Use new sys tracer.

2024-05-09 09:39:07 +08:00 · 2024-05-09 09:39:07 +08:00 · a19312df24
parent 3b011500f1
commit a19312df24
12 changed files with 138 additions and 728 deletions
--- a/Ubiquitous/XiZi_AIoT/hardkernel/hardkernel_init.c
+++ b/Ubiquitous/XiZi_AIoT/hardkernel/hardkernel_init.c
@ -37,6 +37,7 @@ Modification:
 #include "assert.h"
 #include "pagetable.h"
 #include "spinlock.h"
 #define KERN_BOOT_DRIVER(n, bi, f) \
    {                              \
--- a/Ubiquitous/XiZi_AIoT/kernel_actracer/Makefile
+++ b/Ubiquitous/XiZi_AIoT/kernel_actracer/Makefile
@ -1,4 +1,4 @@
 SRC_DIR :=
-SRC_FILES := actracer.c actracer_mem_chunk.c
+SRC_FILES := actracer.c
 include $(KERNEL_ROOT)/compiler.mk
--- a/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer.c
+++ b/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer.c
@ -29,267 +29,43 @@ Modification:
 #include <stddef.h>
 #include <string.h>
 #include "trap_common.h"
 #include "assert.h"
 #include "multicores.h"
 #include "spinlock.h"
 #include "task.h"
 #include "actracer.h"
 #include "assert.h"
-#ifndef min
+static struct SysTracer sys_tracer;
-#define min(a, b) ((a) < (b) ? (a) : (b))
+static char root_name[TRACER_NODE_NAME_LEN] = "ROOT\0";
 #endif
-struct SysTracer sys_tracer;
+void _tracer_init_node(TracerNode* node, char* name, tracemeta_ac_type type, void* p_resource)
 char* tracer_space[TRACER_MEM_CHUNK_SIZE * NR_TRACER_MEM_CHUNKS];
 struct TraceTag* const RequireRootTag()
 {
-    static struct TraceTag root_trace_tag = { NULL };
+    node->type = type;
-    return &root_trace_tag;
+    node->parent = NULL;
-}
+    if (name != NULL) {
-
+        char* p_name = (char*)slab_alloc(&sys_tracer.node_name_allocator);
-static inline int namecmp(const char* s, const char* t)
+        strcpy(p_name, name);
-{
+        p_name[TRACER_NODE_NAME_LEN - 1] = '\0';
-    return strncmp(s, t, RESOURCE_NAME_SIZE);
+        node->name = p_name;
 }
 /// @brief alloc a trace meta to trace resource
 static struct TraceMeta* alloc_trace_meta()
 {
    int index = -1;
    for (uint32_t idx = 0; idx < BITS_TRACEMETA_BITMAP; idx++) {
        if (sys_tracer.trace_meta_bit_map[idx] == 0xFFFFFFFF) {
            continue;
        }
        uint32_t position = __builtin_ffs(~sys_tracer.trace_meta_bit_map[idx]) - 1;
        if (position != 31) {
            // found a free bit
            sys_tracer.trace_meta_bit_map[idx] |= (1 << (position));
            index = idx * 32 + position;
            break;
        }
    }
-
+    if (node->type == TRACER_OWNER) {
-    if (index == -1) {
+        doubleListNodeInit(&node->children_guard);
        panic("Tracer no enough TracerMeta.");
    }
    sys_tracer.trace_meta_poll[index].index = index;
    return &sys_tracer.trace_meta_poll[index];
 }
 static bool dealloc_trace_meta(struct TraceMeta* meta)
 {
    int index = meta->index;
    // clear bitmap
    uint32_t outer_index = index / 32;
    uint32_t inner_index = index % 32;
    sys_tracer.trace_meta_bit_map[outer_index] &= (uint32_t)(~(1 << inner_index));
    // clear meta
    sys_tracer.trace_meta_poll[index].type = TRACER_INVALID;
    if (index == -1) {
        panic("Tracer no enough TracerMeta.");
    }
    sys_tracer.trace_meta_poll[index].index = index;
    return &sys_tracer.trace_meta_poll[index];
 }
 static tracer_mem_chunk_idx_t trace_meta_map_mem_chunk(struct TraceMeta* const p_trace_meta, tracer_mem_chunk_idx_t mem_chunk_num)
 {
    tracer_mem_chunk_idx_t addr = 0;
    /* direct mapping */
    if (mem_chunk_num < TRACEMETA_NR_DIRECT) {
        if ((addr = p_trace_meta->addr[mem_chunk_num]) == 0) {
            p_trace_meta->addr[mem_chunk_num] = addr = tracer_mem_chunk_alloc();
        }
        return addr;
    }
    /* indirect mapping */
    mem_chunk_num -= TRACEMETA_NR_DIRECT;
    int indirect_mem_chunk_id = mem_chunk_num / NR_ADDR_PER_MEM_CHUNK;
    if (indirect_mem_chunk_id < TRACEMETA_NR_INDIRECT) {
        if ((addr = p_trace_meta->addr[TRACEMETA_NR_DIRECT + indirect_mem_chunk_id]) == 0) {
            p_trace_meta->addr[TRACEMETA_NR_DIRECT + indirect_mem_chunk_id] = addr = tracer_mem_chunk_alloc();
        }
        mem_chunk_num -= indirect_mem_chunk_id * NR_ADDR_PER_MEM_CHUNK;
    } else {
-        panic("tracer inode, bmap out of range");
