CPU. Device tree provides an address translation mechanism 387447870bfSMadhukar Pappireddy * through "ranges" property which provides mappings from local address space to 388447870bfSMadhukar Pappireddy * parent address space. Since a device could be a child of a child node to the 389447870bfSMadhukar Pappireddy * root node, there can be more than one level of address translation needed to 390447870bfSMadhukar Pappireddy * map the device local address space to CPU address space. 391447870bfSMadhukar Pappireddy * fdtw_translate_address() API performs address translation of a local address 392447870bfSMadhukar Pappireddy * to a global address with help of various helper functions. 393447870bfSMadhukar Pappireddy ******************************************************************************/ 394447870bfSMadhukar Pappireddy 395*e0c56fd7SYann Gautier static bool fdtw_xlat_hit(const fdt32_t *value, int child_addr_size, 396447870bfSMadhukar Pappireddy int parent_addr_size, int range_size, uint64_t base_address, 397447870bfSMadhukar Pappireddy uint64_t *translated_addr) 398447870bfSMadhukar Pappireddy { 399447870bfSMadhukar Pappireddy uint64_t local_address, parent_address, addr_range; 400447870bfSMadhukar Pappireddy 401447870bfSMadhukar Pappireddy local_address = fdt_read_prop_cells(value, child_addr_size); 402447870bfSMadhukar Pappireddy parent_address = fdt_read_prop_cells(value + child_addr_size, 403447870bfSMadhukar Pappireddy parent_addr_size); 404447870bfSMadhukar Pappireddy addr_range = fdt_read_prop_cells(value + child_addr_size + 405447870bfSMadhukar Pappireddy parent_addr_size, 406447870bfSMadhukar Pappireddy range_size); 4074ce3e99aSScott Branden VERBOSE("DT: Address %" PRIx64 " mapped to %" PRIx64 " with range %" PRIx64 "\n", 408447870bfSMadhukar Pappireddy local_address, parent_address, addr_range); 409447870bfSMadhukar Pappireddy 410447870bfSMadhukar Pappireddy /* Perform range check */ 411447870bfSMadhukar Pappireddy if ((base_address < local_address) || 412447870bfSMadhukar Pappireddy (base_address >= local_address + addr_range)) { 413447870bfSMadhukar Pappireddy return false; 414447870bfSMadhukar Pappireddy } 415447870bfSMadhukar Pappireddy 416447870bfSMadhukar Pappireddy /* Found hit for the addr range that needs to be translated */ 417447870bfSMadhukar Pappireddy *translated_addr = parent_address + (base_address - local_address); 4184ce3e99aSScott Branden VERBOSE("DT: child address %" PRIx64 "mapped to %" PRIx64 " in parent bus\n", 419447870bfSMadhukar Pappireddy local_address, parent_address); 420447870bfSMadhukar Pappireddy return true; 421447870bfSMadhukar Pappireddy } 422447870bfSMadhukar Pappireddy 423447870bfSMadhukar Pappireddy #define ILLEGAL_ADDR ULL(~0) 424447870bfSMadhukar Pappireddy 425447870bfSMadhukar Pappireddy static uint64_t fdtw_search_all_xlat_entries(const void *dtb, 426447870bfSMadhukar Pappireddy const struct fdt_property *ranges_prop, 427447870bfSMadhukar Pappireddy int local_bus, uint64_t base_address) 428447870bfSMadhukar Pappireddy { 429447870bfSMadhukar Pappireddy uint64_t translated_addr; 430*e0c56fd7SYann Gautier const fdt32_t *next_entry; 431447870bfSMadhukar Pappireddy int parent_bus_node, nxlat_entries, length; 432447870bfSMadhukar Pappireddy int self_addr_cells, parent_addr_cells, self_size_cells, ncells_xlat; 433447870bfSMadhukar Pappireddy 434447870bfSMadhukar Pappireddy /* 435447870bfSMadhukar Pappireddy * The number of cells in one translation entry in ranges is the sum of 436447870bfSMadhukar Pappireddy * the following values: 437447870bfSMadhukar Pappireddy * self#address-cells + parent#address-cells + self#size-cells 438447870bfSMadhukar Pappireddy * Ex: the iofpga ranges property has one translation entry with 4 cells 439447870bfSMadhukar Pappireddy * They