X-Git-Url: https://scm.lunaixsky.com/lunaix-os.git/blobdiff_plain/8b8f49b713d64065775fe538232f8639083601bd..b60166b327a9108b07e3069fa6568a451529ffd9:/lunaix-os/includes/lunaix/device.h diff --git a/lunaix-os/includes/lunaix/device.h b/lunaix-os/includes/lunaix/device.h index 2d9f82b..287cdad 100644 --- a/lunaix-os/includes/lunaix/device.h +++ b/lunaix-os/includes/lunaix/device.h @@ -9,44 +9,64 @@ #include #include #include +#include #include #include /** - * @brief Export a device definition + * @brief Export a device definition (i.e., device driver metadata) * */ #define EXPORT_DEVICE(id, devdef, load_order) \ export_ldga_el(devdefs, id, ptr_t, devdef); \ export_ldga_el_sfx(devdefs, id##_ldorder, ptr_t, devdef, load_order); +/** + * @brief Mark the device definition can be loaded on demand, all other loading + * options are extended from this + */ #define load_on_demand ld_ondemand -#define load_pci_probe ld_ondemand /** - * @brief Mark the device definition should be loaded automatically as earlier - * as possible in the kernel bootstrapping stage (before initialization of file - * systems). Load here if your driver is standalone and require no other than - * basic memory allocation services + * @brief Mark the device definition to be loaded as system configuration + * device. These kind of devices are defined to be the devices that talk to the + * system firmware to do config, or collecting crucial information about the + * system. For instances, ACPI, SoC components, and other **interconnection** + * buese (not USB!). Such device driver must only rely on basic memory + * management service, and must not try accessing subsystems other than the mm + * unit, for example, timer, interrupt, file-system, must not assumed exist. * */ -#define load_earlystage ld_early +#define load_sysconf ld_sysconf + +/** + * @brief Mark the device definition should be loaded as time device, for + * example a real time clock device. Such device will be loaded and managed by + * clock subsystem + */ +#define load_timedev ld_timedev /** - * @brief Mark the device definition should be loaded automatically after timer - * is ready. Load here if your driver require a basic timing service + * @brief Mark the device definition should be loaded automatically during the + * bootstrapping stage. Most of the driver do load there. * */ -#define load_timerstage ld_aftertimer +#define load_onboot ld_kboot /** * @brief Mark the device definition should be loaded automatically in - * the post boostrapping stage (i.e., the start up of proc0). Load here if your - * driver involves async mechanism + * the post boostrapping stage (i.e., the start up of proc0), where most of + * kernel sub-system are became ready to use. Do your load there if your driver + * depends on such condition * */ -#define load_poststage ld_post +#define load_postboot ld_post + +#define __foreach_exported_device_of(stage, index, pos) \ + ldga_foreach(dev_##stage, struct device_def*, index, pos) +#define foreach_exported_device_of(stage, index, pos) \ + __foreach_exported_device_of(stage, index, pos) /** * @brief Declare a device class @@ -65,44 +85,122 @@ .variant = (devvar) \ } -#define DEV_STRUCT_MAGIC 0x5645444c +#define DEV_STRUCT_MAGIC_MASK 0x56454440U +#define DEV_STRUCT 0xc +#define DEV_CAT 0xd +#define DEV_ALIAS 0xf + +#define DEV_STRUCT_MAGIC (DEV_STRUCT_MAGIC_MASK | DEV_STRUCT) +#define DEV_CAT_MAGIC (DEV_STRUCT_MAGIC_MASK | DEV_CAT) +#define DEV_ALIAS_MAGIC (DEV_STRUCT_MAGIC_MASK | DEV_ALIAS) #define DEV_MSKIF 0x00000003 #define DEV_IFVOL 0x0 // volumetric (block) device #define DEV_IFSEQ 0x1 // sequential (character) device -#define DEV_IFCAT 0x2 // a device category (as device groupping) #define DEV_IFSYS 0x3 // a system device -struct device +struct capability_meta +{ + struct llist_header caps; + unsigned int cap_type; +}; + +#define CAPABILITY_META \ + union { \ + struct capability_meta cap_meta; \ + struct { \ + struct