+        node->p_resource = p_resource;
        // no return
    }
-
+    doubleListNodeInit(&node->list_node);
    // index mem_chunk
    struct tracer_mem_chunk* tracer_mem_chunk = tracer_mem_chunk_read(addr);
    tracer_mem_chunk_idx_t* indirect_list = (tracer_mem_chunk_idx_t*)tracer_mem_chunk->data;
    if ((addr = indirect_list[mem_chunk_num]) == 0) {
        indirect_list[mem_chunk_num] = addr = tracer_mem_chunk_alloc();
        tracer_mem_chunk_write(tracer_mem_chunk);
    }
    tracer_mem_chunk_release(tracer_mem_chunk);
    return addr;
 }
-/// @brief write trace info by trace meta
+void sys_tracer_init()
 static int trace_write_info(struct TraceMeta* const p_trace_meta, char* src, uint32_t off, uint32_t n)
 {
-    if (p_trace_meta->type == TRACER_INVALID) {
+    // set sys_tracer resource identity
-        return -1;
+    _tracer_init_node(&sys_tracer.root_node, NULL, TRACER_OWNER, NULL);
-    }
+    sys_tracer.root_node.name = root_name;
    sys_tracer.sys_tracer_tag.meta = &sys_tracer.root_node;
-    // fast path
+    // init memory allocator
-    if (off == 0 && n <= sizeof(uintptr_t)) {
+    slab_init(&sys_tracer.node_allocator, sizeof(TracerNode));
-        p_trace_meta->reserved = *(uintptr_t*)src;
+    slab_init(&sys_tracer.node_name_allocator, sizeof(char[TRACER_NODE_NAME_LEN]));
        return n;
    }
    if (UNLIKELY(off > p_trace_meta->size || off + n > VFS_FILE_MAXSIZE * TRACER_MEM_CHUNK_SIZE || off + n < off)) {
        return -1;
    }
    struct tracer_mem_chunk* tracer_mem_chunk;
    uint32_t m;
    for (uint32_t tot = 0; tot < n; tot += m, off += m, src += m) {
        tracer_mem_chunk = tracer_mem_chunk_read(trace_meta_map_mem_chunk(p_trace_meta, off / TRACER_MEM_CHUNK_SIZE));
        m = min(n - tot, TRACER_MEM_CHUNK_SIZE - off % TRACER_MEM_CHUNK_SIZE);
        memmove(tracer_mem_chunk->data + off % TRACER_MEM_CHUNK_SIZE, src, m);
        tracer_mem_chunk_write(tracer_mem_chunk);
        tracer_mem_chunk_release(tracer_mem_chunk);
    }
    if (n > 0 && off > p_trace_meta->size) {
        p_trace_meta->size = off;
    }
    return n;
 }
-/// @brief read trace info by trace meta
+static char* parse_path(char* path, char* const name)
 static int trace_read_info(struct TraceMeta* const p_trace_meta, char* dst, uint32_t off, uint32_t n)
 {
    if (p_trace_meta->type == TRACER_INVALID) {
        return -1;
    }
    if (off == 0 && n <= sizeof(uintptr_t)) {
        *(uintptr_t*)dst = p_trace_meta->reserved;
        return n;
    }
    if (UNLIKELY(off > p_trace_meta->size || off + n < off)) {
        return -1;
    }
    if (UNLIKELY(off + n > p_trace_meta->size)) {
        n = p_trace_meta->size - off;
    }
    static struct tracer_mem_chunk* tracer_mem_chunk;
    uint32_t m;
    for (uint32_t tot = 0; tot < n; tot += m, off += m, dst += m) {
        tracer_mem_chunk = tracer_mem_chunk_read(trace_meta_map_mem_chunk(p_trace_meta, off / TRACER_MEM_CHUNK_SIZE));
        m = min(n - tot, TRACER_MEM_CHUNK_SIZE - off % TRACER_MEM_CHUNK_SIZE);
        memmove(dst, tracer_mem_chunk->data + off % TRACER_MEM_CHUNK_SIZE, m);
        tracer_mem_chunk_release(tracer_mem_chunk);
    }
    return n;
 }
 static struct TraceMeta* tracer_find_meta_onestep(struct TraceMeta* const p_owner, char* name, uint32_t* poff)
 {
    struct TraceResourceEntry resource_entry;
    if (p_owner->type != TRACER_OWNER) {
        ERROR("tracer_find_meta_onestep, not a dir, index: %d\n", p_owner->index);
        return NULL;
    }
    for (uint32_t off = 0; off < p_owner->size; off += sizeof(resource_entry)) {
        if (trace_read_info(p_owner, (char*)&resource_entry, off, sizeof(resource_entry)) != sizeof(resource_entry)) {
            panic("tracer_find_meta_onestep: read trace owner's resources failed\n");
        }
        if (resource_entry.index == 0) {
            continue;
        }
        if (namecmp(name, resource_entry.name) == 0) {
            if (poff) {
                *poff = off;
            }
            uint32_t vindex = resource_entry.index;
            assert(vindex >= 0 && vindex < NR_MAX_TRACEMETA);
            return &sys_tracer.trace_meta_poll[vindex];
        }
    }
    return NULL;
 }
 // Write a new vdirectory entry (name, index) into the vdirectory dp.
