555 lines
20 KiB
C++
555 lines
20 KiB
C++
// WASM-PROPOSAL Phase 3 — dynamic loader + membrane scaffold.
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//
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// Embeds a wasm runtime through the standard wasm-c-api and links a core
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// workspace module with a generated-shape PIC UCE side module:
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//
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// 1. instantiate core.wasm (owns memory/table/allocator/Request/DValue)
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// 2. parse page.wasm's dylink.0 → data size/align, table slots needed
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// 3. allocate __memory_base by calling core malloc, and __table_base by
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// appending to the shared funcref table
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// 4. build the unit's import vector: env.memory / env.__indirect_function_table /
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// env.__stack_pointer from core; env.* functions from core exports;
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// GOT.mem.* and GOT.func.* through the same rules as Phase 0
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// 5. instantiate unit, patch deferred GOT entries, run relocations/ctors
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// 6. prepare a UCEB1 request context in core, set the unit's Request*, call
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// __uce_render, then read output back out of core-owned linear memory
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//
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// Everything here is deliberately validation-grade: fail loudly, never guess.
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#include <wasm.h>
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#include <cstdio>
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#include <cstdlib>
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#include <cstring>
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#include <string>
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#include <vector>
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#include <map>
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#define FAIL(...) do { fprintf(stderr, "FAIL: " __VA_ARGS__); fprintf(stderr, "\n"); exit(1); } while(0)
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#define CHECK(cond, ...) do { if(!(cond)) FAIL(__VA_ARGS__); } while(0)
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static std::vector<uint8_t> read_file(const char* fn)
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{
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FILE* f = fopen(fn, "rb");
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CHECK(f, "cannot open %s", fn);
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fseek(f, 0, SEEK_END);
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long n = ftell(f);
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fseek(f, 0, SEEK_SET);
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std::vector<uint8_t> buf(n);
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CHECK(fread(buf.data(), 1, n, f) == (size_t)n, "short read on %s", fn);
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fclose(f);
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return buf;
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}
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// ---- minimal dylink.0 parser -------------------------------------------
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struct DylinkInfo
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{
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uint32_t mem_size = 0;
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uint32_t mem_align = 0; // power of 2
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uint32_t table_size = 0;
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uint32_t table_align = 0;
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bool found = false;
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};
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static uint64_t read_uleb(const uint8_t* buf, size_t& pos, size_t end)
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{
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uint64_t result = 0;
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int shift = 0;
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while(true)
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{
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CHECK(pos < end, "truncated uleb in wasm custom section");
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CHECK(shift < 64, "oversized uleb in wasm custom section");
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uint8_t b = buf[pos++];
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result |= (uint64_t)(b & 0x7f) << shift;
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if(!(b & 0x80))
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return result;
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shift += 7;
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}
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}
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static DylinkInfo parse_dylink(const std::vector<uint8_t>& wasm)
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{
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DylinkInfo info;
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CHECK(wasm.size() >= 8 && !memcmp(wasm.data(), "\0asm", 4), "not a wasm module");
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CHECK(wasm[4] == 1 && wasm[5] == 0 && wasm[6] == 0 && wasm[7] == 0, "unsupported wasm binary version");
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size_t pos = 8;
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while(pos < wasm.size())
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{
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uint8_t sec_id = wasm[pos++];
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uint64_t size = read_uleb(wasm.data(), pos, wasm.size());
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CHECK(size <= wasm.size() - pos, "wasm section exceeds file size");
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size_t end = pos + size;
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if(sec_id == 0)
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{
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uint64_t name_len = read_uleb(wasm.data(), pos, end);
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CHECK(name_len <= end - pos, "custom section name exceeds section size");
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std::string name((const char*)wasm.data() + pos, name_len);
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pos += name_len;
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if(name == "dylink.0")
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{
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while(pos < end)
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{
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uint8_t sub = wasm[pos++];
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uint64_t sub_len = read_uleb(wasm.data(), pos, end);
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CHECK(sub_len <= end - pos, "dylink subsection exceeds section size");
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size_t sub_end = pos + sub_len;
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if(sub == 1) // WASM_DYLINK_MEM_INFO
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{
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info.mem_size = read_uleb(wasm.data(), pos, sub_end);
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info.mem_align = read_uleb(wasm.data(), pos, sub_end);
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info.table_size = read_uleb(wasm.data(), pos, sub_end);
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info.table_align = read_uleb(wasm.data(), pos, sub_end);
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CHECK(!info.found, "duplicate dylink.0 mem_info subsection");
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CHECK(info.mem_align < 31 && info.table_align < 31, "unsupported dylink alignment");
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info.found = true;
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}
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pos = sub_end;