represent iofpga#addr-cells + motherboard#addr-cells + iofpga#size-cells 440447870bfSMadhukar Pappireddy * = 1 + 2 + 1 441447870bfSMadhukar Pappireddy */ 442447870bfSMadhukar Pappireddy 443447870bfSMadhukar Pappireddy parent_bus_node = fdt_parent_offset(dtb, local_bus); 444447870bfSMadhukar Pappireddy self_addr_cells = fdt_address_cells(dtb, local_bus); 445447870bfSMadhukar Pappireddy self_size_cells = fdt_size_cells(dtb, local_bus); 446447870bfSMadhukar Pappireddy parent_addr_cells = fdt_address_cells(dtb, parent_bus_node); 447447870bfSMadhukar Pappireddy 448447870bfSMadhukar Pappireddy /* Number of cells per translation entry i.e., mapping */ 449447870bfSMadhukar Pappireddy ncells_xlat = self_addr_cells + parent_addr_cells + self_size_cells; 450447870bfSMadhukar Pappireddy 451447870bfSMadhukar Pappireddy assert(ncells_xlat > 0); 452447870bfSMadhukar Pappireddy 453447870bfSMadhukar Pappireddy /* 454447870bfSMadhukar Pappireddy * Find the number of translations(mappings) specified in the current 455447870bfSMadhukar Pappireddy * `ranges` property. Note that length represents number of bytes and 456447870bfSMadhukar Pappireddy * is stored in big endian mode. 457447870bfSMadhukar Pappireddy */ 458447870bfSMadhukar Pappireddy length = fdt32_to_cpu(ranges_prop->len); 459447870bfSMadhukar Pappireddy nxlat_entries = (length/sizeof(uint32_t))/ncells_xlat; 460447870bfSMadhukar Pappireddy 461447870bfSMadhukar Pappireddy assert(nxlat_entries > 0); 462447870bfSMadhukar Pappireddy 463*e0c56fd7SYann Gautier next_entry = (const fdt32_t *)ranges_prop->data; 464447870bfSMadhukar Pappireddy 465447870bfSMadhukar Pappireddy /* Iterate over the entries in the "ranges" */ 466447870bfSMadhukar Pappireddy for (int i = 0; i < nxlat_entries; i++) { 467447870bfSMadhukar Pappireddy if (fdtw_xlat_hit(next_entry, self_addr_cells, 468447870bfSMadhukar Pappireddy parent_addr_cells, self_size_cells, base_address, 469447870bfSMadhukar Pappireddy &translated_addr)){ 470447870bfSMadhukar Pappireddy return translated_addr; 471447870bfSMadhukar Pappireddy } 472447870bfSMadhukar Pappireddy next_entry = next_entry + ncells_xlat; 473447870bfSMadhukar Pappireddy } 474447870bfSMadhukar Pappireddy 4754ce3e99aSScott Branden INFO("DT: No translation found for address %" PRIx64 " in node %s\n", 476447870bfSMadhukar Pappireddy base_address, fdt_get_name(dtb, local_bus, NULL)); 477447870bfSMadhukar Pappireddy return ILLEGAL_ADDR; 478447870bfSMadhukar Pappireddy } 479447870bfSMadhukar Pappireddy 480447870bfSMadhukar Pappireddy 481447870bfSMadhukar Pappireddy /******************************************************************************* 482447870bfSMadhukar Pappireddy * address mapping needs to be done recursively starting from current node to 483447870bfSMadhukar Pappireddy * root node through all intermediate parent nodes. 484447870bfSMadhukar Pappireddy * Sample device tree is shown here: 485447870bfSMadhukar Pappireddy 486447870bfSMadhukar Pappireddy smb@0,0 { 487447870bfSMadhukar Pappireddy compatible = "simple-bus"; 488447870bfSMadhukar Pappireddy 489447870bfSMadhukar Pappireddy #address-cells = <2>; 490447870bfSMadhukar Pappireddy #size-cells = <1>; 491447870bfSMadhukar Pappireddy ranges = <0 0 0 0x08000000 0x04000000>, 492447870bfSMadhukar Pappireddy <1 0 0 0x14000000 0x04000000>, 493447870bfSMadhukar Pappireddy <2 0 0 0x18000000 0x04000000>, 494447870bfSMadhukar Pappireddy <3 0 0 0x1c000000 0x04000000>, 495447870bfSMadhukar Pappireddy <4 0 0 0x0c000000 0x04000000>, 496447870bfSMadhukar Pappireddy <5 0 0 0x10000000 0x04000000>; 497447870bfSMadhukar Pappireddy 498447870bfSMadhukar Pappireddy motherboard { 499447870bfSMadhukar Pappireddy arm,v2m-memory-map = "rs1"; 500447870bfSMadhukar Pappireddy compatible = "arm,vexpress,v2m-p1", "simple-bus"; 