 static int tracer_append_meta(struct TraceMeta* p_owner, char* name, uint32_t index)
 {
    struct TraceResourceEntry resource_entry;
    int offset = 0;
    for (offset = 0; offset < p_owner->size; offset += sizeof(resource_entry)) {
        if (trace_read_info(p_owner, (char*)&resource_entry, offset, sizeof(resource_entry)) != sizeof(resource_entry)) {
            ERROR("tracer_append_meta failed, read owner's resources failed.\n");
            return -1;
        }
        if (resource_entry.index == 0) {
            break;
        }
    }
    strncpy(resource_entry.name, name, RESOURCE_NAME_SIZE);
    resource_entry.index = index;
    if (trace_write_info(p_owner, (char*)&resource_entry, offset, sizeof(resource_entry)) != sizeof(resource_entry)) {
        ERROR("tracer_append_meta failed, append resource to owner failed.\n");
        return -1;
    }
    return 0;
 }
 static struct TraceMeta* tracer_new_meta(struct TraceMeta* p_owner, char* name, short type)
 {
    struct TraceMeta* p_trace_meta;
    // check if owner entry exists
    uint32_t offset;
    if ((p_trace_meta = tracer_find_meta_onestep(p_owner, name, &offset)) != 0) {
        LOG("create resource(trace meta) failed, %s is existed\n", name);
        return NULL;
    }
    if ((p_trace_meta = alloc_trace_meta()) == 0) {
        ERROR("create resource(trace meta) failed, cache is no free\n");
        return NULL;
    }
    p_trace_meta->type = type;
    p_trace_meta->size = 0;
    // update parent directory
    tracer_append_meta(p_owner, name, p_trace_meta->index);
    // update "." and ".." for vfs inode
    if (p_trace_meta->type == TRACER_OWNER) {
        tracer_append_meta(p_trace_meta, ".", p_trace_meta->index);
        tracer_append_meta(p_trace_meta, "..", p_owner->index);
    }
    return p_trace_meta;
 }
 static char* parse_path(char* path, char* name)
 {
    // skip extra '/'
    while (*path == '/') {
@ -307,8 +83,9 @@ static char* parse_path(char* path, char* name)
    // handle current name
    int len = path - cur_start;
-    if (len >= RESOURCE_NAME_SIZE) {
+    if (len >= TRACER_NODE_NAME_LEN) {
-        strncpy(name, cur_start, RESOURCE_NAME_SIZE);
+        strncpy(name, cur_start, TRACER_NODE_NAME_LEN);
        name[TRACER_NODE_NAME_LEN - 1] = '\0';
    } else {
        strncpy(name, cur_start, len);
        name[len] = '\0';
@ -317,216 +94,101 @@ static char* parse_path(char* path, char* name)
    return path;
 }
-static struct TraceMeta* tracer_find_meta(struct TraceMeta* const p_owner, char* path, int nameiparent, char* name)
+static TracerNode* tracer_find_node_onestep(TracerNode* const owner, const char* const name)
 {
-    struct TraceMeta* p_owner_inside = p_owner;
+    TracerNode* iter = NULL;
-    struct TraceMeta* vnp;
+    assert(owner->type == TRACER_OWNER);
-
+    DOUBLE_LIST_FOR_EACH_ENTRY(iter, &owner->children_guard, list_node)
-    /* traverse TRACER_OWNER */
+    {
-    while ((path = parse_path(path, name)) != 0) {
+        if (iter->name == NULL) {
        if (p_owner_inside->type != TRACER_OWNER) {
            return NULL;
        }
        if (nameiparent && *path == '\0') {
            return p_owner_inside;
        }
        if ((vnp = tracer_find_meta_onestep(p_owner_inside, name, NULL)) == 0) {
            DEBUG("Not such object: %s\n", path);
            return NULL;
        }
        p_owner_inside = vnp;
    }
    if (nameiparent) {
        return NULL;
    }
    return p_owner_inside;
 }
 int tracer_write_trace(struct TraceTag* const p_trace_tag, char* src, uint32_t off, uint32_t n)
 {
    if (src == NULL || p_trace_tag == NULL || p_trace_tag->meta == NULL) {
        return -1;
    }
    return trace_write_info(p_trace_tag->meta, src, off, n);
 }
 int tracer_read_trace(struct TraceTag* const p_trace_tag, char* dst, uint32_t off, uint32_t n)
 {
    if (dst == NULL || p_trace_tag == NULL || p_trace_tag->meta == NULL) {
        return -1;
    }
    return trace_read_info(p_trace_tag->meta, dst, off, n);
 }
 /// @brief
 static void trace_locate_inner(struct TraceTag* target, struct TraceTag* const p_trace_tag, char* path, bool parent)
 {
    char name[RESOURCE_NAME_SIZE];
    struct TraceMeta* p_trace_meta = tracer_find_meta(p_trace_tag->meta, path, parent, name);
    // p_trace_meta: TRACER_OWNER, VT_FS or other.