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}
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}
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}
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pos = end;
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}
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return info;
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}
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// ---- tiny UCEB1 request-context encoder ---------------------------------
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static void append_varuint(std::string& out, uint64_t value)
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{
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while(value >= 0x80)
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{
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out.push_back((char)((value & 0x7f) | 0x80));
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value >>= 7;
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}
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out.push_back((char)value);
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}
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struct Node
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{
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std::string scalar;
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std::vector<std::pair<std::string, Node>> children;
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};
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static Node scalar(const char* value)
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{
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Node n;
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n.scalar = value;
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return n;
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}
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static void encode_node(std::string& out, const Node& node)
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{
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out.push_back(0);
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append_varuint(out, node.scalar.size());
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out.append(node.scalar);
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append_varuint(out, node.children.size());
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for(const auto& child : node.children)
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{
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append_varuint(out, child.first.size());
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out.append(child.first);
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encode_node(out, child.second);
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}
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}
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static std::string make_context()
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{
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Node params;
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params.children.push_back({"HTTP_HOST", scalar("phase3.example.test")});
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params.children.push_back({"SCRIPT_URL", scalar("/spikes/wasm-phase3/page.uce")});
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Node nested;
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nested.children.push_back({"answer", scalar("42")});
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Node root;
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root.children.push_back({"params", params});
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root.children.push_back({"route", scalar("/spikes/wasm-phase3/page.uce")});
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root.children.push_back({"nested", nested});
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std::string out = "UCEB";
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out.push_back((char)1);
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encode_node(out, root);
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return out;
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}
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// ---- host imports --------------------------------------------------------
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static wasm_memory_t* g_memory = nullptr;
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static std::string g_context;
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static void set_i32_result(wasm_val_t* result, int32_t value)
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{
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result->kind = WASM_I32;
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result->of.i32 = value;
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}
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static wasm_trap_t* host_ctx_read(void* env, const wasm_val_vec_t* args, wasm_val_vec_t* results)
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{
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(void)env;
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uint32_t ptr = args->data[0].of.i32;
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uint32_t cap = args->data[1].of.i32;
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if(ptr == 0 || cap == 0 || cap < g_context.size())
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{
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set_i32_result(&results->data[0], (int32_t)g_context.size());
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return nullptr;
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}
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CHECK(g_memory, "host ctx_read called before memory export was captured");
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uint8_t* mem = (uint8_t*)wasm_memory_data(g_memory);
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size_t mem_size = wasm_memory_data_size(g_memory);
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CHECK((size_t)ptr + g_context.size() <= mem_size, "ctx_read buffer outside memory");
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memcpy(mem + ptr, g_context.data(), g_context.size());
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set_i32_result(&results->data[0], (int32_t)g_context.size());
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return nullptr;
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}
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static wasm_trap_t* host_log(void* env, const wasm_val_vec_t* args, wasm_val_vec_t* results)
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{
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(void)env; (void)results;
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int level = args->data[0].of.i32;
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uint32_t ptr = args->data[1].of.i32;
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uint32_t len = args->data[2].of.i32;
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uint8_t* mem = (uint8_t*)wasm_memory_data(g_memory);
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size_t mem_size = wasm_memory_data_size(g_memory);
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if((size_t)ptr + len <= mem_size)
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fprintf(stderr, "[guest log %d] %.*s\n", level, (int)len, (const char*)mem + ptr);
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return nullptr;
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}
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// ---- named trap stubs for unsatisfied (WASI) imports --------------------
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static wasm_store_t* g_store_for_stubs = nullptr;
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static wasm_trap_t* stub_callback(void* env, const wasm_val_vec_t* args, wasm_val_vec_t* results)
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{
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(void)args; (void)results;
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fprintf(stderr, "[stub called: %s]\n", (const char*)env);
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char msg[256];
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snprintf(msg, sizeof(msg), "unimplemented host import called: %s", (const char*)env);
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wasm_message_t message;
