11bb92983SJerome Forissier /* SPDX-License-Identifier: BSD-2-Clause */ 2a4f139d7SJerome Forissier /* 3a4f139d7SJerome Forissier * Copyright (c) 2016, Linaro Limited 4a4f139d7SJerome Forissier */ 5a4f139d7SJerome Forissier 6a4f139d7SJerome Forissier #ifndef KERNEL_DT_H 7a4f139d7SJerome Forissier #define KERNEL_DT_H 8a4f139d7SJerome Forissier 9a4f139d7SJerome Forissier #include <compiler.h> 10c0cfb36cSEtienne Carriere #include <kernel/panic.h> 11a4f139d7SJerome Forissier #include <stdint.h> 12a4f139d7SJerome Forissier #include <types_ext.h> 139fe4c797SJerome Forissier #include <util.h> 149fe4c797SJerome Forissier 159fe4c797SJerome Forissier /* 1623b1daf4SPeng Fan * Bitfield to reflect status and secure-status values ("okay", "disabled" 1723b1daf4SPeng Fan * or not present) 189fe4c797SJerome Forissier */ 199fe4c797SJerome Forissier #define DT_STATUS_DISABLED 0 209fe4c797SJerome Forissier #define DT_STATUS_OK_NSEC BIT(0) 219fe4c797SJerome Forissier #define DT_STATUS_OK_SEC BIT(1) 22a4f139d7SJerome Forissier 23c0cfb36cSEtienne Carriere #define DT_INFO_INVALID_REG ((paddr_t)-1) 24*1527e616SMarek Vasut #define DT_INFO_INVALID_REG_SIZE ((ssize_t)-1) 25c0cfb36cSEtienne Carriere #define DT_INFO_INVALID_CLOCK -1 26c0cfb36cSEtienne Carriere #define DT_INFO_INVALID_RESET -1 2795cdc5e0SCedric Neveux #define DT_INFO_INVALID_INTERRUPT -1 2895cdc5e0SCedric Neveux 29c0cfb36cSEtienne Carriere /* 30c0cfb36cSEtienne Carriere * @status: Bit mask for DT_STATUS_* 31c0cfb36cSEtienne Carriere * @reg: Device register physical base address or DT_INFO_INVALID_REG 32c0cfb36cSEtienne Carriere * @clock: Device identifier (positive value) or DT_INFO_INVALID_CLOCK 33c0cfb36cSEtienne Carriere * @reset: Device reset identifier (positive value) or DT_INFO_INVALID_CLOCK 34c0cfb36cSEtienne Carriere */ 35c0cfb36cSEtienne Carriere struct dt_node_info { 36c0cfb36cSEtienne Carriere unsigned int status; 37c0cfb36cSEtienne Carriere paddr_t reg; 38c0cfb36cSEtienne Carriere int clock; 39c0cfb36cSEtienne Carriere int reset; 40c0cfb36cSEtienne Carriere }; 41c0cfb36cSEtienne Carriere 42a4f139d7SJerome Forissier #if defined(CFG_DT) 43a4f139d7SJerome Forissier 44a4f139d7SJerome Forissier /* 45a4f139d7SJerome Forissier * DT-aware drivers 46a4f139d7SJerome Forissier */ 47a4f139d7SJerome Forissier 48a4f139d7SJerome Forissier struct dt_device_match { 49a4f139d7SJerome Forissier const char *compatible; 50a4f139d7SJerome Forissier }; 51a4f139d7SJerome Forissier 52a4f139d7SJerome Forissier struct dt_driver { 53a4f139d7SJerome Forissier const char *name; 54a4f139d7SJerome Forissier const struct dt_device_match *match_table; /* null-terminated */ 55a4f139d7SJerome Forissier const void *driver; 56a4f139d7SJerome Forissier }; 57a4f139d7SJerome Forissier 58fd118772SJerome Forissier #define __dt_driver __section(".rodata.dtdrv" __SECTION_FLAGS_RODATA) 59a4f139d7SJerome Forissier 60a4f139d7SJerome Forissier /* 61a4f139d7SJerome Forissier * Find a driver that is suitable for the given DT node, that is, with 62a4f139d7SJerome Forissier * a matching "compatible" property. 63a4f139d7SJerome Forissier * 64a4f139d7SJerome Forissier * @fdt: pointer to the device tree 65a4f139d7SJerome Forissier * @offs: node offset 66a4f139d7SJerome Forissier */ 67a4f139d7SJerome Forissier const struct dt_driver *dt_find_compatible_driver(const void *fdt, int offs); 68a4f139d7SJerome Forissier 69a4f139d7SJerome Forissier const struct dt_driver *__dt_driver_start(void); 70a4f139d7SJerome Forissier 71a4f139d7SJerome Forissier const struct dt_driver *__dt_driver_end(void); 72a4f139d7SJerome Forissier 739fe4c797SJerome Forissier /* 747ba16abbSJerome Forissier * Map a device into secure or non-secure memory and return the base VA and 757ba16abbSJerome Forissier * the mapping size. The mapping is done with type MEM_AREA_IO_SEC or 767ba16abbSJerome Forissier * MEM_AREA_IO_NSEC, depending on the device status. 