    //      TRACER_OWNER: path: "", name: "dir name"
    //      other:  path: "", name: "file name"
    if (p_trace_meta == NULL) {
        DEBUG("trace_locate, not found\n");
        return;
    }
    target->type = p_trace_meta->type;
    target->meta = p_trace_meta;
 }
 static inline void trace_locate(struct TraceTag* target, struct TraceTag* const p_trace_tag, char* path)
 {
    trace_locate_inner(target, p_trace_tag, path, 0);
 }
 static inline void trace_locate_parent(struct TraceTag* target, struct TraceTag* const p_trace_tag, char* path)
 {
    trace_locate_inner(target, p_trace_tag, path, 1);
 }
 bool tracer_create_trace(struct TraceTag* target, struct TraceTag* p_trace_tag, char* path, short type)
 {
    struct TraceMeta *p_trace_meta, *p_owner;
    // find parent vfs inode
    if ((p_owner = p_trace_tag->meta) == 0) {
        LOG("create tracemeta failed, parent is null\n");
        target->meta = NULL;
        return false;
    }
    p_trace_meta = tracer_new_meta(p_owner, path, type);
    target->meta = p_trace_meta;
    return true;
 }
 bool tracer_delete_trace(struct TraceTag* target, struct TraceTag* owner)
 {
    if (target->meta == NULL || owner->type != TRACER_OWNER) {
        return false;
    }
    struct TraceMeta* p_trace_meta = target->meta;
    struct TraceMeta* p_owner_meta = owner->meta;
    assert(p_trace_meta->type != TRACER_INVALID);
    if (p_trace_meta->type == TRACER_OWNER) {
        /// @todo support recursive delete
    }
    struct TraceResourceEntry resource_entry;
    bool is_owned = false;
    for (uint32_t off = 0; off < p_owner_meta->size; off += sizeof(resource_entry)) {
        if (trace_read_info(p_owner_meta, (char*)&resource_entry, off, sizeof(resource_entry)) != sizeof(resource_entry)) {
            panic("tracer_find_meta_onestep: read trace owner's resources failed\n");
        }
        if (resource_entry.index == 0) {
            continue;
        }
-        if (resource_entry.index == p_trace_meta->index) {
+        if (strcmp(name, iter->name) == 0) {
-            resource_entry.index = 0;
+            return iter;
            trace_write_info(owner->meta, (char*)&resource_entry, off, sizeof(resource_entry));
            is_owned = true;
            break;
        }
    }
-    if (!is_owned) {
+    return NULL;
-        ERROR("delete trace(%d) not owned by given owner(%d).\n", target->meta->index, owner->meta->index);
+}
        return false;
    }
    dealloc_trace_meta(p_trace_meta);
 TraceTag* const RequireRootTag()
 {
    return &sys_tracer.sys_tracer_tag;
 }
 bool AchieveResourceTag(TraceTag* target, TraceTag* owner, char* name)
 {
    static char name_buffer[TRACER_NODE_NAME_LEN];
    TracerNode* inner_node = owner->meta;
    assert(inner_node->type == TRACER_OWNER);
    while ((name = parse_path(name, name_buffer)) != NULL) {
        if ((inner_node = tracer_find_node_onestep(inner_node, name_buffer)) == NULL) {
            DEBUG("Tracer: No such object, owner: %s, child: %s\n", //
                owner->meta->name == NULL ? "NULL" : owner->meta->name, name == NULL ? "NULL" : name);
            return false;
        }
    }
    target->meta = inner_node;
    return true;
 }
-void tracer_init(void)
+void* AchieveResource(TraceTag* tag)
 {
-    /* init sys_tracer, the manager */
+    assert(tag != NULL);
-    spinlock_init(&sys_tracer.mem_chunk_bitmap_lock, "tracer_mem_chunk_bitmap");
+    if (tag->meta == NULL || tag->meta->type == TRACER_OWNER) {
    spinlock_init(&sys_tracer.trace_meta_bitmap_lock, "tracer_meta_bitmap");
    memset(sys_tracer.mem_chunks_bit_map, 0, sizeof(sys_tracer.mem_chunk_bitmap_lock));
    memset(sys_tracer.trace_meta_bit_map, 0, sizeof(sys_tracer.trace_meta_bit_map));
    assert((TRACER_MEM_CHUNK_SIZE % sizeof(struct TraceMeta)) == 0);
    assert((TRACER_MEM_CHUNK_SIZE % sizeof(struct TraceResourceEntry)) == 0);
    // mem_chunk space, fit with mem_chunk_bit_map
    mem_chunk_synchronizer_init((uintptr_t)tracer_space, TRACER_MEM_CHUNK_SIZE, NR_TRACER_MEM_CHUNKS);
    /* build root inode */
    alloc_trace_meta(); // inode as guard.
