/* * Copyright 2016 WebAssembly Community Group participants * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "binary-reader-objdump.h" #include #include #include #include #include "binary-reader.h" #include "literal.h" typedef struct Context { const WasmObjdumpOptions* options; WasmStream* out_stream; const uint8_t* data; size_t size; WasmOpcode current_opcode; size_t current_opcode_offset; size_t last_opcode_end; int indent_level; WasmBool print_details; WasmBool header_printed; int section_found; WasmStringSlice import_module_name; WasmStringSlice import_field_name; int function_index; int global_index; } Context; static WasmBool should_print_details(Context* ctx) { if (ctx->options->mode != WASM_DUMP_DETAILS) return WASM_FALSE; return ctx->print_details; } static void WASM_PRINTF_FORMAT(2, 3) print_details(Context* ctx, const char* fmt, ...) { if (!should_print_details(ctx)) return; va_list args; va_start(args, fmt); vprintf(fmt, args); va_end(args); } static WasmResult do_begin_section(Context* ctx, const char* name, size_t offset, size_t size) { switch (ctx->options->mode) { case WASM_DUMP_HEADERS: printf("%9s start=%#010" PRIzx " end=%#010" PRIzx " (size=%#010" PRIzx ") ", name, offset, offset + size, size); break; case WASM_DUMP_DETAILS: if (!ctx->options->section_name || !strcasecmp(ctx->options->section_name, name)) { printf("%s:\n", name); ctx->print_details = WASM_TRUE; ctx->section_found = WASM_TRUE; } else { ctx->print_details = WASM_FALSE; } break; case WASM_DUMP_RAW_DATA: printf("\nContents of section %s:\n", name); wasm_write_memory_dump(ctx->out_stream, ctx->data + offset, size, offset, WASM_PRINT_CHARS, NULL, NULL); break; case WASM_DUMP_DISASSEMBLE: break; } return WASM_OK; } static WasmResult begin_section(WasmBinaryReaderContext* ctx, WasmBinarySection type, uint32_t size) { return do_begin_section(ctx->user_data, wasm_get_section_name(type), ctx->offset, size); } static WasmResult begin_custom_section(WasmBinaryReaderContext* ctx, uint32_t size, WasmStringSlice section_name) { Context* context = ctx->user_data; print_details(context, " - name: \"" PRIstringslice "\"\n", WASM_PRINTF_STRING_SLICE_ARG(section_name)); if (context->options->mode == WASM_DUMP_HEADERS) printf("\"" PRIstringslice "\"\n", WASM_PRINTF_STRING_SLICE_ARG(section_name)); return WASM_OK; } static WasmResult on_count(uint32_t count, void* user_data) { Context* ctx = user_data; if (ctx->options->mode == WASM_DUMP_HEADERS) { printf("count: %d\n", count); } return WASM_OK; } static WasmResult begin_module(uint32_t version, void* user_data) { Context* ctx = user_data; if (ctx->options->print_header) { const char *basename = strrchr(ctx->options->infile, '/'); if (basename) basename++; else basename = ctx->options->infile; printf("%s:\tfile format wasm %#08x\n", basename, version); ctx->header_printed = WASM_TRUE; } switch (ctx->options->mode) { case WASM_DUMP_HEADERS: printf("\n"); printf("Sections:\n"); break; case WASM_DUMP_DETAILS: printf("\n"); printf("Section Details:\n"); break; case WASM_DUMP_DISASSEMBLE: printf("\n"); printf("Code Disassembly:\n"); break; case WASM_DUMP_RAW_DATA: break; } return WASM_OK; } static WasmResult end_module(void *user_data) { Context* ctx = user_data; if (ctx->options->mode == WASM_DUMP_DETAILS && ctx->options->section_name) { if (!ctx->section_found) { printf("Section not found: %s\n", ctx->options->section_name); return WASM_ERROR; } } return WASM_OK; } static WasmResult on_opcode(WasmBinaryReaderContext* ctx, WasmOpcode opcode) { Context* context = ctx->user_data; if (context->options->debug) { const char* opcode_name = wasm_get_opcode_name(opcode); printf("on_opcode: %#" PRIzx ": %s\n", ctx->offset, opcode_name); } if (context->last_opcode_end) { if (ctx->offset != context->last_opcode_end + 1) { uint8_t missing_opcode = ctx->data[context->last_opcode_end]; const char* opcode_name = wasm_get_opcode_name(missing_opcode); fprintf(stderr, "warning: %#" PRIzx " missing opcode callback at %#" PRIzx " (%#02x=%s)\n", ctx->offset, context->last_opcode_end + 1, ctx->data[context->last_opcode_end], opcode_name); return WASM_ERROR; } } context->current_opcode_offset = ctx->offset; context->current_opcode = opcode; return WASM_OK; } #define IMMEDIATE_OCTET_COUNT 9 static void log_opcode(Context* ctx, const uint8_t* data, size_t data_size, const char* fmt, ...) { size_t offset = ctx->current_opcode_offset; // Print binary data printf(" %06" PRIzx ": %02x", offset - 1, ctx->current_opcode); size_t i; for (i = 0; i < data_size && i < IMMEDIATE_OCTET_COUNT; i++, offset++) { printf(" %02x", data[offset]); } for (i = data_size + 1; i < IMMEDIATE_OCTET_COUNT; i++) { printf(" "); } printf(" | "); // Print disassemble int j; int indent_level = ctx->indent_level; if (ctx->current_opcode == WASM_OPCODE_ELSE) indent_level--; for (j = 0; j < indent_level; j++) { printf(" "); } const char* opcode_name = wasm_get_opcode_name(ctx->current_opcode); printf("%s", opcode_name); if (fmt) { printf(" "); va_list args; va_start(args, fmt); vprintf(fmt, args); va_end(args); } printf("\n"); ctx->last_opcode_end = ctx->current_opcode_offset + data_size; } static WasmResult on_opcode_bare(WasmBinaryReaderContext* ctx) { Context* context = ctx->user_data; log_opcode(context, ctx->data, 0, NULL); return WASM_OK; } static WasmResult on_opcode_uint32(WasmBinaryReaderContext* ctx, uint32_t value) { Context* context = ctx->user_data; size_t immediate_len = ctx->offset - context->current_opcode_offset; log_opcode(context, ctx->data, immediate_len, "%#x", value); return WASM_OK; } static WasmResult on_opcode_uint32_uint32(WasmBinaryReaderContext* ctx, uint32_t value, uint32_t value2) { Context* context = ctx->user_data; size_t immediate_len = ctx->offset - context->current_opcode_offset; log_opcode(context, ctx->data, immediate_len, "%lu %lu", value, value2); return WASM_OK; } static WasmResult on_opcode_uint64(WasmBinaryReaderContext* ctx, uint64_t value) { Context* context = ctx->user_data; size_t immediate_len = ctx->offset - context->current_opcode_offset; log_opcode(context, ctx->data, immediate_len, "%d", value); return WASM_OK; } static WasmResult on_opcode_f32(WasmBinaryReaderContext* ctx, uint32_t value) { Context* context = ctx->user_data; size_t immediate_len = ctx->offset - context->current_opcode_offset; char buffer[WASM_MAX_FLOAT_HEX]; wasm_write_float_hex(buffer, sizeof(buffer), value); log_opcode(context, ctx->data, immediate_len, buffer); return WASM_OK; } static WasmResult on_opcode_f64(WasmBinaryReaderContext* ctx, uint64_t value) { Context* context = ctx->user_data; size_t immediate_len = ctx->offset - context->current_opcode_offset; char buffer[WASM_MAX_DOUBLE_HEX]; wasm_write_double_hex(buffer, sizeof(buffer), value); log_opcode(context, ctx->data, immediate_len, buffer); return WASM_OK; } WasmResult on_br_table_expr(WasmBinaryReaderContext* ctx, uint32_t num_targets, uint32_t* target_depths, uint32_t default_target_depth) { Context* context = ctx->user_data; size_t immediate_len = ctx->offset - context->current_opcode_offset; /* TODO(sbc): Print targets */ log_opcode(context, ctx->data, immediate_len, NULL); return WASM_OK; } static WasmResult on_end_expr(void* user_data) { Context* context = user_data; context->indent_level--; assert(context->indent_level >= 0); log_opcode(context, NULL, 0, NULL); return WASM_OK; } static const char* wasm_type_name(WasmType type) { switch (type) { case WASM_TYPE_I32: return "i32"; case WASM_TYPE_I64: return "i64"; case WASM_TYPE_F32: return "f32"; case WASM_TYPE_F64: return "f64"; default: assert(0); return "INVALID TYPE"; } } static WasmResult on_opcode_block_sig(WasmBinaryReaderContext* ctx, uint32_t num_types, WasmType* sig_types) { Context* context = ctx->user_data; if (num_types) log_opcode(context, ctx->data, 1, "%s", wasm_type_name(*sig_types)); else log_opcode(context, ctx->data, 1, NULL); context->indent_level++; return WASM_OK; } static WasmResult on_signature(uint32_t index, uint32_t param_count, WasmType* param_types, uint32_t result_count, WasmType* result_types, void* user_data) { Context* ctx = user_data; if (!should_print_details(ctx)) return WASM_OK; printf(" - [%d] (", index); uint32_t i; for (i = 0; i < param_count; i++) { if (i != 0) { printf(", "); } printf("%s", wasm_type_name(param_types[i])); } printf(") -> "); if (result_count) printf("%s", wasm_type_name(result_types[0])); else printf("nil"); printf("\n"); return WASM_OK; } static WasmResult on_function_signature(uint32_t index, uint32_t sig_index, void* user_data) { Context* ctx = user_data; print_details(user_data, " - func[%d] sig=%d\n", ctx->function_index, sig_index); ctx->function_index++; return WASM_OK; } static WasmResult begin_function_body(uint32_t index, void* user_data) { Context* ctx = user_data; if (should_print_details(ctx)) printf(" - func %d\n", index); if (ctx->options->mode == WASM_DUMP_DISASSEMBLE) printf("func %d\n", index); ctx->last_opcode_end = 0; return WASM_OK; } static WasmResult on_import(uint32_t index, WasmStringSlice module_name, WasmStringSlice field_name, void* user_data) { Context* ctx = user_data; ctx->import_module_name = module_name; ctx->import_field_name = field_name; return WASM_OK; } static WasmResult on_import_func(uint32_t index, uint32_t sig_index, void* user_data) { Context* ctx = user_data; print_details(user_data, " - func[%d] sig=%d <- " PRIstringslice "." PRIstringslice "\n", ctx->function_index, sig_index, WASM_PRINTF_STRING_SLICE_ARG(ctx->import_module_name), WASM_PRINTF_STRING_SLICE_ARG(ctx->import_field_name)); ctx->function_index++; return WASM_OK; } static WasmResult on_import_table(uint32_t index, WasmType elem_type, const WasmLimits* elem_limits, void* user_data) { Context* ctx = user_data; print_details( user_data, " - " PRIstringslice "." PRIstringslice " -> table elem_type=%s init=%" PRId64 " max=%" PRId64 "\n", WASM_PRINTF_STRING_SLICE_ARG(ctx->import_module_name), WASM_PRINTF_STRING_SLICE_ARG(ctx->import_field_name), wasm_get_type_name(elem_type), elem_limits->initial, elem_limits->max); return WASM_OK; } static WasmResult on_import_memory(uint32_t index, const WasmLimits* page_limits, void* user_data) { Context* ctx = user_data; print_details(user_data, " - " PRIstringslice "." PRIstringslice " -> memory\n", WASM_PRINTF_STRING_SLICE_ARG(ctx->import_module_name), WASM_PRINTF_STRING_SLICE_ARG(ctx->import_field_name)); return WASM_OK; } static WasmResult on_import_global(uint32_t index, WasmType type, WasmBool mutable_, void* user_data) { Context* ctx = user_data; print_details(user_data, " - global[%d] %s mutable=%d <- " PRIstringslice "." PRIstringslice "\n", ctx->global_index, wasm_get_type_name(type), mutable_, WASM_PRINTF_STRING_SLICE_ARG(ctx->import_module_name), WASM_PRINTF_STRING_SLICE_ARG(ctx->import_field_name)); ctx->global_index++; return WASM_OK; } static WasmResult on_memory(uint32_t index, const WasmLimits* page_limits, void* user_data) { print_details(user_data, " - memory[%d] pages: initial=%" PRId64, index, page_limits->initial); if (page_limits->has_max) print_details(user_data, " max=%" PRId64, page_limits->max); print_details(user_data, "\n"); return WASM_OK; } static WasmResult on_table(uint32_t index, WasmType elem_type, const WasmLimits* elem_limits, void* user_data) { print_details(user_data, " - table[%d] type=%s initial=%" PRId64, index, wasm_get_type_name(elem_type), elem_limits->initial); if (elem_limits->has_max) print_details(user_data, " max=%" PRId64, elem_limits->max); print_details(user_data, "\n"); return WASM_OK; } static WasmResult on_export(uint32_t index, WasmExternalKind kind, uint32_t item_index, WasmStringSlice name, void* user_data) { print_details(user_data, " - %s[%d] ", wasm_get_kind_name(kind), item_index); print_details(user_data, PRIstringslice, WASM_PRINTF_STRING_SLICE_ARG(name)); print_details(user_data, "\n"); return WASM_OK; } static WasmResult on_elem_segment_function_index(uint32_t index, uint32_t func_index, void* user_data) { print_details(user_data, " - func[%d]\n", func_index); return WASM_OK; } static WasmResult begin_elem_segment(uint32_t index, uint32_t table_index, void* user_data) { print_details(user_data, " - segment[%d] table=%d\n", index, table_index); return WASM_OK; } static WasmResult begin_global(uint32_t index, WasmType type, WasmBool mutable, void* user_data) { Context* ctx = user_data; print_details(user_data, " - global[%d] %s mutable=%d", ctx->global_index, wasm_get_type_name(type), mutable); ctx->global_index++; return WASM_OK; } static WasmResult on_init_expr_f32_const_expr(uint32_t index, uint32_t value, void* user_data) { char buffer[WASM_MAX_FLOAT_HEX]; wasm_write_float_hex(buffer, sizeof(buffer), value); print_details(user_data, " - init f32=%s\n", buffer); return WASM_OK; } static WasmResult on_init_expr_f64_const_expr(uint32_t index, uint64_t value, void* user_data) { char buffer[WASM_MAX_DOUBLE_HEX]; wasm_write_float_hex(buffer, sizeof(buffer), value); print_details(user_data, " - init f64=%s\n", buffer); return WASM_OK; } static WasmResult on_init_expr_get_global_expr(uint32_t index, uint32_t global_index, void* user_data) { print_details(user_data, " - init global=%d\n", global_index); return WASM_OK; } static WasmResult on_init_expr_i32_const_expr(uint32_t index, uint32_t value, void* user_data) { print_details(user_data, " - init i32=%d\n", value); return WASM_OK; } static WasmResult on_init_expr_i64_const_expr(uint32_t index, uint64_t value, void* user_data) { print_details(user_data, " - init i64=%" PRId64 "\n", value); return WASM_OK; } static WasmResult on_function_name(uint32_t index, WasmStringSlice name, void* user_data) { print_details(user_data, " - func[%d] " PRIstringslice "\n", index, WASM_PRINTF_STRING_SLICE_ARG(name)); return WASM_OK; } static WasmResult on_local_name(uint32_t func_index, uint32_t local_index, WasmStringSlice name, void* user_data) { if (name.length) { print_details(user_data, " - local[%d] " PRIstringslice "\n", local_index, WASM_PRINTF_STRING_SLICE_ARG(name)); } return WASM_OK; } static void on_error(WasmBinaryReaderContext* ctx, const char* message) { WasmDefaultErrorHandlerInfo info; info.header = "error reading