777ba16abbSJerome Forissier * If the mapping already exists, the function simply returns the @vbase and 787ba16abbSJerome Forissier * @size information. 797ba16abbSJerome Forissier * 807ba16abbSJerome Forissier * @offs is the offset of the node that describes the device in @fdt. 817ba16abbSJerome Forissier * @base receives the base virtual address corresponding to the base physical 827ba16abbSJerome Forissier * address of the "reg" property 837ba16abbSJerome Forissier * @size receives the size of the mapping 847ba16abbSJerome Forissier * 857ba16abbSJerome Forissier * Returns 0 on success or -1 in case of error. 867ba16abbSJerome Forissier */ 877ba16abbSJerome Forissier int dt_map_dev(const void *fdt, int offs, vaddr_t *base, size_t *size); 887ba16abbSJerome Forissier 897ba16abbSJerome Forissier /* 9050f3b323SPeng Fan * Check whether the node at @offs contains the property with propname or not. 9150f3b323SPeng Fan * 9250f3b323SPeng Fan * @offs is the offset of the node that describes the device in @fdt. 9350f3b323SPeng Fan * @propname is the property that need to check 9450f3b323SPeng Fan * 9550f3b323SPeng Fan * Returns true on success or false if no propname. 9650f3b323SPeng Fan */ 9750f3b323SPeng Fan bool dt_have_prop(const void *fdt, int offs, const char *propname); 9850f3b323SPeng Fan 9950f3b323SPeng Fan /* 10095cdc5e0SCedric Neveux * Get the DT interrupt property of the @node. In the DT an interrupt 10195cdc5e0SCedric Neveux * is defined with at least 2x32 bits detailling the interrupt number and type. 10295cdc5e0SCedric Neveux * 10395cdc5e0SCedric Neveux * @fdt reference to the Device Tree 10495cdc5e0SCedric Neveux * @node is the node offset to read 10595cdc5e0SCedric Neveux * 10695cdc5e0SCedric Neveux * Returns the interrupt number if value >= 0 10795cdc5e0SCedric Neveux * otherwise DT_INFO_INVALID_INTERRUPT 10895cdc5e0SCedric Neveux */ 10995cdc5e0SCedric Neveux int dt_get_irq(void *fdt, int node); 11095cdc5e0SCedric Neveux 11195cdc5e0SCedric Neveux /* 11295cdc5e0SCedric Neveux * Modify or add "status" property to "disabled" 11395cdc5e0SCedric Neveux * 11495cdc5e0SCedric Neveux * @fdt reference to the Device Tree 11595cdc5e0SCedric Neveux * @node is the node offset to modify 11695cdc5e0SCedric Neveux * 11795cdc5e0SCedric Neveux * Returns 0 on success or -1 on failure 11895cdc5e0SCedric Neveux */ 11995cdc5e0SCedric Neveux int dt_disable_status(void *fdt, int node); 12095cdc5e0SCedric Neveux 12195cdc5e0SCedric Neveux /* 12295cdc5e0SCedric Neveux * Force secure-status = "okay" and status="disabled" for the target node. 12395cdc5e0SCedric Neveux * 12495cdc5e0SCedric Neveux * @fdt reference to the Device Tree 12595cdc5e0SCedric Neveux * @node is the node offset to modify 12695cdc5e0SCedric Neveux * 12795cdc5e0SCedric Neveux * Returns 0 on success or -1 on failure 12895cdc5e0SCedric Neveux */ 12995cdc5e0SCedric Neveux int dt_enable_secure_status(void *fdt, int node); 13095cdc5e0SCedric Neveux 13195cdc5e0SCedric Neveux /* 1329fe4c797SJerome Forissier * FDT manipulation functions, not provided by <libfdt.h> 1339fe4c797SJerome Forissier */ 1349fe4c797SJerome Forissier 1359fe4c797SJerome Forissier /* 1369fe4c797SJerome Forissier * Return the base address for the "reg" property of the specified node or 1379fe4c797SJerome Forissier * (paddr_t)-1 in case of error 1389fe4c797SJerome Forissier */ 1399fe4c797SJerome Forissier paddr_t _fdt_reg_base_address(const void *fdt, int offs); 1409fe4c797SJerome Forissier 1419fe4c797SJerome Forissier /* 1429fe4c797SJerome Forissier * Return the reg size for the reg property of the specified node or -1 in case 1439fe4c797SJerome Forissier * of error 1449fe4c797SJerome Forissier */ 1459fe4c797SJerome Forissier ssize_t _fdt_reg_size(const void *fdt, int offs); 1469fe4c797SJerome Forissier 1479fe4c797SJerome Forissier /* 1489fe4c797SJerome Forissier * Read the status and secure-status properties into a bitfield. 