    /* build root trace_meta */
    struct TraceMeta* root_tracemeta = alloc_trace_meta();
    assert(root_tracemeta->index == 1);
    root_tracemeta->type = TRACER_OWNER;
    root_tracemeta->size = 0;
    tracer_append_meta(root_tracemeta, ".", root_tracemeta->index);
    tracer_append_meta(root_tracemeta, "..", root_tracemeta->index);
    RequireRootTag()->meta = root_tracemeta;
 }
 /// @brief find resource tag
 void tracer_find_tag(struct TraceTag* target, struct TraceTag* const source, char* path)
 {
    target->meta = NULL;
    struct TraceTag* p_trace_tag;
    if (*path == '/' || source == NULL) {
        p_trace_tag = RequireRootTag();
    } else {
        p_trace_tag = source;
    }
    if (p_trace_tag == NULL || p_trace_tag->meta == NULL) {
        return;
    }
    trace_locate(target, p_trace_tag, path);
 }
 bool AchieveResourceTag(struct TraceTag* target, struct TraceTag* owner, char* name)
 {
    tracer_find_tag(target, owner, name);
    if (target->meta == NULL) {
        return false;
    }
    return true;
 }
 void* AchieveResource(struct TraceTag* target)
 {
    if (target->type == TRACER_OWNER) {
        return NULL;
    }
-    void* p_resource = NULL;
+
-    tracer_read_trace(target, (char*)&p_resource, 0, sizeof(void*));
+    return tag->meta->p_resource;
    assert(p_resource != NULL);
    return p_resource;
 }
-bool CreateResourceTag(struct TraceTag* new_tag, struct TraceTag* owner, char* name, tracemeta_ac_type type, void* p_resource)
+bool CreateResourceTag(TraceTag* new_tag, TraceTag* owner, char* name, tracemeta_ac_type type, void* p_resource)
 {
-    new_tag->type = type;
+    assert(new_tag != NULL && owner != NULL);
-    if (type == TRACER_OWNER) {
+    if (owner->meta == NULL) {
-        return tracer_create_trace(new_tag, owner, name, type);
+        ERROR("Tracer: Empty owner\n");
        return false;
    }
    assert(owner->meta->type == TRACER_OWNER);
    TracerNode* new_node = (TracerNode*)slab_alloc(&sys_tracer.node_allocator);
    if (new_node == NULL) {
        ERROR("Tracer: No memory for new node\n");
        return false;
    }
    _tracer_init_node(new_node, name, type, p_resource);
-    // handle ac resource types
+    // new node add to owner's children list
-    if (p_resource == NULL) {
+    doubleListAddOnHead(&new_node->list_node, &owner->meta->children_guard);
    new_node->parent = owner->meta;
    new_tag->meta = new_node;
    return true;
 }
 bool DeleteResource(TraceTag* target, TraceTag* owner)
 {
    assert(target != NULL && owner != NULL);
    assert(owner->meta != NULL && owner->meta->type == TRACER_OWNER);
    if (target->meta == NULL) {
        ERROR("Tracer: Delete a empty resource\n");
        return false;
    }
-    if (!tracer_create_trace(new_tag, owner, name, type)) {
+    assert(target->meta->parent == owner->meta);
-        return false;
+    doubleListDel(&target->meta->list_node);
    // delete name
    if (target->meta->name != NULL) {
        slab_free(&sys_tracer.node_name_allocator, target->meta->name);
    }
-    bool ret = tracer_write_trace(new_tag, (char*)&p_resource, 0, sizeof(void*)) == sizeof(void*);
+    // delete all children
-    return ret;
+    /// @attention currently donot allow multilevel resource deletion
-}
+    if (target->meta->type == TRACER_OWNER) {
-
+        assert(IS_DOUBLE_LIST_EMPTY(&target->meta->children_guard));
-bool DeleteResource(struct TraceTag* target, struct TraceTag* owner)
+    }
-{
+    slab_free(&sys_tracer.node_allocator, target->meta);
-    return tracer_delete_trace(target, owner);
+    target->meta = NULL;
    return true;
 }
--- a/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer.h
+++ b/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer.h
@ -30,8 +30,10 @@ Modification:
 #include <stdbool.h>
 #include <stdint.h>
-#include "actracer_mem_chunk.h"
+#include "list.h"
-#include "spinlock.h"
+#include "object_allocator.h"
 #define TRACER_NODE_NAME_LEN 32
 typedef enum {
    TRACER_INVALID = 0,
@ -42,52 +44,32 @@ typedef enum {
    TRACER_MEM_FROM_BUDDY_AC_RESOURCE,
 } tracemeta_ac_type;
-typedef uint16_t tracer_mem_chunk_idx_t;
+typedef struct TracerNode {
-#define TRACEMETA_NR_DIRECT 5
+    tracemeta_ac_type type;
-#define TRACEMETA_NR_INDIRECT 4
+    char* name;
-#define NR_ADDR_PER_MEM_CHUNK TRACER_MEM_CHUNK_SIZE / sizeof(tracer_mem_chunk_idx_t)
+    union {
-#define VFS_FILE_MAXSIZE (TRACEMETA_NR_DIRECT + (TRACEMETA_NR_INDIRECT * NR_ADDR_PER_MEM_CHUNK))
+        struct double_list_node children_guard;
-struct TraceMeta {
+        void* p_resource;
-    uint32_t size;
+    };
-    tracemeta_ac_type type; // TRACER_OWNER, etc.
+    struct TracerNode* parent;
-    uintptr_t reserved; // fast path to store pointer if content is a pointer
+    struct double_list_node list_node;
-    uint16_t index;
+} TracerNode;
    tracer_mem_chunk_idx_t addr[TRACEMETA_NR_DIRECT + TRACEMETA_NR_INDIRECT]; // 指向data mem_chunks, TRACER_OWNER 用于存放 dir entries, VT_FS用于存放bind
 } __attribute__((aligned(32)));
 /// @brief tag for other module to reference trace meta
-struct TraceTag {
+typedef struct TraceTag {
-    struct TraceMeta* meta;
+    TracerNode* meta;
-    short type; // TRACER_OWNER, etc.