501447870bfSMadhukar Pappireddy #address-cells = <2>; 502447870bfSMadhukar Pappireddy #size-cells = <1>; 503447870bfSMadhukar Pappireddy ranges; 504447870bfSMadhukar Pappireddy 505447870bfSMadhukar Pappireddy iofpga@3,00000000 { 506447870bfSMadhukar Pappireddy compatible = "arm,amba-bus", "simple-bus"; 507447870bfSMadhukar Pappireddy #address-cells = <1>; 508447870bfSMadhukar Pappireddy #size-cells = <1>; 509447870bfSMadhukar Pappireddy ranges = <0 3 0 0x200000>; 510447870bfSMadhukar Pappireddy v2m_serial1: uart@a0000 { 511447870bfSMadhukar Pappireddy compatible = "arm,pl011", "arm,primecell"; 512447870bfSMadhukar Pappireddy reg = <0x0a0000 0x1000>; 513447870bfSMadhukar Pappireddy interrupts = <0 6 4>; 514447870bfSMadhukar Pappireddy clocks = <&v2m_clk24mhz>, <&v2m_clk24mhz>; 515447870bfSMadhukar Pappireddy clock-names = "uartclk", "apb_pclk"; 516447870bfSMadhukar Pappireddy }; 517447870bfSMadhukar Pappireddy }; 518447870bfSMadhukar Pappireddy }; 519447870bfSMadhukar Pappireddy 520447870bfSMadhukar Pappireddy * As seen above, there are 3 levels of address translations needed. An empty 521447870bfSMadhukar Pappireddy * `ranges` property denotes identity mapping (as seen in `motherboard` node). 522447870bfSMadhukar Pappireddy * Each ranges property can map a set of child addresses to parent bus. Hence 523447870bfSMadhukar Pappireddy * there can be more than 1 (translation) entry in the ranges property as seen 524447870bfSMadhukar Pappireddy * in the `smb` node which has 6 translation entries. 525447870bfSMadhukar Pappireddy ******************************************************************************/ 526447870bfSMadhukar Pappireddy 527447870bfSMadhukar Pappireddy /* Recursive implementation */ 528447870bfSMadhukar Pappireddy uint64_t fdtw_translate_address(const void *dtb, int node, 529447870bfSMadhukar Pappireddy uint64_t base_address) 530447870bfSMadhukar Pappireddy { 531447870bfSMadhukar Pappireddy int length, local_bus_node; 532447870bfSMadhukar Pappireddy const char *node_name; 533447870bfSMadhukar Pappireddy uint64_t global_address; 534447870bfSMadhukar Pappireddy 535447870bfSMadhukar Pappireddy local_bus_node = fdt_parent_offset(dtb, node); 536447870bfSMadhukar Pappireddy node_name = fdt_get_name(dtb, local_bus_node, NULL); 537447870bfSMadhukar Pappireddy 538447870bfSMadhukar Pappireddy /* 539447870bfSMadhukar Pappireddy * In the example given above, starting from the leaf node: 540447870bfSMadhukar Pappireddy * uart@a000 represents the current node 541447870bfSMadhukar Pappireddy * iofpga@3,00000000 represents the local bus 542447870bfSMadhukar Pappireddy * motherboard represents the parent bus 543447870bfSMadhukar Pappireddy */ 544447870bfSMadhukar Pappireddy 545447870bfSMadhukar Pappireddy /* Read the ranges property */ 546447870bfSMadhukar Pappireddy const struct fdt_property *property = fdt_get_property(dtb, 547447870bfSMadhukar Pappireddy local_bus_node, "ranges", &length); 548447870bfSMadhukar Pappireddy 549447870bfSMadhukar Pappireddy if (property == NULL) { 550447870bfSMadhukar Pappireddy if (local_bus_node == 0) { 551447870bfSMadhukar Pappireddy /* 552447870bfSMadhukar Pappireddy * root node doesn't have range property as addresses 553447870bfSMadhukar Pappireddy * are in CPU address space. 