llist_header caps; \ + unsigned int cap_type; \ + }; \ + } + +#define get_capability(cap, cap_type) \ + container_of((cap), cap_type, cap_meta) +#define cap_meta(cap) (&(cap)->cap_meta) + +typedef struct llist_header capability_list_t; + + +struct device_meta { u32_t magic; struct llist_header siblings; struct llist_header children; - struct device* parent; - mutex_t lock; + struct device_meta* parent; + struct hstr name; + + u32_t dev_uid; + + char name_val[DEVICE_NAME_SIZE]; +}; - // TODO investigate event polling +#define DEVICE_METADATA \ + union { \ + struct device_meta meta; \ + struct { \ + u32_t magic; \ + struct llist_header siblings; \ + struct llist_header children; \ + struct device_meta* parent; \ + struct hstr name; \ + \ + u32_t dev_uid; \ + \ + char name_val[DEVICE_NAME_SIZE]; \ + }; \ + } + +#define dev_meta(dev) (&(dev)->meta) +#define to_dev(dev) (container_of(dev,struct device, meta)) +#define to_catdev(dev) (container_of(dev,struct device_cat, meta)) +#define to_aliasdev(dev) (container_of(dev,struct device_alias, meta)) + +struct device_alias { + DEVICE_METADATA; + struct device_meta* alias; +}; - struct hstr name; - struct devident ident; +struct device_cat { + DEVICE_METADATA; +}; + +struct device +{ + /* -- device structing -- */ + + DEVICE_METADATA; + + capability_list_t capabilities; + + /* -- device state -- */ + + mutex_t lock; - u32_t dev_uid; int dev_type; - char name_val[DEVICE_NAME_SIZE]; + struct devident ident; void* underlay; + /* -- polling -- */ + int poll_evflags; + poll_evt_q pollers; + struct { // TODO Think about where will they fit. int (*acquire)(struct device* dev); int (*release)(struct device* dev); - int (*read)(struct device* dev, void* buf, size_t offset, size_t len); - int (*write)(struct device* dev, void* buf, size_t offset, size_t len); - int (*read_page)(struct device* dev, void* buf, size_t offset); - int (*write_page)(struct device* dev, void* buf, size_t offset); - int (*exec_cmd)(struct device* dev, u32_t req, va_list args); + int (*read)(struct device*, void*, off_t, size_t); + int (*write)(struct device*, void*, off_t, size_t); + int (*read_async)(struct device*, void*, off_t, size_t); + int (*write_async)(struct device*, void*, off_t, size_t); + + int (*read_page)(struct device*, void*, off_t); + int (*write_page)(struct device*, void*, off_t); + + int (*exec_cmd)(struct device*, u32_t, va_list); + int (*poll)(struct device*); } ops; }; @@ -115,10 +213,60 @@ struct device_def struct devclass class; + /** + * @brief Called when the driver is required to initialize itself. + * + */ int (*init)(struct device_def*); - int (*init_for)(struct device_def*, struct device*); + + /** + * @brief Called when the driver is required to bind with a device. This is + * the case for a real-hardware-oriented driver + * + */ + int (*bind)(struct device_def*, struct device*); + + /** + * @brief Called when a driver is requested to detach from the device and + * free up all it's resources + * + */ + int (*free)(struct device_def*, void* instance); }; +static inline bool must_inline +valid_device_ref(void* maybe_dev) { + if (!maybe_dev) + return false; + + unsigned int magic = ((struct device_meta*)maybe_dev)->magic; + return (magic ^ DEV_STRUCT_MAGIC_MASK) <= 0xfU; +} + +static inline bool must_inline +valid_device_subtype_ref(void* maybe_dev, unsigned int subtype) { + if (!maybe_dev) + return false; + + unsigned int magic = ((struct device_meta*)maybe_dev)->magic; + return (magic ^ DEV_STRUCT_MAGIC_MASK) == subtype; +} + +struct device* +resolve_device(void* maybe_dev); + +struct device_meta* +resolve_device_meta(void* maybe_dev); + +#define mark_device_doing_write(dev_ptr) (dev_ptr)->poll_evflags &= ~_POLLOUT +#define mark_device_done_write(dev_ptr) (dev_ptr)->poll_evflags |= _POLLOUT + +#define mark_device_doing_read(dev_ptr) (dev_ptr)->poll_evflags &= ~_POLLIN +#define mark_device_done_read(dev_ptr) (dev_ptr)->poll_evflags |= _POLLIN + +#define mark_device_hanging(dev_ptr) (dev_ptr)->poll_evflags &= ~_POLLHUP +#define mark_device_grounded(dev_ptr) (dev_ptr)->poll_evflags |= _POLLHUP + static inline u32_t device_id_from_class(struct devclass* class) { @@ -129,61 +277,64 @@ void device_scan_drivers(); void -device_setname_vargs(struct device* dev, char* fmt, va_list args); +device_setname_vargs(struct device_meta* dev, char* fmt, va_list args); void -device_setname(struct device* dev, char* fmt, ...); +device_setname(struct device_meta* dev, char* fmt, ...); void -device_register(struct device* dev, struct devclass* class, char* fmt, ...); +device_register_generic(struct device_meta* dev, struct devclass* class, char* fmt, ...); + +#define register_device(dev, class, fmt, ...) \ + device_register_generic(dev_meta(dev), class, fmt, ## __VA_ARGS__) void device_create(struct device* dev, - struct device* parent, + struct device_meta* parent, u32_t type, void* underlay); struct device* -device_alloc(struct device* parent, u32_t type, void* underlay); +device_alloc(struct device_meta* parent, u32_t type, void* underlay); -static inline struct device* -device_allocsys(struct device* parent, void* underlay) +static inline struct device* must_inline +device_allocsys(struct device_meta* parent, void* underlay) { return device_alloc(parent, DEV_IFSYS, underlay); } -static inline struct device* -device_allocseq(struct device* parent, void* underlay) +static inline struct device* must_inline +device_allocseq(struct device_meta* parent, void* underlay) { return device_alloc(parent, DEV_IFSEQ, underlay); } -static inline struct device* -device_allocvol(struct device* parent, void* underlay) +static inline struct device* must_inline +device_allocvol(struct device_meta* parent, void* underlay) { return device_alloc(parent, DEV_IFVOL, underlay); } -struct device* -device_addcat(struct device* parent, char* name_fmt, ...); +struct device_alias* +device_addalias(struct device_meta* parent, struct device_meta* aliased, char* name_fmt, ...); + +struct device_cat* +device_addcat(struct device_meta* parent, char* name_fmt, ...); void -device_remove(struct device* dev); +device_remove(struct device_meta* dev); -struct device* +struct device_meta* device_getbyid(struct llist_header* devlist, u32_t id); -struct device* -device_getbyhname(struct device* root_dev, struct hstr* name); - -struct device* -device_getbyname(struct device* root_dev, const char* name, size_t len); +struct device_meta* +device_getbyhname(struct device_meta* root_dev, struct hstr* name); -struct device* -device_getbyoffset(struct device* root_dev, int pos); +struct device_meta* +device_getbyname(struct device_meta* root_dev, const char* name, size_t len); -struct device* -device_cast(void* obj); +struct device_meta* +device_getbyoffset(struct device_meta* root_dev, int pos); struct hbucket* device_definitions_byif(int if_type); @@ -197,16 +348,32 @@ device_populate_info(struct device* dev, struct dev_info* devinfo); void device_scan_drivers(); +/*------ Capability ------*/ + +struct capability_meta* +alloc_capability(int cap, unsigned int size); + +#define new_capability(cap_type, cap_impl)\ + ((cap_impl*)alloc_capability((cap_type), sizeof(cap_impl))) + +#define new_capability_marker(cap_type)\ + (alloc_capability((cap_type), sizeof(struct capability_meta))) + +void +device_grant_capability(struct device* dev, struct capability_meta* cap); + +struct capability_meta* +device_get_capability(struct device* dev, unsigned int cap_type); /*------ Load hooks ------*/ void -device_earlystage(); +device_onboot_load(); void -device_poststage(); +device_postboot_load(); void -device_timerstage(); +device_sysconf_load(); static inline void device_lock(struct device* dev) @@ -226,4 +393,6 @@ device_locked(struct device* dev) return mutex_on_hold(&dev->lock); } +#define devprintf_expand(devident) (devident)->fn_grp, (devident)->unique + #endif /* __LUNAIX_DEVICE_H */