/* * Copyright (c) 2008, 2009, Wayne Meissner * Copyright (c) 2009, Luc Heinrich * * Copyright (c) 2008-2013, Ruby FFI project contributors * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the Ruby FFI project nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #ifndef _MSC_VER # include #endif #include #include #include #include "rbffi.h" #include "compat.h" #include "AbstractMemory.h" #include "Pointer.h" #include "MemoryPointer.h" #include "Function.h" #include "Types.h" #include "StructByValue.h" #include "ArrayType.h" #include "Function.h" #include "MappedType.h" #include "Struct.h" #define FFI_ALIGN(v, a) (((((size_t) (v))-1) | ((a)-1))+1) static void struct_layout_mark(StructLayout *); static void struct_layout_free(StructLayout *); static void struct_field_mark(StructField* ); VALUE rbffi_StructLayoutFieldClass = Qnil; VALUE rbffi_StructLayoutNumberFieldClass = Qnil, rbffi_StructLayoutPointerFieldClass = Qnil; VALUE rbffi_StructLayoutStringFieldClass = Qnil; VALUE rbffi_StructLayoutFunctionFieldClass = Qnil, rbffi_StructLayoutArrayFieldClass = Qnil; VALUE rbffi_StructLayoutClass = Qnil; static VALUE struct_field_allocate(VALUE klass) { StructField* field; VALUE obj; obj = Data_Make_Struct(klass, StructField, struct_field_mark, -1, field); field->rbType = Qnil; field->rbName = Qnil; return obj; } static void struct_field_mark(StructField* f) { rb_gc_mark(f->rbType); rb_gc_mark(f->rbName); } /* * call-seq: initialize(name, offset, type) * @param [String,Symbol] name * @param [Fixnum] offset * @param [FFI::Type] type * @return [self] * A new FFI::StructLayout::Field instance. */ static VALUE struct_field_initialize(int argc, VALUE* argv, VALUE self) { VALUE rbOffset = Qnil, rbName = Qnil, rbType = Qnil; StructField* field; int nargs; Data_Get_Struct(self, StructField, field); nargs = rb_scan_args(argc, argv, "3", &rbName, &rbOffset, &rbType); if (TYPE(rbName) != T_SYMBOL && TYPE(rbName) != T_STRING) { rb_raise(rb_eTypeError, "wrong argument type %s (expected Symbol/String)", rb_obj_classname(rbName)); } Check_Type(rbOffset, T_FIXNUM); if (!rb_obj_is_kind_of(rbType, rbffi_TypeClass)) { rb_raise(rb_eTypeError, "wrong argument type %s (expected FFI::Type)", rb_obj_classname(rbType)); } field->offset = NUM2UINT(rbOffset); field->rbName = (TYPE(rbName) == T_SYMBOL) ? rbName : rb_str_intern(rbName); field->rbType = rbType; Data_Get_Struct(field->rbType, Type, field->type); field->memoryOp = get_memory_op(field->type); field->referenceIndex = -1; switch (field->type->nativeType == NATIVE_MAPPED ? ((MappedType *) field->type)->type->nativeType : field->type->nativeType) { case NATIVE_FUNCTION: case NATIVE_POINTER: field->referenceRequired = true; break; default: field->referenceRequired = (rb_respond_to(self, rb_intern("reference_required?")) && RTEST(rb_funcall2(self, rb_intern("reference_required?"), 0, NULL))) || (rb_respond_to(rbType, rb_intern("reference_required?")) && RTEST(rb_funcall2(rbType, rb_intern("reference_required?"), 0, NULL))); break; } return self; } /* * call-seq: offset * @return [Numeric] * Get the field offset. */ static VALUE struct_field_offset(VALUE self) { StructField* field; Data_Get_Struct(self, StructField, field); return UINT2NUM(field->offset); } /* * call-seq: size * @return [Numeric] * Get the field size. */ static VALUE struct_field_size(VALUE self) { StructField* field; Data_Get_Struct(self, StructField, field); return UINT2NUM(field->type->ffiType->size); } /* * call-seq: alignment * @return [Numeric] * Get the field alignment. */ static VALUE struct_field_alignment(VALUE self) { StructField* field; Data_Get_Struct(self, StructField, field); return UINT2NUM(field->type->ffiType->alignment); } /* * call-seq: type * @return [Type] * Get