binary"; info.out_file = stdout; info.print_header = WASM_PRINT_ERROR_HEADER_ONCE; wasm_default_binary_error_callback(ctx->offset, message, &info); } static WasmResult begin_data_segment(uint32_t index, uint32_t memory_index, void* user_data) { Context* ctx = user_data; print_details(ctx, " - memory[%d]", memory_index); return WASM_OK; } static WasmResult on_data_segment_data(uint32_t index, const void* src_data, uint32_t size, void* user_data) { Context* ctx = user_data; if (should_print_details(ctx)) { wasm_write_memory_dump(ctx->out_stream, src_data, size, 0, WASM_PRINT_CHARS, " - ", NULL); } return WASM_OK; } static WasmBinaryReader s_binary_reader = { .user_data = NULL, .begin_module = begin_module, .end_module = end_module, .on_error = on_error, .begin_section = begin_section, // User section .begin_custom_section = begin_custom_section, // Signature section .on_signature_count = on_count, .on_signature = on_signature, // Import section .on_import_count = on_count, .on_import = on_import, .on_import_func = on_import_func, .on_import_table = on_import_table, .on_import_memory = on_import_memory, .on_import_global = on_import_global, // Function sigs section .on_function_signatures_count = on_count, .on_function_signature = on_function_signature, // Table section .on_table_count = on_count, .on_table = on_table, // Memory section .on_memory_count = on_count, .on_memory = on_memory, // Globl seciont .begin_global = begin_global, .on_global_count = on_count, // Export section .on_export_count = on_count, .on_export = on_export, // Body section .on_function_bodies_count = on_count, .begin_function_body = begin_function_body, // Elems section .begin_elem_segment = begin_elem_segment, .on_elem_segment_count = on_count, .on_elem_segment_function_index = on_elem_segment_function_index, // Data section .begin_data_segment = begin_data_segment, .on_data_segment_data = on_data_segment_data, .on_data_segment_count = on_count, // Known "User" sections: // - Names section .on_function_name = on_function_name, .on_local_name = on_local_name, .on_init_expr_i32_const_expr = on_init_expr_i32_const_expr, .on_init_expr_i64_const_expr = on_init_expr_i64_const_expr, .on_init_expr_f32_const_expr = on_init_expr_f32_const_expr, .on_init_expr_f64_const_expr = on_init_expr_f64_const_expr, .on_init_expr_get_global_expr = on_init_expr_get_global_expr, }; WasmResult wasm_read_binary_objdump(struct WasmAllocator* allocator, const uint8_t* data, size_t size, const WasmObjdumpOptions* options) { WasmBinaryReader reader; WASM_ZERO_MEMORY(reader); reader = s_binary_reader; Context context; WASM_ZERO_MEMORY(context); context.header_printed = WASM_FALSE; context.print_details = WASM_FALSE; context.section_found = WASM_FALSE; context.data = data; context.size = size; context.options = options; context.out_stream = wasm_init_stdout_stream(); if (options->mode == WASM_DUMP_DISASSEMBLE) { reader.on_opcode = on_opcode; reader.on_opcode_bare = on_opcode_bare; reader.on_opcode_uint32 = on_opcode_uint32; reader.on_opcode_uint32_uint32 = on_opcode_uint32_uint32; reader.on_opcode_uint64 = on_opcode_uint64; reader.on_opcode_f32 = on_opcode_f32; reader.on_opcode_f64 = on_opcode_f64; reader.on_opcode_block_sig = on_opcode_block_sig; reader.on_end_expr = on_end_expr; reader.on_br_table_expr = on_br_table_expr; } reader.user_data = &context; WasmReadBinaryOptions read_options = WASM_READ_BINARY_OPTIONS_DEFAULT; read_options.read_debug_names = WASM_TRUE; return wasm_read_binary(allocator, data, size, &reader, 1, &read_options); }