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wasm_byte_vec_new(&message, strlen(msg) + 1, msg);
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wasm_trap_t* trap = wasm_trap_new(g_store_for_stubs, &message);
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wasm_byte_vec_delete(&message);
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return trap;
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}
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// ---- instance wrapper: name → extern map --------------------------------
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struct Instance
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{
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wasm_module_t* module = nullptr;
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wasm_instance_t* instance = nullptr;
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wasm_extern_vec_t exports = WASM_EMPTY_VEC;
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std::map<std::string, wasm_extern_t*> by_name;
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void index_exports()
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{
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wasm_exporttype_vec_t types = WASM_EMPTY_VEC;
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wasm_module_exports(module, &types);
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wasm_instance_exports(instance, &exports);
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CHECK(types.size == exports.size, "export type/extern count mismatch");
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for(size_t i = 0; i < types.size; i++)
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{
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const wasm_name_t* nm = wasm_exporttype_name(types.data[i]);
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std::string key(nm->data, nm->size);
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// some wasm-c-api impls include the trailing NUL in name size
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while(!key.empty() && key.back() == '\0')
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key.pop_back();
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by_name[key] = exports.data[i];
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}
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wasm_exporttype_vec_delete(&types);
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}
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wasm_func_t* func(const char* name)
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{
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auto it = by_name.find(name);
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return it == by_name.end() ? nullptr : wasm_extern_as_func(it->second);
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}
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wasm_global_t* global(const char* name)
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{
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auto it = by_name.find(name);
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return it == by_name.end() ? nullptr : wasm_extern_as_global(it->second);
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}
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};
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static wasm_store_t* g_store = nullptr;
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static void report_trap(wasm_trap_t* trap, const char* what)
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{
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if(!trap)
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return;
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wasm_message_t msg;
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wasm_trap_message(trap, &msg);
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FAIL("trap during %s: %.*s", what, (int)msg.size, msg.data);
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}
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static int32_t call_i32(Instance& inst, const char* name, std::vector<int32_t> argv = {})
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{
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wasm_func_t* f = inst.func(name);
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CHECK(f, "missing export func %s", name);
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wasm_val_t args_buf[4];
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CHECK(argv.size() <= 4, "call_i32 argv overflow for %s", name);
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for(size_t i = 0; i < argv.size(); i++)
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args_buf[i] = WASM_I32_VAL(argv[i]);
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wasm_val_t results_buf[1] = { WASM_INIT_VAL };
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wasm_val_vec_t args = { argv.size(), args_buf };
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wasm_val_vec_t results = { 1, results_buf };
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size_t result_arity = wasm_func_result_arity(f);
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wasm_val_vec_t no_results = WASM_EMPTY_VEC;
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wasm_trap_t* trap = wasm_func_call(f, &args, result_arity ? &results : &no_results);
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report_trap(trap, name);
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return result_arity ? results_buf[0].of.i32 : 0;
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}
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static wasm_global_t* make_i32_global(int32_t value, wasm_mutability_t mut)
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{
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wasm_globaltype_t* gt = wasm_globaltype_new(wasm_valtype_new(WASM_I32), mut);
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wasm_val_t val = WASM_I32_VAL(value);
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wasm_global_t* g = wasm_global_new(g_store, gt, &val);
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CHECK(g, "wasm_global_new failed (host-created globals unsupported?)");
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wasm_globaltype_delete(gt);
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return g;
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}
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int main(int argc, char** argv)
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{
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const char* core_path = argc > 1 ? argv[1] : "/tmp/uce/wasm-phase3/core.wasm";
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const char* unit_path = argc > 2 ? argv[2] : "/tmp/uce/wasm-phase3/page.wasm";
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g_context = make_context();
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wasm_engine_t* engine = wasm_engine_new();
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CHECK(engine, "engine");
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g_store = wasm_store_new(engine);
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CHECK(g_store, "store");
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g_store_for_stubs = g_store;
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// ---- 1. core module ---------------------------------------------------
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std::vector<uint8_t> core_bytes = read_file(core_path);
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wasm_byte_vec_t core_bv;
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wasm_byte_vec_new(&core_bv, core_bytes.size(), (const char*)core_bytes.data());
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Instance core;
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core.module = wasm_module_new(g_store, &core_bv);
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wasm_byte_vec_delete(&core_bv);
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CHECK(core.module, "core module load failed");
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// the shared funcref table is host-created (core links with --import-table)
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// because WAMR cannot grow a table from the host: size it up front as
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// core's declared minimum (= its own elem needs) plus headroom for unit
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// module table regions. __table_base allocation bumps from the minimum.