+} TraceTag;
 };
 #define RESOURCE_NAME_SIZE 14
 struct TraceResourceEntry {
    uint16_t index;
    char name[RESOURCE_NAME_SIZE];
 };
 struct SysTracer {
-#define NR_TRACER_MEM_CHUNKS 256
+    TracerNode root_node;
-#define TRACER_MEM_CHUNK_SIZE sizeof(struct TraceMeta)
+    TraceTag sys_tracer_tag;
-#define BITS_MEM_CHUNK_BITMAP (NR_TRACER_MEM_CHUNKS / 32)
+    struct slab_allocator node_allocator;
-    uint32_t mem_chunks_bit_map[BITS_MEM_CHUNK_BITMAP];
+    struct slab_allocator node_name_allocator;
    struct spinlock mem_chunk_bitmap_lock;
 #define NR_MAX_TRACEMETA 128
 #define BITS_TRACEMETA_BITMAP (NR_MAX_TRACEMETA / 32)
    uint32_t trace_meta_bit_map[BITS_TRACEMETA_BITMAP];
    struct spinlock trace_meta_bitmap_lock;
    struct TraceMeta trace_meta_poll[NR_MAX_TRACEMETA];
 };
-void tracer_init(void);
+void sys_tracer_init();
-
+TraceTag* const RequireRootTag();
 extern struct SysTracer sys_tracer;
 extern struct TraceTag root_tracetag;
 struct TraceTag* const RequireRootTag();
 bool AchieveResourceTag(struct TraceTag* target, struct TraceTag* owner, char* name);
 void* AchieveResource(struct TraceTag* target);
 bool CreateResourceTag(struct TraceTag* new_tag, struct TraceTag* owner, char* name, tracemeta_ac_type type, void* p_resource);
-bool DeleteResource(struct TraceTag* target, struct TraceTag* owner);
+bool DeleteResource(struct TraceTag* target, struct TraceTag* owner);
--- a/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer_mem_chunk.c
+++ b/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer_mem_chunk.c
@ -1,184 +0,0 @@
 /*
 * Copyright (c) 2020 AIIT XUOS Lab
 * XiUOS is licensed under Mulan PSL v2.
 * You can use this software according to the terms and conditions of the Mulan PSL v2.
 * You may obtain a copy of Mulan PSL v2 at:
 *        http://license.coscl.org.cn/MulanPSL2
 * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
 * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
 * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
 * See the Mulan PSL v2 for more details.
 */
 /**
 * @file actracer_mem_chunk.c
 * @brief tracer mem chunk implememntation
 * @version 3.0
 * @author AIIT XUOS Lab
 * @date 2023.08.25
 */
 /*************************************************
 File name: actracer_mem_chunk.c
 Description: tracer mem chunk implementation
 Others:
 History:
 1. Date: 2023-08-28
 Author: AIIT XUOS Lab
 Modification:
 1. first version
 *************************************************/
 #include <string.h>
 #include "assert.h"
 #include "spinlock.h"
 #include "actracer.h"
 #include "actracer_mem_chunk.h"
 /// @brief to assert that a mem_chunk of memory will only write by one object
 struct mem_chunk_synchronizer {
    uintptr_t mem_chunk_base;
    uint32_t mem_chunk_size;
    uint32_t nr_mem_chunks;
    struct spinlock lock;
    struct tracer_mem_chunk mem_chunk_access_list[NR_MEM_CHUNK_CACHE];
    struct double_list_node head;
 };
 static struct mem_chunk_synchronizer tracer_mem_chunk_syner;
 static void tracer_mem_chunk_sync(struct tracer_mem_chunk* b)
 {
    if (!(b->flag & TRACER_MEM_CHUNK_BUSY)) {
        panic("mem_chunk_sync: buf not busy");
    }
    if (b->chunk_id >= tracer_mem_chunk_syner.nr_mem_chunks) {
        panic("mem_chunk_sync: sector out of range");
    }
    b->data = (uint8_t*)(tracer_mem_chunk_syner.mem_chunk_base + b->chunk_id * tracer_mem_chunk_syner.mem_chunk_size);
    b->flag |= TRACER_MEM_CHUNK_VALID;
 }
 void mem_chunk_synchronizer_init(uintptr_t mem_chunk_base, uint32_t mem_chunk_size, uint32_t nr_mem_chunks)
 {
    tracer_mem_chunk_syner.mem_chunk_base = mem_chunk_base;
    tracer_mem_chunk_syner.mem_chunk_size = mem_chunk_size;
    tracer_mem_chunk_syner.nr_mem_chunks = nr_mem_chunks;
    // Create linked list of buffers
    doubleListNodeInit(&tracer_mem_chunk_syner.head);
    for (struct tracer_mem_chunk* b = tracer_mem_chunk_syner.mem_chunk_access_list; b < tracer_mem_chunk_syner.mem_chunk_access_list + NR_MEM_CHUNK_CACHE; b++) {
        doubleListNodeInit(&b->list_node);
        doubleListAddOnHead(&b->list_node, &tracer_mem_chunk_syner.head);
    }
 }
 static struct tracer_mem_chunk* tracer_get_mem_chunk_cache(uint32_t chunk_id)
 {
    // cached mem_chunk cache
    struct tracer_mem_chunk* b;
    DOUBLE_LIST_FOR_EACH_ENTRY(b, &tracer_mem_chunk_syner.head, list_node)
    {
        if (b->chunk_id == chunk_id) {
            if (!(b->flag & TRACER_MEM_CHUNK_BUSY)) {
                b->flag |= TRACER_MEM_CHUNK_BUSY;
                return b;
            }
        }
    }
    // Non-cached mem_chunk cache
    DOUBLE_LIST_FOR_EACH_ENTRY_REVERSE(b, &tracer_mem_chunk_syner.head, list_node)
    {
        if ((b->flag & TRACER_MEM_CHUNK_BUSY) == 0) {
            b->chunk_id = chunk_id;
            b->flag = TRACER_MEM_CHUNK_BUSY;
            return b;
        }
    }
    panic("tracer_get_mem_chunk_cache: no cache");
    return NULL;
 }
 // Return a TRACER_MEM_CHUNK_BUSY buf with the contents of the indicated disk sector.
