/* SPDX-License-Identifier: Apache-2.0 OR MIT */ /* * Copyright (c) 2024 Rockchip Electronics Co., Ltd. */ #define MODULE_TAG "kmpp_obj" #include #include #include #include "mpp_env.h" #include "mpp_list.h" #include "mpp_lock.h" #include "mpp_debug.h" #include "mpp_common.h" #include "mpp_mem_pool.h" #include "mpp_trie.h" #include "mpp_cfg_io.h" #include "kmpp_obj_impl.h" #define KMPP_SHM_IOC_MAGIC 'm' #define KMPP_SHM_IOC_QUERY_INFO _IOW(KMPP_SHM_IOC_MAGIC, 1, unsigned int) #define KMPP_SHM_IOC_RELEASE_INFO _IOW(KMPP_SHM_IOC_MAGIC, 2, unsigned int) #define KMPP_SHM_IOC_GET_SHM _IOW(KMPP_SHM_IOC_MAGIC, 3, unsigned int) #define KMPP_SHM_IOC_PUT_SHM _IOW(KMPP_SHM_IOC_MAGIC, 4, unsigned int) #define KMPP_SHM_IOC_DUMP _IOW(KMPP_SHM_IOC_MAGIC, 5, unsigned int) #define OBJ_DBG_FLOW (0x00000001) #define OBJ_DBG_SHARE (0x00000002) #define OBJ_DBG_ENTRY (0x00000004) #define OBJ_DBG_HOOK (0x00000008) #define OBJ_DBG_IOCTL (0x00000010) #define OBJ_DBG_SET (0x00000040) #define OBJ_DBG_GET (0x00000080) #define obj_dbg(flag, fmt, ...) _mpp_dbg(kmpp_obj_debug, flag, fmt, ## __VA_ARGS__) #define obj_dbg_flow(fmt, ...) obj_dbg(OBJ_DBG_FLOW, fmt, ## __VA_ARGS__) #define obj_dbg_share(fmt, ...) obj_dbg(OBJ_DBG_SHARE, fmt, ## __VA_ARGS__) #define obj_dbg_entry(fmt, ...) obj_dbg(OBJ_DBG_ENTRY, fmt, ## __VA_ARGS__) #define obj_dbg_hook(fmt, ...) obj_dbg(OBJ_DBG_HOOK, fmt, ## __VA_ARGS__) #define obj_dbg_ioctl(fmt, ...) obj_dbg(OBJ_DBG_IOCTL, fmt, ## __VA_ARGS__) #define obj_dbg_set(fmt, ...) obj_dbg(OBJ_DBG_SET, fmt, ## __VA_ARGS__) #define obj_dbg_get(fmt, ...) obj_dbg(OBJ_DBG_GET, fmt, ## __VA_ARGS__) #define U64_TO_PTR(ptr) ((void *)(intptr_t)(ptr)) #define ENTRY_TO_PTR(tbl, entry) (((char *)entry) + tbl->tbl.elem_offset) #define ENTRY_TO_s32_PTR(tbl, entry) ((rk_s32 *)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_u32_PTR(tbl, entry) ((rk_u32 *)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_s64_PTR(tbl, entry) ((rk_s64 *)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_u64_PTR(tbl, entry) ((rk_u64 *)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_obj_PTR(tbl, entry) ((KmppObj *)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_ptr_PTR(tbl, entry) ((void **)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_fp_PTR(tbl, entry) ((void **)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_st_PTR(tbl, entry) ((void *)ENTRY_TO_PTR(tbl, entry)) #define ENTRY_TO_shm_PTR(tbl, entry) ((void *)ENTRY_TO_PTR(tbl, entry)) /* 32bit unsigned long pointer */ #define ELEM_FLAG_U32_POS(offset) (((offset) & (~31)) / 8) #define ELEM_FLAG_BIT_POS(offset) ((offset) & 31) #define ENTRY_TO_FLAG_PTR(e, entry) ((rk_ul *)((rk_u8 *)entry + ELEM_FLAG_U32_POS(e->tbl.flag_offset))) #define ENTRY_SET_FLAG(e, entry) \ *ENTRY_TO_FLAG_PTR(e, entry) |= 1ul << (ELEM_FLAG_BIT_POS(e->tbl.flag_offset)) #define ENTRY_CLR_FLAG(e, entry) \ *ENTRY_TO_FLAG_PTR(e, entry) &= ~(1ul << (ELEM_FLAG_BIT_POS(e->tbl.flag_offset))) #define ENTRY_TEST_FLAG(e, entry) \ (*ENTRY_TO_FLAG_PTR(e, entry) & 1ul << (ELEM_FLAG_BIT_POS(e->tbl.flag_offset))) ? 1 : 0 /* kernel object share memory get / put ioctl data */ typedef struct KmppObjIocArg_t { /* address array element count */ __u32 count; /* flag for batch operation */ __u32 flag; /* * at KMPP_SHM_IOC_GET_SHM * name_uaddr - kernel object name in userspace address * obj_sptr - kernel object userspace / kernel address of KmppShmPtr * * at KMPP_SHM_IOC_PUT_SHM * obj_sptr - kernel object userspace / kernel address of KmppShmPtr */ union { __u64 name_uaddr[0]; /* ioctl object userspace / kernel address */ KmppShmPtr obj_sptr[0]; }; } KmppObjIocArg; typedef struct KmppObjDefImpl_t { /* userspace objdef */ MppCfgObj cfg; MppMemPool pool; rk_s32 flag_max_pos; rk_s32 flag_offset; rk_s32 buf_size; KmppObjInit init; KmppObjDeinit deinit; KmppObjDump dump; /* comment data of userspace / kernel objdef */ MppTrie trie; rk_s32 index; rk_s32 ref_cnt; rk_s32 entry_size; /* properties */ rk_s32 disable_mismatch_log; const char *name; } KmppObjDefImpl; typedef struct KmppObjImpl_t { const char *name; /* class infomation link */ KmppObjDefImpl *def; /* trie for fast access */ MppTrie trie; /* malloc flag */ rk_u32 need_free; KmppShmPtr *shm; void *entry; } KmppObjImpl; typedef struct KmppObjs_t { rk_s32 fd; rk_s32 count; rk_s32 entry_offset; rk_s32 priv_offset; rk_s32 name_offset; MppTrie trie; void *root; KmppObjDefImpl defs[0]; } KmppObjs; static rk_u32 kmpp_obj_debug = 0; static KmppObjs *objs = NULL; #define get_objs(caller) \ ({ \ KmppObjs *__tmp; \ if (objs) { \ __tmp = objs; \ } else { \ obj_dbg_flow("kmpp objs srv not init at %s\n", caller); \ __tmp = NULL; \ } \ __tmp; \ }) #define get_objs_f() get_objs(__FUNCTION__) const char *strof_elem_type(ElemType type) { static const char *ELEM_TYPE_names[] = { [ELEM_TYPE_s32] = "s32", [ELEM_TYPE_u32] = "u32", [ELEM_TYPE_s64] = "s64", [ELEM_TYPE_u64] = "u64", [ELEM_TYPE_ptr] = "ptr", [ELEM_TYPE_st] = "struct", [ELEM_TYPE_shm] = "shm_ptr", [ELEM_TYPE_kobj] = "kobj", [ELEM_TYPE_kptr] = "kptr", [ELEM_TYPE_kfp] = "kfunc_ptr", [ELEM_TYPE_uobj] = "uobj", [ELEM_TYPE_uptr] = "uptr", [ELEM_TYPE_ufp] = "ufunc_ptr", }; static const char *invalid_type_str = "invalid"; if (type & (~ELEM_TYPE_BUTT)) return invalid_type_str; return ELEM_TYPE_names[type] ? ELEM_TYPE_names[type] : invalid_type_str; } #define MPP_OBJ_ACCESS_IMPL(type, base_type, log_str) \ rk_s32 kmpp_obj_impl_set_##type(KmppEntry *tbl, void *entry, base_type val) \ { \ base_type *dst = ENTRY_TO_##type##_PTR(tbl, entry); \ base_type old = dst[0]; \ dst[0] = val; \ if (!tbl->tbl.flag_offset) { \ obj_dbg_set("%p + %x set " #type " change " #log_str " -> " #log_str "\n", entry, tbl->tbl.elem_offset, old, val); \ } else { \ if (old != val) { \ obj_dbg_set("%p + %x set " #type " update " #log_str " -> " #log_str " flag %d\n", \ entry, tbl->tbl.elem_offset, old, val, tbl->tbl.flag_offset); \ ENTRY_SET_FLAG(tbl, entry); \ } else { \ obj_dbg_set("%p + %x set " #type " keep " #log_str "\n", entry, tbl->tbl.elem_offset, old); \ } \ } \ return rk_ok; \ } \ rk_s32 kmpp_obj_impl_get_##type(KmppEntry *tbl, void *entry, base_type *val) \ { \ if (tbl && tbl->tbl.elem_size) { \ base_type *src = ENTRY_TO_##type##_PTR(tbl, entry); \ obj_dbg_get("%p + %x get " #type " value " #log_str "\n", entry, tbl->tbl.elem_offset, src[0]); \ val[0] = src[0]; \ return rk_ok; \ } \ return rk_nok; \ } MPP_OBJ_ACCESS_IMPL(s32, rk_s32, % d) MPP_OBJ_ACCESS_IMPL(u32, rk_u32, % u) MPP_OBJ_ACCESS_IMPL(s64, rk_s64, % #llx) MPP_OBJ_ACCESS_IMPL(u64, rk_u64, % #llx) MPP_OBJ_ACCESS_IMPL(obj, KmppObj, % p) MPP_OBJ_ACCESS_IMPL(ptr, void *, % p) MPP_OBJ_ACCESS_IMPL(fp, void *, % p) #define MPP_OBJ_STRUCT_ACCESS_IMPL(type, base_type, log_str) \ rk_s32 kmpp_obj_impl_set_##type(KmppEntry *tbl, void *entry, base_type *val) \ { \ void *dst = ENTRY_TO_##type##_PTR(tbl, entry); \ if (!tbl->tbl.flag_offset) { \ /* simple copy */ \ obj_dbg_set("%p + %x set " #type " size %d change %p -> %p\n", entry, tbl->tbl.elem_offset, tbl->tbl.elem_size, dst, val); \ memcpy(dst, val, tbl->tbl.elem_size); \ return rk_ok; \ } \ /* copy with flag check and updata */ \ if (memcmp(dst, val, tbl->tbl.elem_size)) { \ obj_dbg_set("%p + %x set " #type " size %d update %p -> %p flag %d\n", \ entry, tbl->tbl.elem_offset, tbl->tbl.elem_size, dst, val, tbl->tbl.flag_offset); \ memcpy(dst, val, tbl->tbl.elem_size); \ ENTRY_SET_FLAG(tbl, entry); \ } else { \ obj_dbg_set("%p + %x set " #type " size %d keep %p\n", entry, tbl->tbl.elem_offset, tbl->tbl.elem_size, dst); \ } \ return rk_ok; \ } \ rk_s32 kmpp_obj_impl_get_##type(KmppEntry *tbl, void *entry, base_type *val) \ { \ if (tbl && tbl->tbl.elem_size) { \ void *src = ENTRY_TO_##type##_PTR(tbl, entry); \ obj_dbg_get("%p + %x get " #type " size %d value " #log_str "\n", entry, tbl->tbl.elem_offset, tbl->tbl.elem_size, src); \ memcpy(val, src, tbl->tbl.elem_size); \ return rk_ok; \ } \ return rk_nok; \ } MPP_OBJ_STRUCT_ACCESS_IMPL(st, void, % p) MPP_OBJ_STRUCT_ACCESS_IMPL(shm, KmppShmPtr, % p) __attribute__ ((destructor)) void kmpp_objs_deinit(void) { KmppObjs *p = MPP_FETCH_AND(&objs, NULL); obj_dbg_flow("kmpp_objs_deinit objs %p\n", p); if (p) { rk_s32 i; for (i = 0; i < p->count; i++) { KmppObjDefImpl *impl = &p->defs[i]; if (impl->trie) { mpp_trie_deinit(impl->trie); impl->trie = NULL; } } if (p->trie) { mpp_trie_deinit(p->trie); p->trie = NULL; } if (p->fd > 0) { close(p->fd); p->fd = -1; } mpp_free(p); } } __attribute__ ((constructor)) void kmpp_objs_init(void) { static const char *dev = "/dev/kmpp_objs"; KmppObjs *p = objs; void *root = NULL; MppTrie trie = NULL; MppTrieInfo *info; rk_s32 fd = -1; rk_s32 offset; rk_s32 count; rk_s32 ret; rk_s32 i; if (p) { obj_dbg_flow("objs already inited %p\n", p); kmpp_objs_deinit(); p = NULL; } mpp_env_get_u32("kmpp_obj_debug", &kmpp_obj_debug, 0); fd = open(dev, O_RDWR); if (fd < 0) { obj_dbg_flow("%s open failed ret fd %d\n", dev, fd); goto __failed; } { rk_u64 uaddr = 0; ret = ioctl(fd, KMPP_SHM_IOC_QUERY_INFO, &uaddr); if (ret < 0) { mpp_loge_f("%s ioctl failed ret %d\n", dev, ret); goto __failed; } root = (void *)(intptr_t)uaddr; obj_dbg_share("query fd %d root %p from kernel\n", fd, root); } ret = mpp_trie_init_by_root(&trie, root); if (ret || !trie) { mpp_loge_f("init trie by root failed ret %d\n", ret); goto __failed; } if (kmpp_obj_debug & OBJ_DBG_SHARE) mpp_trie_dump_f(trie); info = mpp_trie_get_info(trie, "__count"); count = info ? *(rk_s32 *)mpp_trie_info_ctx(info) : 0; p = mpp_calloc_size(KmppObjs, sizeof(KmppObjs) + sizeof(KmppObjDefImpl) * count); if (!p) { mpp_loge_f("alloc objs failed\n"); goto __failed; } p->fd = fd; p->count = count; p->trie = trie; p->root = root; info = mpp_trie_get_info(trie, "__offset"); offset = info ? *(rk_s32 *)mpp_trie_info_ctx(info) : 0; p->entry_offset = offset; info = mpp_trie_get_info(trie, "__priv"); offset = info ? *(rk_s32 *)mpp_trie_info_ctx(info) : 0; p->priv_offset = offset; info = mpp_trie_get_info(trie, "__name_offset"); offset = info ? *(rk_s32 *)mpp_trie_info_ctx(info) : 0; p->name_offset = offset; obj_dbg_share("count %d object offsets - priv %d name %d entry %d\n", count, p->priv_offset, p->name_offset, p->entry_offset); info = mpp_trie_get_info_first(trie); for (i = 0; i < count && info; i++) { KmppObjDefImpl *impl = &p->defs[i]; const char *name = mpp_trie_info_name(info); MppTrie trie_objdef = NULL; MppTrieInfo *info_objdef; offset = *(rk_s32 *)mpp_trie_info_ctx(info); ret = mpp_trie_init_by_root(&trie_objdef, root + offset); if (!trie_objdef) { mpp_loge_f("init %d:%d obj trie failed\n", count, i); break; } impl->trie = trie_objdef; info_objdef = mpp_trie_get_info(trie_objdef, "__index"); impl->index = info_objdef ? *(rk_s32 *)mpp_trie_info_ctx(info_objdef) : -1; info_objdef = mpp_trie_get_info(trie_objdef, "__size"); impl->entry_size = info_objdef ? *(rk_s32 *)mpp_trie_info_ctx(info_objdef) : 0; impl->name = name; info = mpp_trie_get_info_next(trie, info); obj_dbg_share("%2d:%2d - %s offset %d entry_size %d\n", count, i, name, offset, impl->entry_size); } objs = p; return; __failed: if (fd > 0) { close(fd); fd = -1; } if (trie) { mpp_trie_deinit(trie); trie = NULL; } } rk_s32 kmpp_objdef_put(KmppObjDef def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; rk_s32 ret = rk_nok; if (impl) { impl->ref_cnt--; if (!impl->ref_cnt) { if (impl->trie) { ret = mpp_trie_deinit(impl->trie); impl->trie = NULL; } } ret = rk_ok; } return ret; } rk_s32 kmpp_objdef_register(KmppObjDef *def, rk_s32 size, const char *name) { KmppObjDefImpl *impl = NULL; rk_s32 name_len; rk_s32 name_buf_size; char *buf; if (!def || !name || size <= 0) { mpp_loge_f("invalid param def %p size %d name %p\n", def, size, name); return rk_nok; } *def = NULL; name_len = strlen(name); name_buf_size = MPP_ALIGN(name_len + 1, sizeof(rk_s32)); impl = mpp_calloc_size(KmppObjDefImpl, sizeof(KmppObjDefImpl) + name_buf_size); if (!impl) { mpp_loge_f("alloc objdef size %d failed\n", sizeof(KmppObjDefImpl) + name_buf_size); return rk_nok; } buf = (char *)(impl + 1); memcpy(buf, name, name_len); buf[name_len] = '\0'; impl->name = buf; impl->entry_size = size; impl->buf_size = size + sizeof(KmppObjImpl); impl->ref_cnt = 1; obj_dbg_flow("kmpp_objdef_register %-16s size %d\n", name, impl, size); *def = impl; return rk_ok; } rk_s32 kmpp_objdef_unregister(KmppObjDef def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; rk_s32 ret = rk_nok; if (impl) { if (impl->cfg) { mpp_cfg_put_all(impl->cfg); impl->cfg = NULL; /* When init with MppCfgObj the trie is associated to the MppCfgObj */ impl->trie = NULL; } if (impl->trie) { ret = mpp_trie_deinit(impl->trie); impl->trie = NULL; } if (impl->pool) { mpp_mem_pool_deinit(impl->pool); impl->pool = NULL; } mpp_free(impl); ret = rk_ok; } return ret; } rk_s32 kmpp_objdef_add_cfg_root(KmppObjDef def, MppCfgObj root) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; rk_s32 ret = rk_nok; if (impl) { impl->cfg = root; impl->trie = mpp_cfg_to_trie(root); ret = rk_ok; } return ret; } rk_s32 kmpp_objdef_add_entry(KmppObjDef def, const char *name, KmppEntry *tbl) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; rk_s32 ret = rk_nok; if (!impl->trie) { if (!name) return rk_ok; mpp_trie_init(&impl->trie, impl->name); } if (impl->trie) { MppTrie trie = impl->trie; if (name) { ret = mpp_trie_add_info(trie, name, tbl, tbl ? sizeof(*tbl) : 0); if (tbl->tbl.flag_offset > impl->flag_max_pos) impl->flag_max_pos = tbl->tbl.flag_offset; obj_dbg_entry("objdef %-16s add entry %-16s flag offset %4d\n", impl->name, name, tbl->tbl.flag_offset); } else { rk_s32 old_size = impl->buf_size; /* record object impl size */ ret = mpp_trie_add_info(trie, "__index", &impl->index, sizeof(rk_s32)); ret = mpp_trie_add_info(trie, "__size", &impl->entry_size, sizeof(rk_s32)); ret |= mpp_trie_add_info(trie, NULL, NULL, 0); /* When last entry finish update and create memory pool */ if (impl->flag_max_pos) { rk_s32 flag_size = MPP_ALIGN(impl->flag_max_pos, 8) / 8; impl->flag_offset = impl->buf_size; flag_size -= impl->entry_size; flag_size = MPP_ALIGN(flag_size, 4); impl->buf_size += flag_size; } obj_dbg_entry("objdef %-16s entry size %4d buf size %4d -> %4d\n", impl->name, impl->entry_size, old_size, impl->buf_size); impl->pool = mpp_mem_pool_init(impl->buf_size); if (!impl->pool) { mpp_loge_f("get mem pool size %d failed\n", impl->buf_size); ret = rk_nok; } } } if (ret) mpp_loge("objdef %s add entry %s failed ret %d\n", impl ? impl->name : NULL, name, ret); return ret; } rk_s32 kmpp_objdef_add_init(KmppObjDef def, KmppObjInit init) { if (def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; impl->init = init; return rk_ok; } return rk_nok; } rk_s32 kmpp_objdef_add_deinit(KmppObjDef def, KmppObjDeinit deinit) { if (def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; impl->deinit = deinit; return rk_ok; } return rk_nok; } rk_s32 kmpp_objdef_add_dump(KmppObjDef def, KmppObjDump dump) { if (def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; impl->dump = dump; return rk_ok; } return rk_nok; } rk_s32 kmpp_objdef_set_prop(KmppObjDef def, const char *op, const char *prop) { if (def && op) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; if (strcmp(op, "disable_mismatch_log")) impl->disable_mismatch_log = (prop && !strcmp(prop, "yes")); return rk_ok; } return rk_nok; } rk_s32 kmpp_objdef_get(KmppObjDef *def, const char *name) { KmppObjs *p = get_objs_f(); MppTrieInfo *info = NULL; if (!def || !name) { mpp_loge_f("invalid param def %p name %p objs %p\n", def, name, p); return rk_nok; } *def = NULL; if (!p) return rk_nok; info = mpp_trie_get_info(p->trie, name); if (!info) { mpp_loge_f("failed to get objdef %s\n", name); return rk_nok; } if (p->count > 0 && info->index < (RK_U32)p->count) { KmppObjDefImpl *impl = &p->defs[info->index]; impl->ref_cnt++; *def = impl; return rk_ok; } mpp_loge_f("failed to get objdef %s index %d max %d\n", name, info->index, p->count); return rk_nok; } rk_s32 kmpp_objdef_get_entry(KmppObjDef def, const char *name, KmppEntry **tbl) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; rk_s32 ret = rk_nok; if (impl->trie) { MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); if (info) { *tbl = (KmppEntry *)mpp_trie_info_ctx(info); ret = rk_ok; } } if (ret && !impl->disable_mismatch_log) mpp_loge("objdef %s get entry %s failed ret %d\n", impl ? impl->name : NULL, name, ret); return ret; } rk_s32 kmpp_objdef_get_offset(KmppObjDef def, const char *name) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; rk_s32 offset = -1; if (impl->trie) { MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); if (info) { KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); if (tbl) offset = tbl->tbl.elem_offset; } } return offset; } rk_s32 kmpp_objdef_dump(KmppObjDef def) { if (def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; MppTrie trie = impl->trie; MppTrieInfo *info = NULL; const char *name = impl->name; RK_S32 i = 0; mpp_logi("dump objdef %-16s entry_size %d element count %d\n", name, impl->entry_size, mpp_trie_get_info_count(trie)); info = mpp_trie_get_info_first(trie); while (info) { name = mpp_trie_info_name(info); if (!strstr(name, "__")) { KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); rk_s32 idx = i++; mpp_logi("%-2d - %-16s offset %4d size %d\n", idx, name, tbl->tbl.elem_offset, tbl->tbl.elem_size); } info = mpp_trie_get_info_next(trie, info); } info = mpp_trie_get_info_first(trie); while (info) { name = mpp_trie_info_name(info); if (strstr(name, "__")) { void *p = mpp_trie_info_ctx(info); rk_s32 idx = i++; if (info->ctx_len == sizeof(RK_U32)) { mpp_logi("%-2d - %-16s val %d\n", idx, name, *(RK_U32 *)p); } else { mpp_logi("%-2d - %-16s str %s\n", idx, name, p); } } info = mpp_trie_get_info_next(trie, info); } return rk_ok; } return rk_nok; } const char *kmpp_objdef_get_name(KmppObjDef def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; return impl ? impl->name : NULL; } rk_s32 kmpp_objdef_get_entry_size(KmppObjDef def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; return impl ? impl->entry_size : 0; } MppTrie kmpp_objdef_get_trie(KmppObjDef def) { KmppObjDefImpl *impl = (KmppObjDefImpl *)def; return impl ? impl->trie : NULL; } rk_s32 kmpp_obj_get(KmppObj *obj, KmppObjDef def, const char *caller) { KmppObjs *p; KmppObjImpl *impl; KmppObjDefImpl *def_impl; KmppObjIocArg *ioc; rk_u64 uaddr; rk_s32 ret = rk_nok; if (!obj || !def) { mpp_loge_f("invalid param obj %p def %p at %s\n", obj, def, caller); return ret; } *obj = NULL; def_impl = (KmppObjDefImpl *)def; /* use buf_size to check userspace objdef or kernel objdef */ /* userspace objdef path */ if (def_impl->buf_size) { if (def_impl->pool) impl = mpp_mem_pool_get_f(caller, def_impl->pool); else impl = mpp_calloc_size(KmppObjImpl, def_impl->buf_size); if (!impl) { mpp_loge_f("malloc obj %s impl %d failed at %s\n", def_impl->name, def_impl->buf_size, caller); return ret; } impl->name = def_impl->name; impl->def = def; impl->trie = def_impl->trie; impl->need_free = 1; impl->shm = NULL; impl->entry = (void *)(impl + 1); if (def_impl->init) def_impl->init(impl->entry, impl, caller); *obj = impl; return rk_ok; } /* kernel objdef path */ p = get_objs(caller); if (!p) return ret; impl = mpp_calloc(KmppObjImpl, 1); if (!impl) { mpp_loge_f("malloc obj impl %d failed at %s\n", sizeof(KmppObjImpl), caller); return ret; } ioc = alloca(sizeof(KmppObjIocArg) + sizeof(KmppShmPtr)); ioc->count = 1; ioc->flag = 0; ioc->name_uaddr[0] = (__u64)(intptr_t)def_impl->name; ret = ioctl(p->fd, KMPP_SHM_IOC_GET_SHM, ioc); if (ret) { mpp_err("%s fd %d ioctl KMPP_SHM_IOC_GET_SHM failed at %s\n", def_impl->name, p->fd, caller); mpp_free(impl); return ret; } uaddr = ioc->obj_sptr[0].uaddr; impl->name = def_impl->name; impl->def = def; impl->trie = def_impl->trie; impl->need_free = 1; impl->shm = U64_TO_PTR(uaddr); impl->entry = U64_TO_PTR(uaddr + p->entry_offset); obj_dbg_flow("get obj %s - %p entry [u:k] %llx:%llx at %s\n", def_impl->name, impl, uaddr, ioc->obj_sptr[0].kaddr, caller); /* write userspace object address to share memory userspace private value */ *(RK_U64 *)U64_TO_PTR(uaddr + p->priv_offset) = (RK_U64)(intptr_t)impl; *obj = impl; return rk_ok; } rk_s32 kmpp_obj_get_by_name(KmppObj *obj, const char *name, const char *caller) { KmppObjs *p = get_objs(caller); MppTrieInfo *info = NULL; if (!obj || !name) { mpp_loge_f("invalid param obj %p name %p objs %p at %s\n", obj, name, p, caller); return rk_nok; } *obj = NULL; if (!p) return rk_nok; info = mpp_trie_get_info(p->trie, name); if (!info) { mpp_loge_f("failed to get objdef %s at %s\n", name, caller); return rk_nok; } if (p->count > 0 && info->index < (RK_U32)p->count) { KmppObjDefImpl *impl = &p->defs[info->index]; /* NOTE: do NOT increase ref_cnt here */ return kmpp_obj_get(obj, impl, caller); } mpp_loge_f("failed to get objdef %s index %d max %d at %s\n", name, info->index, p->count, caller); return rk_nok; } rk_s32 kmpp_obj_get_by_sptr(KmppObj *obj, KmppShmPtr *sptr, const char *caller) { KmppObjs *p = get_objs(caller); KmppObjImpl *impl; KmppObjDefImpl *def; rk_u8 *uptr = sptr ? sptr->uptr : NULL; rk_s32 ret = rk_nok; if (!obj || !sptr || !uptr) { mpp_loge_f("invalid param obj %p sptr %p uptr %p at %s\n", obj, sptr, uptr, caller); return ret; } *obj = NULL; if (!p) return ret; { rk_u32 val = *((rk_u32 *)(uptr + p->name_offset)); char *str; if (!val) { mpp_loge_f("invalid obj name offset %d at %s\n", val, caller); return ret; } str = (char *)p->root + val; kmpp_objdef_get((KmppObjDef *)&def, str); if (!def) { mpp_loge_f("failed to get objdef %p - %s at %s\n", str, str, caller); return ret; } } impl = mpp_calloc(KmppObjImpl, 1); if (!impl) { mpp_loge_f("malloc obj impl %d failed at %s\n", sizeof(KmppObjImpl), caller); return ret; } impl->name = def->name; impl->def = def; impl->trie = def->trie; impl->need_free = 1; impl->shm = (KmppShmPtr *)uptr; impl->entry = uptr + p->entry_offset; obj_dbg_flow("get obj %s - %p by sptr [u:k] %llx:%llx at %s\n", def->name, impl, sptr->uaddr, sptr->kaddr, caller); /* write userspace object address to share memory userspace private value */ *(RK_U64 *)U64_TO_PTR(sptr->uaddr + p->priv_offset) = (RK_U64)(intptr_t)impl; *obj = impl; return rk_ok; } rk_s32 kmpp_obj_put(KmppObj obj, const char *caller) { if (obj) { KmppObjImpl *impl = (KmppObjImpl *)obj; KmppObjs *p; /* use shm to check userspace objdef or kernel objdef */ /* userspace objdef path */ if (!impl->shm) { if (impl->def) { KmppObjDefImpl *def = impl->def; if (def->deinit) def->deinit(impl->entry, caller); if (def->pool) { mpp_mem_pool_put_f(caller, def->pool, impl); return rk_ok; } } mpp_free(impl); return rk_ok; } p = get_objs(caller); if (p && p->fd >= 0) { KmppObjIocArg *ioc = alloca(sizeof(KmppObjIocArg) + sizeof(KmppShmPtr)); KmppObjDefImpl *def = impl->def; rk_s32 ret; ioc->count = 1; ioc->flag = 0; ioc->obj_sptr[0].uaddr = impl->shm->uaddr; ioc->obj_sptr[0].kaddr = impl->shm->kaddr; obj_dbg_flow("put obj %s - %p entry [u:k] %llx:%llx at %s\n", def ? def->name : NULL, impl, impl->shm->uaddr, impl->shm->kaddr, caller); ret = ioctl(p->fd, KMPP_SHM_IOC_PUT_SHM, ioc); if (ret) mpp_err("ioctl KMPP_SHM_IOC_PUT_SHM failed ret %d at %s\n", ret, caller); } impl->shm = NULL; if (impl->need_free) mpp_free(impl); return rk_ok; } return rk_nok; } rk_s32 kmpp_obj_check(KmppObj obj, const char *caller) { KmppObjImpl *impl = (KmppObjImpl *)obj; if (!impl) { mpp_loge_f("from %s failed for NULL arg\n", caller); return rk_nok; } if (!impl->name || !impl->def || impl->name != impl->def->name) { mpp_loge_f("from %s failed for name check %s but %s\n", caller, impl->def ? impl->def->name : NULL, impl->name); return rk_nok; } if (!impl->entry || !impl->def->trie) { mpp_loge_f("from %s failed for entry %p and def trie %p\n", caller, impl->entry, impl->def->trie); return rk_nok; } return rk_ok; } rk_s32 kmpp_obj_ioctl(KmppObj obj, rk_s32 cmd, KmppObj in, KmppObj out, const char *caller) { KmppObjIocArg *ioc_arg; KmppObjImpl *ioc = NULL; KmppObjImpl *impl = (KmppObjImpl *)obj; rk_s32 ret; rk_s32 fd; ret = kmpp_obj_get_by_name((KmppObj *)&ioc, "KmppIoc", caller); if (ret) { mpp_loge("failed to get KmppIoc ret %d\n", ret); return rk_nok; } fd = open("/dev/kmpp_ioctl", O_RDWR); if (fd < 0) { mpp_loge("failed to open /dev/kmpp_ioctl ret %d\n", fd); return rk_nok; } ioc_arg = alloca(sizeof(KmppObjIocArg) + sizeof(KmppShmPtr)); ioc_arg->count = 1; ioc_arg->flag = 0; ioc_arg->obj_sptr[0].uaddr = ioc->shm->uaddr; ioc_arg->obj_sptr[0].kaddr = ioc->shm->kaddr; obj_dbg_ioctl("ioctl arg %p obj_sptr [u:k] %llx : %llx\n", ioc_arg, ioc_arg->obj_sptr[0].uaddr, ioc_arg->obj_sptr[0].kaddr); obj_dbg_ioctl("ioctl def %s - %d cmd %d\n", impl->def->name, impl->def->index, cmd); kmpp_obj_set_u32(ioc, "def", impl->def->index); kmpp_obj_set_u32(ioc, "cmd", cmd); kmpp_obj_set_u32(ioc, "flag", 0); kmpp_obj_set_u32(ioc, "id", 0); if (in) { KmppObjImpl *impl_in = (KmppObjImpl *)in; kmpp_obj_set_shm(ioc, "in", impl_in->shm); obj_dbg_ioctl("ioctl [u:k] in %#llx : %#llx\n", impl_in->shm->uaddr, impl_in->shm->kaddr); } if (out) { KmppObjImpl *impl_out = (KmppObjImpl *)out; kmpp_obj_set_shm(ioc, "out", impl_out->shm); obj_dbg_ioctl("ioctl [u:k] in %#llx : %#llx\n", impl_out->shm->uaddr, impl_out->shm->kaddr); } ret = ioctl(fd, 0, ioc_arg); kmpp_obj_put(ioc, caller); close(fd); return ret; } KmppShmPtr *kmpp_obj_to_shm(KmppObj obj) { KmppObjImpl *impl = (KmppObjImpl *)obj; if (!impl) { mpp_loge("invalid obj %p\n", obj); return NULL; } return impl->shm; } rk_s32 kmpp_obj_to_shm_size(KmppObj obj) { (void)obj; return sizeof(KmppShmPtr); } const char *kmpp_obj_get_name(KmppObj obj) { KmppObjImpl *impl = (KmppObjImpl *)obj; if (impl && impl->def && impl->def->name) return impl->def->name; return NULL; } void *kmpp_obj_to_entry(KmppObj obj) { KmppObjImpl *impl = (KmppObjImpl *)obj; return impl ? impl->entry : NULL; } rk_s32 kmpp_obj_to_offset(KmppObj obj, const char *name) { KmppObjImpl *impl = (KmppObjImpl *)obj; if (!impl || !name) { mpp_loge("invalid obj %p name %s\n", obj, name); return -1; } if (impl->trie) { MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); if (info) { KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); if (tbl) return tbl->tbl.elem_offset; } } mpp_loge("invalid offset for name %s\n", name); return -1; } #define MPP_OBJ_ACCESS(type, base_type) \ rk_s32 kmpp_obj_set_##type(KmppObj obj, const char *name, base_type val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl->trie) { \ MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); \ if (info) { \ KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); \ ret = kmpp_obj_impl_set_##type(tbl, impl->entry, val); \ } \ } \ if (ret) \ mpp_loge("obj %s set %s " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, name, ret); \ return ret; \ } \ rk_s32 kmpp_obj_get_##type(KmppObj obj, const char *name, base_type *val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl->trie) { \ MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); \ if (info) { \ KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); \ ret = kmpp_obj_impl_get_##type(tbl, impl->entry, val); \ } \ } \ if (ret) \ mpp_loge("obj %s get %s " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, name, ret); \ return ret; \ } MPP_OBJ_ACCESS(s32, rk_s32) MPP_OBJ_ACCESS(u32, rk_u32) MPP_OBJ_ACCESS(s64, rk_s64) MPP_OBJ_ACCESS(u64, rk_u64) MPP_OBJ_ACCESS(obj, KmppObj) MPP_OBJ_ACCESS(ptr, void *) MPP_OBJ_ACCESS(fp, void *) #define MPP_OBJ_STRUCT_ACCESS(type, base_type) \ rk_s32 kmpp_obj_set_##type(KmppObj obj, const char *name, base_type *val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl->trie) { \ MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); \ if (info) { \ KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); \ ret = kmpp_obj_impl_set_##type(tbl, impl->entry, val); \ } \ } \ if (ret) \ mpp_loge("obj %s set %s " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, name, ret); \ return ret; \ } \ rk_s32 kmpp_obj_get_##type(KmppObj obj, const char *name, base_type *val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl->trie) { \ MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); \ if (info) { \ KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); \ ret = kmpp_obj_impl_get_##type(tbl, impl->entry, val); \ } \ } \ if (ret) \ mpp_loge("obj %s get %s " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, name, ret); \ return ret; \ } MPP_OBJ_STRUCT_ACCESS(st, void) MPP_OBJ_STRUCT_ACCESS(shm, KmppShmPtr) #define MPP_OBJ_TBL_ACCESS(type, base_type) \ rk_s32 kmpp_obj_tbl_set_##type(KmppObj obj, KmppEntry *tbl, base_type val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl) \ ret = kmpp_obj_impl_set_##type(tbl, impl->entry, val); \ if (ret) \ mpp_loge("obj %s tbl %08x set " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, tbl ? tbl->val : 0, ret); \ return ret; \ } \ rk_s32 kmpp_obj_tbl_get_##type(KmppObj obj, KmppEntry *tbl, base_type *val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl) \ ret = kmpp_obj_impl_get_##type(tbl, impl->entry, val); \ if (ret) \ mpp_loge("obj %s tbl %08x get " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, tbl ? tbl->val : 0, ret); \ return ret; \ } MPP_OBJ_TBL_ACCESS(s32, rk_s32) MPP_OBJ_TBL_ACCESS(u32, rk_u32) MPP_OBJ_TBL_ACCESS(s64, rk_s64) MPP_OBJ_TBL_ACCESS(u64, rk_u64) MPP_OBJ_TBL_ACCESS(obj, KmppObj) MPP_OBJ_TBL_ACCESS(ptr, void *) MPP_OBJ_TBL_ACCESS(fp, void *) #define MPP_OBJ_STRUCT_TBL_ACCESS(type, base_type) \ rk_s32 kmpp_obj_tbl_set_##type(KmppObj obj, KmppEntry *tbl, base_type *val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl) \ ret = kmpp_obj_impl_set_##type(tbl, impl->entry, val); \ if (ret) \ mpp_loge("obj %s tbl %08x set " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, tbl ? tbl->val : 0, ret); \ return ret; \ } \ rk_s32 kmpp_obj_tbl_get_##type(KmppObj obj, KmppEntry *tbl, base_type *val) \ { \ KmppObjImpl *impl = (KmppObjImpl *)obj; \ rk_s32 ret = rk_nok; \ if (impl) \ ret = kmpp_obj_impl_get_##type(tbl, impl->entry, val); \ if (ret) \ mpp_loge("obj %s tbl %08x get " #type " failed ret %d\n", \ impl ? impl->def ? impl->def->name : NULL : NULL, tbl ? tbl->val : 0, ret); \ return ret; \ } MPP_OBJ_STRUCT_TBL_ACCESS(st, void) MPP_OBJ_STRUCT_TBL_ACCESS(shm, KmppShmPtr) rk_s32 kmpp_obj_set_shm_obj(KmppObj obj, const char *name, KmppObj val) { rk_s32 ret = rk_nok; if (!obj || !name || !val) { mpp_loge_f("obj %p set shm obj %s to %p failed invalid param\n", obj, name, val); } else { KmppShmPtr *sptr = kmpp_obj_to_shm(val); if (!sptr) { mpp_loge_f("obj %p found invalid shm ptr\n", val); } else { ret = kmpp_obj_set_shm(obj, name, sptr); } } return ret; } rk_s32 kmpp_obj_get_shm_obj(KmppObj obj, const char *name, KmppObj *val) { rk_s32 ret = rk_nok; if (!obj || !name || !val) { mpp_loge_f("obj %p get shm obj %s to %p failed invalid param\n", obj, name, val); } else { KmppObjImpl *impl = (KmppObjImpl *)obj; KmppShmPtr sptr = {0}; *val = NULL; ret = kmpp_obj_get_shm(obj, name, &sptr); if (ret || !sptr.uptr) { mpp_loge_f("obj %p get shm %s failed ret %d\n", impl, name, ret); } else { ret = kmpp_obj_get_by_sptr(val, &sptr, __FUNCTION__); } } return ret; } rk_s32 kmpp_obj_test(KmppObj obj, const char *name) { KmppObjImpl *impl = (KmppObjImpl *)obj; if (impl && impl->trie) { MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); if (info) { KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); return ENTRY_TEST_FLAG(tbl, impl->entry);; } } return 0; } rk_s32 kmpp_obj_tbl_test(KmppObj obj, KmppEntry *tbl) { KmppObjImpl *impl = (KmppObjImpl *)obj; return (impl && tbl) ? ENTRY_TEST_FLAG(tbl, impl->entry) : 0; } rk_s32 kmpp_obj_update(KmppObj dst, KmppObj src) { KmppObjImpl *dst_impl = (KmppObjImpl *)dst; KmppObjImpl *src_impl = (KmppObjImpl *)src; MppTrie trie = NULL; MppTrieInfo *info = NULL; if (kmpp_obj_check_f(src) || kmpp_obj_check_f(dst) || src_impl->def != dst_impl->def) { mpp_loge_f("obj %p update to %p failed invalid param\n", src, dst); return rk_nok; } trie = src_impl->def->trie; info = mpp_trie_get_info_first(trie); do { KmppEntry *e; if (mpp_trie_info_is_self(info)) continue; e = (KmppEntry *)mpp_trie_info_ctx(info); if (ENTRY_TEST_FLAG(e, src_impl->entry)) { rk_s32 offset = e->tbl.elem_offset; rk_s32 size = e->tbl.elem_size; memcpy(dst_impl->entry + offset, src_impl->entry + offset, size); } } while ((info = mpp_trie_get_info_next(trie, info))); return rk_ok; } rk_s32 kmpp_obj_update_entry(void *entry, KmppObj src) { KmppObjImpl *src_impl = (KmppObjImpl *)src; MppTrie trie = NULL; MppTrieInfo *info = NULL; if (kmpp_obj_check_f(src) || !entry) { mpp_loge_f("obj %p update to entry %p failed invalid param\n", src, entry); return rk_nok; } trie = src_impl->def->trie; info = mpp_trie_get_info_first(trie); do { KmppEntry *e; if (mpp_trie_info_is_self(info)) continue; e = (KmppEntry *)mpp_trie_info_ctx(info); if (ENTRY_TEST_FLAG(e, src_impl->entry)) { rk_s32 offset = e->tbl.elem_offset; rk_s32 size = e->tbl.elem_size; memcpy(entry + offset, src_impl->entry + offset, size); } } while ((info = mpp_trie_get_info_next(trie, info))); return rk_ok; } static rk_s32 kmpp_obj_impl_run(rk_s32 (*run)(void *ctx), void *ctx) { return run(ctx); } rk_s32 kmpp_obj_run(KmppObj obj, const char *name) { KmppObjImpl *impl = (KmppObjImpl *)obj; rk_s32 ret = rk_nok; if (impl->trie) { MppTrieInfo *info = mpp_trie_get_info(impl->trie, name); void *val = NULL; if (info) { KmppEntry *tbl = (KmppEntry *)mpp_trie_info_ctx(info); ret = kmpp_obj_impl_get_fp(tbl, impl->entry, &val); } if (val) ret = kmpp_obj_impl_run(val, impl->entry); } return ret; } rk_s32 kmpp_obj_udump_f(KmppObj obj, const char *caller) { KmppObjImpl *impl = (KmppObjImpl *)obj; KmppObjDefImpl *def = impl ? impl->def : NULL; MppTrie trie = NULL; MppTrieInfo *info = NULL; MppTrieInfo *next = NULL; const char *name = NULL; rk_s32 ret = rk_nok; RK_S32 i = 0; if (!impl || !def) { mpp_loge_f("invalid obj %p def %p\n", impl, def); return rk_nok; } trie = impl->trie; name = def->name; mpp_logi("dump obj %-12s - %p at %s:\n", name, impl, caller); if (def->dump) return def->dump(impl->entry); next = mpp_trie_get_info_first(trie); while (next) { KmppEntry *e; rk_s32 idx; info = next; next = mpp_trie_get_info_next(trie, info); e = (KmppEntry *)mpp_trie_info_ctx(info); name = mpp_trie_info_name(info); if (strstr(name, "__")) continue; idx = i++; switch (e->tbl.elem_type) { case ELEM_TYPE_s32 : { rk_s32 val; rk_s32 val_chk; ret = kmpp_obj_tbl_get_s32(obj, e, &val); if (!ret) mpp_logi("%-2d - %-16s s32 %#x:%d\n", idx, name, val, val); else mpp_loge("%-2d - %-16s s32 get failed\n", idx, name); kmpp_obj_get_s32(obj, name, &val_chk); if (val != val_chk) mpp_loge("%-2d - %-16s s32 check failed\n", idx, name); } break; case ELEM_TYPE_u32 : { rk_u32 val; rk_u32 val_chk; ret = kmpp_obj_tbl_get_u32(obj, e, &val); if (!ret) mpp_logi("%-2d - %-16s u32 %#x:%u\n", idx, name, val, val); else mpp_loge("%-2d - %-16s u32 get failed\n", idx, name); kmpp_obj_get_u32(obj, name, &val_chk); if (val != val_chk) mpp_loge("%-2d - %-16s u32 check failed\n", idx, name); } break; case ELEM_TYPE_s64 : { rk_s64 val; rk_s64 val_chk; ret = kmpp_obj_tbl_get_s64(obj, e, &val); if (!ret) mpp_logi("%-2d - %-16s s64 %#llx:%lld\n", idx, name, val, val); else mpp_loge("%-2d - %-16s s64 get failed\n", idx, name); kmpp_obj_get_s64(obj, name, &val_chk); if (val != val_chk) mpp_loge("%-2d - %-16s s64 check failed\n", idx, name); } break; case ELEM_TYPE_u64 : { rk_u64 val; rk_u64 val_chk; ret = kmpp_obj_tbl_get_u64(obj, e, &val); if (!ret) mpp_logi("%-2d - %-16s u64 %#llx:%llu\n", idx, name, val, val); else mpp_loge("%-2d - %-16s u64 get failed\n", idx, name); kmpp_obj_get_u64(obj, name, &val_chk); if (val != val_chk) mpp_loge("%-2d - %-16s u64 check failed\n", idx, name); } break; case ELEM_TYPE_st : { void *val_chk = mpp_malloc_size(void, e->tbl.elem_size); void *val = mpp_malloc_size(void, e->tbl.elem_size); rk_s32 data_size = e->tbl.elem_size; char logs[128]; ret = kmpp_obj_tbl_get_st(obj, e, val); if (!ret) { rk_s32 pos; rk_s32 j; mpp_logi("%-2d - %-16s st %d:%d\n", idx, name, e->tbl.elem_offset, data_size); j = 0; for (; j < data_size / 4 - 8; j += 8) { snprintf(logs, sizeof(logs) - 1, " - %02x : %#08x %#08x %#08x %#08x %#08x %#08x %#08x %#08x", j, ((RK_U32 *)val)[j + 0], ((RK_U32 *)val)[j + 1], ((RK_U32 *)val)[j + 2], ((RK_U32 *)val)[j + 3], ((RK_U32 *)val)[j + 4], ((RK_U32 *)val)[j + 5], ((RK_U32 *)val)[j + 6], ((RK_U32 *)val)[j + 7]); mpp_logi("%s\n", logs); } pos = snprintf(logs, sizeof(logs) - 1, " - %02x :", j); for (; j < data_size / 4; j++) pos += snprintf(logs + pos, sizeof(logs) - 1 - pos, " %#08x", ((RK_U32 *)val)[j]); mpp_logi("%s\n", logs); } else mpp_loge("%-2d - %-16s st get failed\n", idx, name); kmpp_obj_get_st(obj, name, val_chk); if (memcmp(val, val_chk, e->tbl.elem_size)) { mpp_loge("%-2d - %-16s st check failed\n", idx, name); mpp_loge("val %p\n", val); mpp_loge("val_chk %p\n", val_chk); } MPP_FREE(val); MPP_FREE(val_chk); } break; case ELEM_TYPE_shm : { KmppShmPtr *val_chk = mpp_malloc_size(void, e->tbl.elem_size); KmppShmPtr *val = mpp_malloc_size(void, e->tbl.elem_size); ret = kmpp_obj_tbl_get_st(obj, e, val); if (!ret) mpp_logi("%-2d - %-16s shm u%#llx:k%#llx\n", idx, name, val->uaddr, val->kaddr); else mpp_loge("%-2d - %-16s shm get failed\n", idx, name); kmpp_obj_get_st(obj, name, val_chk); if (memcmp(val, val_chk, e->tbl.elem_size)) { mpp_loge("%-2d - %-16s shm check failed\n", idx, name); mpp_loge("val %p - %#llx:%#llx\n", val, val->uaddr, val->kaddr); mpp_loge("val_chk %p - %#llx:%#llx\n", val_chk, val_chk->uaddr, val_chk->kaddr); } MPP_FREE(val); MPP_FREE(val_chk); } break; case ELEM_TYPE_uptr : { void *val; void *val_chk; ret = kmpp_obj_tbl_get_ptr(obj, e, &val); if (!ret) mpp_logi("%-2d - %-16s ptr %p\n", idx, name, val); else mpp_loge("%-2d - %-16s ptr get failed\n", idx, name); kmpp_obj_get_ptr(obj, name, &val_chk); if (val != val_chk) mpp_loge("%-2d - %-16s ptr check failed\n", idx, name); } break; case ELEM_TYPE_ufp : { void *val; void *val_chk; ret = kmpp_obj_tbl_get_fp(obj, e, &val); if (!ret) mpp_logi("%-2d - %-16s fp %p\n", idx, name, val); else mpp_loge("%-2d - %-16s fp get failed\n", idx, name); kmpp_obj_get_fp(obj, name, &val_chk); if (val != val_chk) mpp_loge("%-2d - %-16s fp check failed\n", idx, name); } break; default : { mpp_loge("%-2d - %-16s found invalid type %d\n", idx, name, e->tbl.elem_type); ret = rk_nok; } break; } } return ret ? rk_nok : rk_ok; } rk_s32 kmpp_obj_kdump_f(KmppObj obj, const char *caller) { KmppObjs *p = get_objs(caller); KmppObjImpl *impl = (KmppObjImpl *)obj; KmppObjDefImpl *def = impl ? impl->def : NULL; rk_s32 ret = rk_nok; if (!impl || !def || !p) { mpp_loge_f("invalid obj %p def %p objs %p\n", impl, def, p); return rk_nok; } mpp_logi("dump obj %-12s - %p at %s by kernel\n", def->name, impl, caller); ret = ioctl(p->fd, KMPP_SHM_IOC_DUMP, impl->shm); if (ret) mpp_err("ioctl KMPP_SHM_IOC_DUMP failed ret %d\n", ret); return ret ? rk_nok : rk_ok; }