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wasm_table_t* table = nullptr;
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uint32_t table_next_free = 0;
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const uint32_t TABLE_HEADROOM = 2048;
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wasm_importtype_vec_t core_imports = WASM_EMPTY_VEC;
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wasm_module_imports(core.module, &core_imports);
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std::vector<wasm_extern_t*> core_import_externs(core_imports.size);
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for(size_t i = 0; i < core_imports.size; i++)
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{
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const wasm_name_t* mod = wasm_importtype_module(core_imports.data[i]);
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const wasm_name_t* nm = wasm_importtype_name(core_imports.data[i]);
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const wasm_externtype_t* et = wasm_importtype_type(core_imports.data[i]);
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std::string name(nm->data, nm->size);
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if(wasm_externtype_kind(et) == WASM_EXTERN_TABLE)
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{
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CHECK(name.rfind("__indirect_function_table", 0) == 0,
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"unexpected core table import %s", name.c_str());
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const wasm_tabletype_t* tt = wasm_externtype_as_tabletype_const(et);
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uint32_t core_min = wasm_tabletype_limits(tt)->min;
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wasm_limits_t limits = { core_min + TABLE_HEADROOM, core_min + TABLE_HEADROOM };
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wasm_tabletype_t* host_tt = wasm_tabletype_new(wasm_valtype_new(WASM_FUNCREF), &limits);
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table = wasm_table_new(g_store, host_tt, nullptr);
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CHECK(table, "wasm_table_new failed (host-created tables unsupported?)");
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wasm_tabletype_delete(host_tt);
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table_next_free = core_min;
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printf("host table created: size=%u, core region=[0,%u)\n", core_min + TABLE_HEADROOM, core_min);
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core_import_externs[i] = wasm_table_as_extern(table);
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continue;
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}
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CHECK(wasm_externtype_kind(et) == WASM_EXTERN_FUNC,
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"core has unexpected non-func import %.*s.%s",
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(int)mod->size, mod->data, name.c_str());
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const wasm_functype_t* ft = wasm_externtype_as_functype_const(et);
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wasm_func_t* import_func = nullptr;
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std::string mod_name(mod->data, mod->size);
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while(!mod_name.empty() && mod_name.back() == '\0') mod_name.pop_back();
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while(!name.empty() && name.back() == '\0') name.pop_back();
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if(mod_name == "env" && name == "uce_host_ctx_read")
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import_func = wasm_func_new_with_env(g_store, ft, host_ctx_read, nullptr, nullptr);
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else if(mod_name == "env" && name == "uce_host_log")
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import_func = wasm_func_new_with_env(g_store, ft, host_log, nullptr, nullptr);
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else
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{
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// named trap stub; leaks the name string, fine for a spike
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char* label = strdup((mod_name + "." + name).c_str());
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import_func = wasm_func_new_with_env(g_store, ft, stub_callback, label, nullptr);
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}
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CHECK(import_func, "stub func creation failed for %s", name.c_str());
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core_import_externs[i] = wasm_func_as_extern(import_func);
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}
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CHECK(table, "core does not import __indirect_function_table — rebuild with --import-table");
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wasm_extern_vec_t core_iv = { core_import_externs.size(), core_import_externs.data() };
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wasm_trap_t* trap = nullptr;
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core.instance = wasm_instance_new(g_store, core.module, &core_iv, &trap);
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report_trap(trap, "core instantiation");
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CHECK(core.instance, "core instantiation failed");
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core.index_exports();
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printf("core instantiated: %zu exports\n", core.by_name.size());
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// reactor init (runs ctors). Wasmtime does not auto-run _initialize;
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// WAMR does — and calling it twice trips wasi-libc's double-init guard
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// (__builtin_trap → "unreachable"), which cost us a debugging round.