 struct tracer_mem_chunk* tracer_mem_chunk_read(uint32_t chunk_id)
 {
    struct tracer_mem_chunk* b = tracer_get_mem_chunk_cache(chunk_id);
    if (b == NULL) {
        return NULL;
    }
    if (!(b->flag & TRACER_MEM_CHUNK_VALID)) {
        tracer_mem_chunk_sync(b);
        b->flag |= TRACER_MEM_CHUNK_VALID;
    }
    return b;
 }
 void tracer_mem_chunk_write(struct tracer_mem_chunk* b)
 {
    if ((b->flag & TRACER_MEM_CHUNK_BUSY) == 0) {
        panic("tracer mem_chunk write a no busy mem_chunk");
    }
    tracer_mem_chunk_sync(b);
 }
 void tracer_mem_chunk_release(struct tracer_mem_chunk* b)
 {
    if ((b->flag & TRACER_MEM_CHUNK_BUSY) == 0) {
        panic("tracer mem_chunk release but it's not busy occupied");
    }
    // move mem_chunk that just used to the head of cache list
    doubleListDel(&b->list_node);
    doubleListAddOnHead(&b->list_node, &tracer_mem_chunk_syner.head);
    b->flag &= ~TRACER_MEM_CHUNK_BUSY;
 }
 static void tracer_mem_chunk_zero(uint32_t chunk_id)
 {
    assert(chunk_id >= 0 && chunk_id < tracer_mem_chunk_syner.nr_mem_chunks);
    struct tracer_mem_chunk* tracer_mem_chunk = NULL;
    tracer_mem_chunk = tracer_mem_chunk_read(chunk_id);
    if (tracer_mem_chunk == NULL) {
        return;
    }
    memset(tracer_mem_chunk->data, 0, tracer_mem_chunk_syner.mem_chunk_size);
    tracer_mem_chunk_write(tracer_mem_chunk);
    tracer_mem_chunk_release(tracer_mem_chunk);
 }
 /// @return mem_chunk_idx in bit_map
 static uint32_t find_first_free_mem_chunk()
 {
    /// @todo another mem_chunk
    for (uint32_t idx = 0; idx < BITS_MEM_CHUNK_BITMAP; idx++) {
        if (sys_tracer.mem_chunks_bit_map[idx] == 0xFFFFFFFF) {
            continue;
        }
        uint32_t position = __builtin_ffs(~sys_tracer.mem_chunks_bit_map[idx]);
        if (position != 32) {
            sys_tracer.mem_chunks_bit_map[idx] |= (1 << (position - 1));
            return idx * 32 + position;
        }
    }
    panic("Tracer no enough space.");
    return 0;
 }
 uint32_t tracer_mem_chunk_alloc()
 {
    tracer_mem_chunk_idx_t idx = find_first_free_mem_chunk();
    tracer_mem_chunk_zero(idx);
    return idx;
 }
 void tracer_mem_chunk_free(uint32_t chunk_id)
 {
    assert(chunk_id >= 0 && chunk_id < NR_TRACER_MEM_CHUNKS);
    uint32_t idx = chunk_id % 32;
    uint32_t inner_mem_chunk_bit = chunk_id / 32;
    // assert mem_chunk is allocated
    assert((sys_tracer.mem_chunks_bit_map[idx] & (1 << inner_mem_chunk_bit)) != 0);
    sys_tracer.mem_chunks_bit_map[idx] &= (uint32_t)(~(1 << inner_mem_chunk_bit));
 }
--- a/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer_mem_chunk.h
+++ b/Ubiquitous/XiZi_AIoT/kernel_actracer/actracer_mem_chunk.h
@ -1,54 +0,0 @@
 /*
 * Copyright (c) 2020 AIIT XUOS Lab
 * XiUOS is licensed under Mulan PSL v2.
 * You can use this software according to the terms and conditions of the Mulan PSL v2.
 * You may obtain a copy of Mulan PSL v2 at:
 *        http://license.coscl.org.cn/MulanPSL2
 * THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,
 * EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,
 * MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.
 * See the Mulan PSL v2 for more details.