554447870bfSMadhukar Pappireddy */ 555447870bfSMadhukar Pappireddy return base_address; 556447870bfSMadhukar Pappireddy } 557447870bfSMadhukar Pappireddy INFO("DT: Couldn't find ranges property in node %s\n", 558447870bfSMadhukar Pappireddy node_name); 559447870bfSMadhukar Pappireddy return ILLEGAL_ADDR; 560447870bfSMadhukar Pappireddy } else if (length == 0) { 561447870bfSMadhukar Pappireddy /* empty ranges indicates identity map to parent bus */ 562447870bfSMadhukar Pappireddy return fdtw_translate_address(dtb, local_bus_node, base_address); 563447870bfSMadhukar Pappireddy } 564447870bfSMadhukar Pappireddy 565447870bfSMadhukar Pappireddy VERBOSE("DT: Translation lookup in node %s at offset %d\n", node_name, 566447870bfSMadhukar Pappireddy local_bus_node); 567447870bfSMadhukar Pappireddy global_address = fdtw_search_all_xlat_entries(dtb, property, 568447870bfSMadhukar Pappireddy local_bus_node, base_address); 569447870bfSMadhukar Pappireddy 570447870bfSMadhukar Pappireddy if (global_address == ILLEGAL_ADDR) { 571447870bfSMadhukar Pappireddy return ILLEGAL_ADDR; 572447870bfSMadhukar Pappireddy } 573447870bfSMadhukar Pappireddy 574447870bfSMadhukar Pappireddy /* Translate the local device address recursively */ 575447870bfSMadhukar Pappireddy return fdtw_translate_address(dtb, local_bus_node, global_address); 576447870bfSMadhukar Pappireddy } 5772d9ea360SChris Kay 5782d9ea360SChris Kay /* 5792d9ea360SChris Kay * For every CPU node (`/cpus/cpu@n`) in an FDT, execute a callback passing a 5802d9ea360SChris Kay * pointer to the FDT and the offset of the CPU node. If the return value of the 5812d9ea360SChris Kay * callback is negative, it is treated as an error and the loop is aborted. In 5822d9ea360SChris Kay * this situation, the value of the callback is returned from the function. 5832d9ea360SChris Kay * 5842d9ea360SChris Kay * Returns `0` on success, or a negative integer representing an error code. 5852d9ea360SChris Kay */ 5862d9ea360SChris Kay int fdtw_for_each_cpu(const void *dtb, 5872d9ea360SChris Kay int (*callback)(const void *dtb, int node, uintptr_t mpidr)) 5882d9ea360SChris Kay { 5892d9ea360SChris Kay int ret = 0; 5902d9ea360SChris Kay int parent, node = 0; 5912d9ea360SChris Kay 5922d9ea360SChris Kay parent = fdt_path_offset(dtb, "/cpus"); 5932d9ea360SChris Kay if (parent < 0) { 5942d9ea360SChris Kay return parent; 5952d9ea360SChris Kay } 5962d9ea360SChris Kay 5972d9ea360SChris Kay fdt_for_each_subnode(node, dtb, parent) { 5982d9ea360SChris Kay const char *name; 5992d9ea360SChris Kay int len; 6002d9ea360SChris Kay 6012d9ea360SChris Kay uintptr_t mpidr = 0U; 6022d9ea360SChris Kay 6032d9ea360SChris Kay name = fdt_get_name(dtb, node, &len); 6042d9ea360SChris Kay if (strncmp(name, "cpu@", 4) != 0) { 6052d9ea360SChris Kay continue; 6062d9ea360SChris Kay } 6072d9ea360SChris Kay 6082d9ea360SChris Kay ret = fdt_get_reg_props_by_index(dtb, node, 0, &mpidr, NULL); 6092d9ea360SChris Kay if (ret < 0) { 6102d9ea360SChris Kay break; 6112d9ea360SChris Kay } 6122d9ea360SChris Kay 6132d9ea360SChris Kay ret = callback(dtb, node, mpidr); 6142d9ea360SChris Kay if (ret < 0) { 6152d9ea360SChris Kay break; 6162d9ea360SChris Kay } 6172d9ea360SChris Kay } 6182d9ea360SChris Kay 6192d9ea360SChris Kay return ret; 6202d9ea360SChris Kay } 621dea8ee0dSRuchika Gupta 622dea8ee0dSRuchika Gupta /* 623dea8ee0dSRuchika Gupta * Find a given node in device tree. If not present, add it. 624dea8ee0dSRuchika Gupta * Returns offset of node found/added on success, and < 0 on error. 625dea8ee0dSRuchika Gupta */ 626dea8ee0dSRuchika Gupta int fdtw_find_or_add_subnode(void *fdt, int parentoffset, const char *name) 627dea8ee0dSRuchika Gupta { 628dea8ee0dSRuchika Gupta int offset; 629dea8ee0dSRuchika Gupta 630dea8ee0dSRuchika Gupta offset = fdt_subnode_offset(fdt, parentoffset, name); 631dea8ee0dSRuchika Gupta 632dea8ee0dSRuchika Gupta if (offset == -FDT_ERR_NOTFOUND) { 633dea8ee0dSRuchika Gupta offset = fdt_add_subnode(fdt, parentoffset, name); 634dea8ee0dSRuchika Gupta } 635dea8ee0dSRuchika Gupta 636dea8ee0dSRuchika Gupta if (offset < 0) { 637dea8ee0dSRuchika Gupta ERROR("%s: %s: %s\n", __func__, name, fdt_strerror(offset)); 638dea8ee0dSRuchika Gupta } 639dea8ee0dSRuchika Gupta 640dea8ee0dSRuchika Gupta return offset; 641dea8ee0dSRuchika Gupta } 642