1499fe4c797SJerome Forissier * @status is set to DT_STATUS_DISABLED or a combination of DT_STATUS_OK_NSEC 1509fe4c797SJerome Forissier * and DT_STATUS_OK_SEC 1512a7088ccSEtienne Carriere * Returns positive or null status value on success or -1 in case of error. 1529fe4c797SJerome Forissier */ 1539fe4c797SJerome Forissier int _fdt_get_status(const void *fdt, int offs); 1549fe4c797SJerome Forissier 155c0cfb36cSEtienne Carriere /* 156c0cfb36cSEtienne Carriere * fdt_fill_device_info - Get generic device info from a node 157c0cfb36cSEtienne Carriere * 158c0cfb36cSEtienne Carriere * This function fills the generic information from a given node. 159c0cfb36cSEtienne Carriere * Currently supports a single base register, a single clock, 160c0cfb36cSEtienne Carriere * a single reset ID line and a single interrupt ID. 161c0cfb36cSEtienne Carriere * Default DT_INFO_* macros are used when the relate property is not found. 162c0cfb36cSEtienne Carriere */ 163c0cfb36cSEtienne Carriere void _fdt_fill_device_info(void *fdt, struct dt_node_info *info, int node); 164c0cfb36cSEtienne Carriere 1659fe4c797SJerome Forissier #else /* !CFG_DT */ 166a4f139d7SJerome Forissier 167a4f139d7SJerome Forissier static inline const struct dt_driver *__dt_driver_start(void) 168a4f139d7SJerome Forissier { 169a4f139d7SJerome Forissier return NULL; 170a4f139d7SJerome Forissier } 171a4f139d7SJerome Forissier 172a4f139d7SJerome Forissier static inline const struct dt_driver *__dt_driver_end(void) 173a4f139d7SJerome Forissier { 174a4f139d7SJerome Forissier return NULL; 175a4f139d7SJerome Forissier } 176a4f139d7SJerome Forissier 177a4f139d7SJerome Forissier static inline const struct dt_driver *dt_find_compatible_driver( 178a4f139d7SJerome Forissier const void *fdt __unused, 179a4f139d7SJerome Forissier int offs __unused) 180a4f139d7SJerome Forissier { 181a4f139d7SJerome Forissier return NULL; 182a4f139d7SJerome Forissier } 183a4f139d7SJerome Forissier 1847ba16abbSJerome Forissier static inline int dt_map_dev(const void *fdt __unused, int offs __unused, 1857ba16abbSJerome Forissier vaddr_t *vbase __unused, size_t *size __unused) 1867ba16abbSJerome Forissier { 1877ba16abbSJerome Forissier return -1; 1887ba16abbSJerome Forissier } 1897ba16abbSJerome Forissier 1909fe4c797SJerome Forissier static inline paddr_t _fdt_reg_base_address(const void *fdt __unused, 1919fe4c797SJerome Forissier int offs __unused) 1929fe4c797SJerome Forissier { 1939fe4c797SJerome Forissier return (paddr_t)-1; 1949fe4c797SJerome Forissier } 1959fe4c797SJerome Forissier 1969fe4c797SJerome Forissier static inline ssize_t _fdt_reg_size(const void *fdt __unused, 1979fe4c797SJerome Forissier int offs __unused) 1989fe4c797SJerome Forissier { 1999fe4c797SJerome Forissier return -1; 2009fe4c797SJerome Forissier } 2019fe4c797SJerome Forissier 2029fe4c797SJerome Forissier static inline int _fdt_get_status(const void *fdt __unused, int offs __unused) 2039fe4c797SJerome Forissier { 2049fe4c797SJerome Forissier return -1; 2059fe4c797SJerome Forissier } 2069fe4c797SJerome Forissier 2071e866588SJerome Forissier __noreturn 208c0cfb36cSEtienne Carriere static inline void _fdt_fill_device_info(void *fdt __unused, 209c0cfb36cSEtienne Carriere struct dt_node_info *info __unused, 210c0cfb36cSEtienne Carriere int node __unused) 211c0cfb36cSEtienne Carriere { 212c0cfb36cSEtienne Carriere panic(); 213c0cfb36cSEtienne Carriere } 214a4f139d7SJerome Forissier #endif /* !CFG_DT */ 215a4f139d7SJerome Forissier 216a4f139d7SJerome Forissier #define for_each_dt_driver(drv) \ 217a4f139d7SJerome Forissier for (drv = __dt_driver_start(); drv < __dt_driver_end(); drv++) 218a4f139d7SJerome Forissier 219a4f139d7SJerome Forissier #endif /* KERNEL_DT_H */ 220