 */
 /**
 * @file actracer_mem_chunk.h
 * @brief tracer mem chunk header
 * @version 3.0
 * @author AIIT XUOS Lab
 * @date 2023.08.25
 */
 /*************************************************
 File name: actracer_mem_chunk.h
 Description: tracer mem chunk header
 Others:
 History:
 1. Date: 2023-08-28
 Author: AIIT XUOS Lab
 Modification:
 1. first version
 *************************************************/
 #pragma once
 #include <stdint.h>
 #include "list.h"
 #define NR_MEM_CHUNK_CACHE 128
 typedef enum {
    TRACER_MEM_CHUNK_BUSY = 0x1,
    TRACER_MEM_CHUNK_VALID = 0x2,
 } tracer_mem_chunk_flag;
 struct tracer_mem_chunk {
    tracer_mem_chunk_flag flag;
    uint32_t chunk_id;
    struct double_list_node list_node;
    uint8_t* data;
 };
 void mem_chunk_synchronizer_init(uintptr_t mem_chunk_base, uint32_t mem_chunk_size, uint32_t nr_mem_chunks);
 struct tracer_mem_chunk* tracer_mem_chunk_read(uint32_t chunk_id);
 void tracer_mem_chunk_write(struct tracer_mem_chunk* b);
 void tracer_mem_chunk_release(struct tracer_mem_chunk* b);
 uint32_t tracer_mem_chunk_alloc();
 void tracer_mem_chunk_free(uint32_t chunk_id);
--- a/Ubiquitous/XiZi_AIoT/softkernel/include/object_allocator.h
+++ b/Ubiquitous/XiZi_AIoT/softkernel/include/object_allocator.h
@ -29,6 +29,7 @@ Modification:
 *************************************************/
 #pragma once
 #include <stddef.h>
 #include <stdint.h>
 struct slab_state {
--- a/Ubiquitous/XiZi_AIoT/softkernel/init/softkernel_init.c
+++ b/Ubiquitous/XiZi_AIoT/softkernel/init/softkernel_init.c
@ -40,8 +40,6 @@ bool softkernel_init(struct TraceTag* _hardkernel_tag, struct TraceTag* _softker
    CreateResourceTag(&server_identifier_owner, _softkernel_tag, "server-identifier", TRACER_OWNER, NULL);
    /* init soft kernel */
    module_phymem_init(); // init buddy management system
    struct PagerRightGroup pager_rights;
    AchieveResourceTag(&pager_rights.mmu_driver_tag, _hardkernel_tag, "mmu-ac-resource");
    module_pager_init(&pager_rights);
--- a/Ubiquitous/XiZi_AIoT/softkernel/main.c
+++ b/Ubiquitous/XiZi_AIoT/softkernel/main.c
@ -33,6 +33,7 @@ Modification:
 #include "multicores.h"
 #include "assert.h"
 #include "kalloc.h"
 #include "task.h"
 struct spinlock whole_kernel_lock;
@ -42,13 +43,16 @@ extern int sys_spawn(char* img_start, char* name, char** argv);
 static struct TraceTag hardkernel_tag, softkernel_tag;
 static volatile int core_init_done = 0;
-__attribute__((optimize("O0"))) int main(void)
+int main(void)
 {
    /* init tracer */
    uint32_t cpu_id = cur_cpuid();
    if (cpu_id == 0) {
-        tracer_init(); // init tracer system
+        /* init memory management first */
        module_phymem_init(); // init buddy management system
        /* init tracer system */
        sys_tracer_init();
        if (!CreateResourceTag(&hardkernel_tag, RequireRootTag(), "hardkernel", TRACER_OWNER, NULL) || //
            !CreateResourceTag(&softkernel_tag, RequireRootTag(), "softkernel", TRACER_OWNER, NULL)) {
            ERROR("Failed to create hardkernel owner and softkernel owner.\n");
--- a/Ubiquitous/XiZi_AIoT/softkernel/memory/kalloc.c
+++ b/Ubiquitous/XiZi_AIoT/softkernel/memory/kalloc.c
@ -39,14 +39,14 @@ struct KBuddy user_phy_freemem_buddy;
 extern uint32_t kernel_data_end[];
 bool module_phymem_init()
 {
-    LOG_PRINTF("Organizing free memory...\n");
+    // LOG_PRINTF("Organizing free memory...\n");
    uint32_t kern_freemem_start = V2P(&kernel_data_end);
    uint32_t kern_freemem_end = PHY_USER_FREEMEM_BASE;
    uint32_t user_freemem_start = PHY_USER_FREEMEM_BASE;
    uint32_t user_freemem_end = PHY_MEM_STOP;
    KBuddySysInit(&kern_virtmem_buddy, kern_freemem_start, kern_freemem_end);
    KBuddyInit(&user_phy_freemem_buddy, user_freemem_start, user_freemem_end);
-    LOG_PRINTF("Free memory organized done.\n");
+    // LOG_PRINTF("Free memory organized done.\n");
    return true;
 }
--- a/Ubiquitous/XiZi_AIoT/softkernel/syscall/sys_connect_session.c
+++ b/Ubiquitous/XiZi_AIoT/softkernel/syscall/sys_connect_session.c
@ -67,7 +67,7 @@ int sys_connect_session(char* path, int capacity, struct Session* user_session)
    if (!AchieveResourceTag(&server_identifier_owner, RequireRootTag(), "softkernel/server-identifier")) {
        panic("Server identifier not initialized.\b");
    }
-    assert(server_identifier_owner.meta != NULL || server_identifier_owner.type == TRACER_OWNER);
+    assert(server_identifier_owner.meta != NULL);
    struct TraceTag server_tag;
    if (!AchieveResourceTag(&server_tag, &server_identifier_owner, path)) {
--- a/Ubiquitous/XiZi_AIoT/softkernel/syscall/sys_register_as_server.c
+++ b/Ubiquitous/XiZi_AIoT/softkernel/syscall/sys_register_as_server.c
@ -44,7 +44,7 @@ int sys_register_as_server(char* name)
    if (!AchieveResourceTag(&server_identifier_set_tag, RequireRootTag(), "softkernel/server-identifier")) {
        panic("Server identifier not initialized.\b");
    }
-    assert(server_identifier_set_tag.meta != NULL || server_identifier_set_tag.type == TRACER_OWNER);
+    assert(server_identifier_set_tag.meta != NULL);
    if (!CreateResourceTag(&server->server_identifier, &server_identifier_set_tag, name, TRACER_SERVER_IDENTITY_AC_RESOURCE, server)) {
        return -1;