Mercurial > repos > blastem
view vos_program_module.c @ 1637:95880d947257
Fix for VRAM byte write order broke VDP FIFO testing ROM results. This change cleans up VRAM writes and fixes the regression while preserving the correct VRAM byte write order
| author | Michael Pavone <pavone@retrodev.com> |
|---|---|
| date | Sun, 11 Nov 2018 22:39:29 -0800 |
| parents | de6f00204fa2 |
| children |
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#include <stdio.h> #include <stdlib.h> #include <stddef.h> #include <string.h> #include "vos_program_module.h" static uint16_t big16(uint8_t ** src) { uint16_t ret = *((*src)++) << 8; ret |= *((*src)++); return ret; } static uint32_t big32(uint8_t ** src) { uint32_t ret = *((*src)++) << 24; ret |= *((*src)++) << 16; ret |= *((*src)++) << 8; ret |= *((*src)++); return ret; } static void string_(uint8_t ** src, uint16_t *len, char * str, uint32_t storage) { *len = big16(src); memcpy(str, *src, storage); *src += storage; if (*len >= storage) { *len = storage; } else { str[*len] = 0; } if (storage & 1) { (*src)++; } } #define string(src, field) string_(src, &(field).len, (field).str, sizeof((field).str)) int vos_read_header(FILE * f, vos_program_module *out) { uint8_t buffer[4096]; if (fread(buffer, 1, sizeof(buffer), f) != sizeof(buffer)) { return 0; } uint8_t *cur = buffer; out->version = big16(&cur); string(&cur, out->binder_version); string(&cur, out->binder_options); string(&cur, out->system_name); string(&cur, out->user_name); out->date_bound = big32(&cur); out->main_entry_link.code_address = big32(&cur); out->main_entry_link.static_address = big32(&cur); out->user_boundary = big32(&cur); out->n_modules = big16(&cur); out->n_external_vars = big16(&cur); out->n_link_names = big16(&cur); out->n_unsnapped_links = big16(&cur); out->n_vm_pages = big16(&cur); out->n_header_pages = big16(&cur); for (int i = 0; i < 3; i++) { for (int j = 0; j < 4; j++) { out->info[i][j].address = big32(&cur); out->info[i][j].len = big32(&cur); } } out->module_map_address = big32(&cur); out->module_map_len = big32(&cur); out->external_vars_map_address = big32(&cur); out->external_vars_map_len = big32(&cur); out->link_names_map_address = big32(&cur); out->link_names_map_len = big32(&cur); out->link_map_address = big32(&cur); out->link_map_len = big32(&cur); out->header_address = big32(&cur); out->header_len = big32(&cur); memcpy(out->access_info, cur, sizeof(out->access_info)); cur += sizeof(out->access_info); out->flags = big32(&cur); out->n_tasks = big16(&cur); for (int i = 0; i < 3; i++) { out->task_static_len[i] = big32(&cur); } out->stack_len = big32(&cur); out->n_entries = big16(&cur); out->entry_map_address = big32(&cur); out->entry_map_len = big32(&cur); out->pop_version = big16(&cur); out->processor = big16(&cur); string(&cur, out->release_name); out->relocation_info.map_address = big32(&cur); out->relocation_info.map_len = big32(&cur); out->relocation_info.n_relocations = big32(&cur); out->high_water_mark = big32(&cur); string(&cur, out->copyright_notice); for (int i = 0; i < 14; i++) { out->module_origins[i] = big32(&cur); } out->processor_family = big16(&cur); string(&cur, out->program_name); out->string_pool_address = big32(&cur); out->string_pool_len = big32(&cur); out->obj_dir_map_address = big32(&cur); out->obj_dir_map_len = big32(&cur); for (int i = 0; i < 3; i++) { out->global_offset_table_address[i] = big32(&cur); } for (int i = 0; i < 3; i++) { out->block_map_info[i].address = big32(&cur); out->block_map_info[i].len = big32(&cur); } out->section_map_file_address = big32(&cur); out->section_map_address = big32(&cur); out->section_map_len = big32(&cur); out->n_sections = big16(&cur); out->max_heap_size = big32(&cur); out->max_program_size = big32(&cur); out->max_stack_size = big32(&cur); out->stack_fence_size = big32(&cur); out->module_map_entries = NULL; out->external_vars = NULL; return 1; } #define MODULE_MAP_ENTRY_SIZE 74 int vos_read_alloc_module_map(FILE * f, vos_program_module *header) { if (header->module_map_len != header->n_modules * MODULE_MAP_ENTRY_SIZE) { return 0; } uint8_t * buf = malloc(header->module_map_len); fseek(f, header->module_map_address + 0x1000 - header->user_boundary, SEEK_SET); if (fread(buf, 1, header->module_map_len, f) != header->module_map_len) { free(buf); return 0; } uint8_t * cur = buf; header->module_map_entries = malloc(sizeof(vos_module_map_entry) * header->n_modules); for (int i = 0; i < header->n_modules; i++) { string(&cur, header->module_map_entries[i].name); for (int j = 0; j < 5; j++) { header->module_map_entries[i].unknown[j] = big16(&cur); } header->module_map_entries[i].code_address = big32(&cur); header->module_map_entries[i].code_length = big32(&cur); header->module_map_entries[i].foo_address = big32(&cur); header->module_map_entries[i].foo_length = big32(&cur); header->module_map_entries[i].bar_address = big32(&cur); header->module_map_entries[i].bar_length = big32(&cur); for (int j = 0; j < 3; j++) { header->module_map_entries[i].unknown2[j] = big16(&cur); } } return 1; } #define EXTERNAL_VAR_ENTRY_SIZE 44 int vos_read_alloc_external_vars(FILE * f, vos_program_module *header) { if (header->external_vars_map_len != header->n_external_vars * EXTERNAL_VAR_ENTRY_SIZE) { return 0; } uint8_t * buf = malloc(header->external_vars_map_len); fseek(f, header->external_vars_map_address + 0x1000 - header->user_boundary, SEEK_SET); if (fread(buf, 1, header->external_vars_map_len, f) != header->external_vars_map_len) { free(buf); return 0; } uint8_t * cur = buf; header->external_vars = malloc(sizeof(vos_external_var_entry) * header->n_external_vars); for (int i = 0; i < header->n_external_vars; i++) { string(&cur, header->external_vars[i].name); header->external_vars[i].address = big32(&cur); for (int j = 0; j < 3; j++) { header->external_vars[i].unknown[j] = big16(&cur); } } return 1; } void vos_header_cleanup(vos_program_module *header) { free(header->module_map_entries); free(header->external_vars); }