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if(core.func("_initialize"))
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call_i32(core, "_initialize");
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wasm_memory_t* memory = wasm_extern_as_memory(core.by_name.count("memory") ? core.by_name["memory"] : nullptr);
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CHECK(memory, "core does not export memory");
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g_memory = memory;
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// ---- 2./3. dylink + base allocation ------------------------------------
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std::vector<uint8_t> unit_bytes = read_file(unit_path);
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DylinkInfo dl = parse_dylink(unit_bytes);
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CHECK(dl.found, "unit has no dylink.0 mem_info");
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printf("dylink.0: memsize=%u memalign=2^%u tablesize=%u\n", dl.mem_size, dl.mem_align, dl.table_size);
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uint32_t align = 1u << dl.mem_align;
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uint32_t raw = (uint32_t)call_i32(core, "malloc", { (int32_t)(dl.mem_size + align) });
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CHECK(raw, "core malloc returned 0");
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uint32_t memory_base = (raw + (align - 1)) & ~(align - 1);
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|
|
uint32_t table_base = table_next_free;
|
|
table_next_free += dl.table_size;
|
|
CHECK(table_next_free <= wasm_table_size(table), "table headroom exhausted");
|
|
printf("bases: __memory_base=%u __table_base=%u (table size %u)\n",
|
|
memory_base, table_base, wasm_table_size(table));
|
|
|
|
// ---- 4. unit import resolution -----------------------------------------
|
|
wasm_byte_vec_t unit_bv;
|
|
wasm_byte_vec_new(&unit_bv, unit_bytes.size(), (const char*)unit_bytes.data());
|
|
Instance unit;
|
|
unit.module = wasm_module_new(g_store, &unit_bv);
|
|
wasm_byte_vec_delete(&unit_bv);
|
|
CHECK(unit.module, "unit module load failed");
|
|
|
|
wasm_importtype_vec_t unit_imports = WASM_EMPTY_VEC;
|
|
wasm_module_imports(unit.module, &unit_imports);
|
|
std::vector<wasm_extern_t*> unit_import_externs(unit_imports.size);
|
|
// GOT.mem entries that must be self-resolved from the unit's own exports
|
|
// after instantiation (weak data the core does not define)
|
|
std::vector<std::pair<std::string, wasm_global_t*>> deferred_got;
|
|
|
|
for(size_t i = 0; i < unit_imports.size; i++)
|
|
{
|
|
const wasm_name_t* mod_n = wasm_importtype_module(unit_imports.data[i]);
|
|
const wasm_name_t* nm_n = wasm_importtype_name(unit_imports.data[i]);
|
|
std::string mod(mod_n->data, mod_n->size);
|
|
std::string nm(nm_n->data, nm_n->size);
|
|
const wasm_externtype_t* et = wasm_importtype_type(unit_imports.data[i]);
|
|
wasm_externkind_t kind = wasm_externtype_kind(et);
|
|
wasm_extern_t* resolved = nullptr;
|
|
|
|
if(mod == "env" && nm == "memory")
|
|
resolved = wasm_memory_as_extern(memory);
|
|
else if(mod == "env" && nm == "__indirect_function_table")
|
|
resolved = wasm_table_as_extern(table);
|
|
else if(mod == "env" && nm == "__stack_pointer")
|
|
{
|
|
CHECK(core.global("__stack_pointer"), "core does not export __stack_pointer");
|
|
resolved = core.by_name["__stack_pointer"];
|
|
}
|
|
else if(mod == "env" && nm == "__memory_base")
|
|
resolved = wasm_global_as_extern(make_i32_global((int32_t)memory_base, WASM_CONST));
|
|
else if(mod == "env" && nm == "__table_base")
|
|
resolved = wasm_global_as_extern(make_i32_global((int32_t)table_base, WASM_CONST));
|
|
else if(mod == "env" && kind == WASM_EXTERN_FUNC)
|
|
{
|
|
auto it = core.by_name.find(nm);
|
|
CHECK(it != core.by_name.end(), "unresolved unit func import env.%s", nm.c_str());
|
|
resolved = it->second;
|
|
}
|
|
else if(mod == "GOT.mem")
|
|
{
|
|
wasm_global_t* src = core.global(nm.c_str());
|
|
if(src)
|
|
{
|
|
wasm_val_t v;
|
|
wasm_global_get(src, &v);
|
|
resolved = wasm_global_as_extern(make_i32_global(v.of.i32, WASM_VAR));
|
|
}
|
|
else
|
|
{
|
|
// provisional 0; patched from the unit's own export post-instantiation
|
|
wasm_global_t* g = make_i32_global(0, WASM_VAR);
|
|
deferred_got.push_back({ nm, g });
|
|
resolved = wasm_global_as_extern(g);
|
|
}
|
|
}
|
|
else if(mod == "GOT.func")
|
|
{
|
|
// resolved guest-side: the core exports a helper returning
|
|
// (intptr_t)&func, which on wasm is the function's table index —
|
|
// no host-side funcref injection needed (WAMR forbids it anyway)
|
|
std::string helper = "core_table_index_of_" + nm;
|
|
CHECK(core.func(helper.c_str()), "no GOT.func resolver %s in core", helper.c_str());
|
|
int32_t slot = call_i32(core, helper.c_str());
|
|
CHECK(slot > 0, "GOT.func resolver %s returned %d", helper.c_str(), slot);
|
|
printf("resolved GOT.func.%s = table[%d]\n", nm.c_str(), slot);
|
|
resolved = wasm_global_as_extern(make_i32_global(slot, WASM_VAR));
|
|
}
|
|
CHECK(resolved, "unhandled unit import %s.%s (kind %d)", mod.c_str(), nm.c_str(), (int)kind);
|
|
unit_import_externs[i] = resolved;
|
|
}
|
|
|
|
// ---- 5. instantiate unit, patch GOT, run init ---------------------------
|
|
wasm_extern_vec_t unit_iv = { unit_import_externs.size(), unit_import_externs.data() };
|
|
trap = nullptr;
|
|
unit.instance = wasm_instance_new(g_store, unit.module, &unit_iv, &trap);
|
|
report_trap(trap, "unit instantiation");
|
|
CHECK(unit.instance, "unit instantiation failed");
|
|
unit.index_exports();
|
|
printf("unit instantiated: %zu exports\n", unit.by_name.size());
|
|
|
|
for(auto& [nm, got] : deferred_got)
|
|
{
|
|
wasm_global_t* own = unit.global(nm.c_str());
|
|
CHECK(own, "GOT.mem.%s defined neither by core nor by unit", nm.c_str());
|
|
wasm_val_t v;
|
|
wasm_global_get(own, &v);
|
|
// dylink ABI: a PIC module's exported data symbols are offsets relative
|
|
// to its __memory_base; the linker must add the base when resolving
|
|
wasm_val_t nv = WASM_I32_VAL((int32_t)(memory_base + (uint32_t)v.of.i32));
|
|
wasm_global_set(got, &nv);
|
|
printf("self-resolved GOT.mem.%s = %u (offset %d)\n", nm.c_str(), memory_base + (uint32_t)v.of.i32, v.of.i32);
|
|
}
|
|
|
|
if(unit.func("__wasm_apply_data_relocs"))
|
|
call_i32(unit, "__wasm_apply_data_relocs");
|
|
if(unit.func("__wasm_call_ctors"))
|
|
call_i32(unit, "__wasm_call_ctors");
|
|
|
|
// ---- 6. membrane prepare, render and read back ---------------------------
|
|
int32_t rc = call_i32(core, "uce_phase3_prepare");
|
|
CHECK(rc == 0, "uce_phase3_prepare returned %d", rc);
|
|
int32_t request_ptr = call_i32(core, "uce_phase3_request");
|
|
CHECK(request_ptr != 0, "core returned null Request*");
|
|
call_i32(unit, "__uce_set_current_request", { request_ptr });
|
|
call_i32(unit, "__uce_render", { request_ptr });
|
|
call_i32(core, "uce_phase3_finish");
|
|
|
|
int32_t out_ptr = call_i32(core, "uce_phase3_output_data");
|
|
int32_t out_len = call_i32(core, "uce_phase3_output_size");
|
|
byte_t* mem = wasm_memory_data(memory); // may have moved if memory grew
|
|
|
|
printf("---- phase3 unit output (%d bytes) ----\n%.*s\n--------------------------------------\n",
|
|
out_len, out_len, mem + out_ptr);
|
|
|
|
bool ok = out_len > 0 &&
|
|
memmem(mem + out_ptr, out_len, "PHASE3 PAGE OK", 14) &&
|
|
memmem(mem + out_ptr, out_len, "host=phase3.example.test", 24) &&
|
|
memmem(mem + out_ptr, out_len, "answer=42", 9) &&
|
|
memmem(mem + out_ptr, out_len, "each=answer:42", 14) &&
|
|
memmem(mem + out_ptr, out_len, "self-got=42", 11) &&
|
|
memmem(mem + out_ptr, out_len, "map=wise", 8) &&
|
|
memmem(mem + out_ptr, out_len, "callback=42", 11) &&
|
|
memmem(mem + out_ptr, out_len, "got-func-ok", 11) &&
|
|
memmem(mem + out_ptr, out_len, "fn=42", 5);
|
|
|
|
printf(ok ? "PHASE3 EXIT CRITERION: PASS\n" : "PHASE3 EXIT CRITERION: FAIL (see output above)\n");
|
|
return ok ? 0 : 1;
|
|
}
|