the field type. */ static VALUE struct_field_type(VALUE self) { StructField* field; Data_Get_Struct(self, StructField, field); return field->rbType; } /* * call-seq: name * @return [Symbol] * Get the field name. */ static VALUE struct_field_name(VALUE self) { StructField* field; Data_Get_Struct(self, StructField, field); return field->rbName; } /* * call-seq: get(pointer) * @param [AbstractMemory] pointer pointer on a {Struct} * @return [Object] * Get an object of type {#type} from memory pointed by +pointer+. */ static VALUE struct_field_get(VALUE self, VALUE pointer) { StructField* f; Data_Get_Struct(self, StructField, f); if (f->memoryOp == NULL) { rb_raise(rb_eArgError, "get not supported for %s", rb_obj_classname(f->rbType)); return Qnil; } return (*f->memoryOp->get)(MEMORY(pointer), f->offset); } /* * call-seq: put(pointer, value) * @param [AbstractMemory] pointer pointer on a {Struct} * @param [Object] value this object must be a kind of {#type} * @return [self] * Put an object to memory pointed by +pointer+. */ static VALUE struct_field_put(VALUE self, VALUE pointer, VALUE value) { StructField* f; Data_Get_Struct(self, StructField, f); if (f->memoryOp == NULL) { rb_raise(rb_eArgError, "put not supported for %s", rb_obj_classname(f->rbType)); return self; } (*f->memoryOp->put)(MEMORY(pointer), f->offset, value); return self; } /* * call-seq: get(pointer) * @param [AbstractMemory] pointer pointer on a {Struct} * @return [Function] * Get a {Function} from memory pointed by +pointer+. */ static VALUE function_field_get(VALUE self, VALUE pointer) { StructField* f; Data_Get_Struct(self, StructField, f); return rbffi_Function_NewInstance(f->rbType, (*rbffi_AbstractMemoryOps.pointer->get)(MEMORY(pointer), f->offset)); } /* * call-seq: put(pointer, proc) * @param [AbstractMemory] pointer pointer to a {Struct} * @param [Function, Proc] proc * @return [Function] * Set a {Function} to memory pointed by +pointer+ as a function. * * If a Proc is submitted as +proc+, it is automatically transformed to a {Function}. */ static VALUE function_field_put(VALUE self, VALUE pointer, VALUE proc) { StructField* f; VALUE value = Qnil; Data_Get_Struct(self, StructField, f); if (NIL_P(proc) || rb_obj_is_kind_of(proc, rbffi_FunctionClass)) { value = proc; } else if (rb_obj_is_kind_of(proc, rb_cProc) || rb_respond_to(proc, rb_intern("call"))) { value = rbffi_Function_ForProc(f->rbType, proc); } else { rb_raise(rb_eTypeError, "wrong type (expected Proc or Function)"); } (*rbffi_AbstractMemoryOps.pointer->put)(MEMORY(pointer), f->offset, value); return self; } static inline bool isCharArray(ArrayType* arrayType) { return arrayType->componentType->nativeType == NATIVE_INT8 || arrayType->componentType->nativeType == NATIVE_UINT8; } /* * call-seq: get(pointer) * @param [AbstractMemory] pointer pointer on a {Struct} * @return [FFI::StructLayout::CharArray, FFI::Struct::InlineArray] * Get an array from a {Struct}. */ static VALUE array_field_get(VALUE self, VALUE pointer) { StructField* f; ArrayType* array; VALUE argv[2]; Data_Get_Struct(self, StructField, f); Data_Get_Struct(f->rbType, ArrayType, array); argv[0] = pointer; argv[1] = self; return rb_class_new_instance(2, argv, isCharArray(array) ? rbffi_StructLayoutCharArrayClass : rbffi_StructInlineArrayClass); } /* * call-seq: put(pointer, value) * @param [AbstractMemory] pointer pointer on a {Struct} * @param [String, Array] value +value+ may be a String only if array's type is a kind of +int8+ * @return [value] * Set an array in a {Struct}. */ static VALUE array_field_put(VALUE self, VALUE pointer, VALUE value) { StructField* f; ArrayType* array; Data_Get_Struct(self, StructField, f); Data_Get_Struct(f->rbType, ArrayType, array); if (isCharArray(array) && rb_obj_is_instance_of(value, rb_cString)) { VALUE argv[2]; argv[0] = INT2FIX(f->offset); argv[1] = value; if (RSTRING_LEN(value) < array->length) { rb_funcall2(pointer, rb_intern("put_string"), 2, argv); } else if (RSTRING_LEN(value) == array->length) { rb_funcall2(pointer, rb_intern("put_bytes"), 2, argv); } else { rb_raise(rb_eIndexError, "String is longer (%ld bytes) than the char array (%d bytes)", RSTRING_LEN(value), array->length); } } else { #ifdef notyet MemoryOp* op; int count = RARRAY_LEN(value); int i; AbstractMemory* memory = MEMORY(pointer); if (count > array->length) { rb_raise(rb_eIndexError, "array too large"); } /* clear the contents in case of a short write */ checkWrite(memory); checkBounds(memory, f->offset, f->type->ffiType->size); if (count < array->length) { memset(memory->address + f->offset + (count * array->componentType->ffiType->size), 0, (array->length - count) * array->componentType->ffiType->size); } /* now copy each element in */ if ((op = get_memory_op(array->componentType)) != NULL) { for (i = 0; i < count; ++i) { (*op->put)(memory, f->offset + (i * array->componentType->ffiType->size), rb_ary_entry(value, i)); } } else if (array->componentType->nativeType == NATIVE_STRUCT) { for (i = 0; i < count; ++i) { VALUE entry = rb_ary_entry(value, i); Struct* s; if (!rb_obj_is_kind_of(entry, rbffi_StructClass)) { rb_raise(rb_eTypeError, "array element not an instance of FFI::Struct"); break; } Data_Get_Struct(entry, Struct, s); checkRead(s->pointer); checkBounds(s->pointer, 0, array->componentType->ffiType->size); memcpy(memory->address + f->offset + (i * array->componentType->ffiType->size), s->pointer->address, array->componentType->ffiType->size); } } else { rb_raise(rb_eNotImpError, "put not supported for arrays of type %s", rb_obj_classname(array->rbComponentType)); } #else rb_raise(rb_eNotImpError, "cannot set array field"); #endif } return value; } static VALUE struct_layout_allocate(VALUE klass) { StructLayout* layout; VALUE obj; obj = Data_Make_Struct(klass, StructLayout, struct_layout_mark, struct_layout_free, layout); layout->rbFieldMap = Qnil; layout->rbFieldNames = Qnil; layout->rbFields = Qnil; layout->base.ffiType = xcalloc(1, sizeof(*layout->base.ffiType)); layout->base.ffiType->size = 0; layout->base.ffiType->alignment = 0; layout->base.ffiType->type = FFI_TYPE_STRUCT; return obj; } /* * call-seq: initialize(fields, size, align) * @param [Array] fields * @param [Numeric] size * @param [Numeric] align * @return [self] * A new StructLayout instance. */ static VALUE struct_layout_initialize(VALUE self, VALUE fields, VALUE size, VALUE align) { StructLayout* layout; ffi_type* ltype; int i; Data_Get_Struct(self, StructLayout, layout); layout->fieldCount = (int) RARRAY_LEN(fields); layout->rbFieldMap = rb_hash_new(); layout->rbFieldNames = rb_ary_new2(layout->fieldCount); layout->size = (int) FFI_ALIGN(NUM2INT(size), NUM2INT(align)); layout->align = NUM2INT(align); layout->fields = xcalloc(layout->fieldCount, sizeof(StructField *)); layout->ffiTypes = xcalloc(layout->fieldCount + 1, sizeof(ffi_type *)); layout->rbFields = rb_ary_new2(layout->fieldCount); layout->referenceFieldCount = 0; layout->base.ffiType->elements = layout->ffiTypes; layout->base.ffiType->size = layout->size; layout->base.ffiType->alignment = layout->align; ltype = layout->base.ffiType; for (i = 0; i < (int) layout->fieldCount; ++i) { VALUE rbField = rb_ary_entry(fields, i); VALUE rbName; StructField* field; ffi_type* ftype; if (!rb_obj_is_kind_of(rbField, rbffi_StructLayoutFieldClass)) { rb_raise(rb_eTypeError, "wrong type for field %d.", i); } rbName = rb_funcall2(rbField, rb_intern("name"), 0, NULL); Data_Get_Struct(rbField, StructField, field); layout->fields[i] = field; if (field->type == NULL || field->type->ffiType == NULL) { rb_raise(rb_eRuntimeError, "type of field %d not supported", i); } ftype = field->type->ffiType; if (ftype->size == 0 && i < ((int) layout->fieldCount - 1)) { rb_raise(rb_eTypeError, "type of field %d has zero size", i); } if (field->referenceRequired) { field->referenceIndex = layout->referenceFieldCount++; } layout->ffiTypes[i] = ftype->size > 0 ? ftype : NULL; rb_hash_aset(layout->rbFieldMap, rbName, rbField); rb_ary_push(layout->rbFields, rbField); rb_ary_push(layout->rbFieldNames, rbName); } if (ltype->size == 0) { rb_raise(rb_eRuntimeError, "Struct size is zero"); } return self; } /* * call-seq: [](field) * @param [Symbol] field * @return [StructLayout::Field] * Get a field from the layout. */ static VALUE struct_layout_union_bang(VALUE self) { const ffi_type *alignment_types[] = { &ffi_type_sint8, &ffi_type_sint16, &ffi_type_sint32, &ffi_type_sint64, &ffi_type_float, &ffi_type_double, &ffi_type_longdouble, NULL }; StructLayout* layout; ffi_type *t = NULL; int count, i; Data_Get_Struct(self, StructLayout, layout); for (i = 0; alignment_types[i] != NULL; ++i) { if (alignment_types[i]->alignment == layout->align) { t = (ffi_type *) alignment_types[i]; break; } } if (t == NULL) { rb_raise(rb_eRuntimeError, "cannot create libffi union representation for alignment %d", layout->align); return Qnil; } count = (int) layout->size / (int) t->size; xfree(layout->ffiTypes); layout->ffiTypes = xcalloc(count + 1, sizeof(ffi_type *)); layout->base.ffiType->elements = layout->ffiTypes; for (i = 0; i < count; ++i) { layout->ffiTypes[i] = t; } return self; } static VALUE struct_layout_aref(VALUE self, VALUE field) { StructLayout* layout; Data_Get_Struct(self, StructLayout, layout); return rb_hash_aref(layout->rbFieldMap, field); } /* * call-seq: fields * @return [Array] * Get fields list. */ static VALUE struct_layout_fields(VALUE self) { StructLayout* layout; Data_Get_Struct(self, StructLayout, layout); return rb_ary_dup(layout->rbFields); } /* * call-seq: members * @return [Array] * Get list of field names. */ static VALUE struct_layout_members(VALUE self) { StructLayout* layout; Data_Get_Struct(self, StructLayout, layout); return rb_ary_dup(layout->rbFieldNames); } /* * call-seq: to_a * @return [Array] * Get an array of fields. */ static VALUE struct_layout_to_a(VALUE self) { StructLayout* layout; Data_Get_Struct(self, StructLayout, layout); return rb_ary_dup(layout->rbFields); } static void struct_layout_mark(StructLayout *layout) { rb_gc_mark(layout->rbFieldMap); rb_gc_mark(layout->rbFieldNames); rb_gc_mark(layout->rbFields); /* Clear the cache, to be safe from changes of fieldName VALUE by GC.compact. * TODO: Move cache clearing to compactation callback provided by Ruby-2.7+. */ memset(&layout->cache_row, 0, sizeof(layout->cache_row)); } static void struct_layout_free(StructLayout *layout) { xfree(layout->ffiTypes); xfree(layout->base.ffiType); xfree(layout->fields); xfree(layout); } void rbffi_StructLayout_Init(VALUE moduleFFI) { VALUE ffi_Type = rbffi_TypeClass; /* * Document-class: FFI::StructLayout < FFI::Type * * This class aims at defining a struct layout. */ rbffi_StructLayoutClass = rb_define_class_under(moduleFFI, "StructLayout", ffi_Type); rb_global_variable(&rbffi_StructLayoutClass); /* * Document-class: FFI::StructLayout::Field * A field in a {StructLayout}. */ rbffi_StructLayoutFieldClass = rb_define_class_under(rbffi_StructLayoutClass, "Field", rb_cObject); rb_global_variable(&rbffi_StructLayoutFieldClass); /* * Document-class: FFI::StructLayout::Number * A numeric {Field} in a {StructLayout}. */ rbffi_StructLayoutNumberFieldClass = rb_define_class_under(rbffi_StructLayoutClass, "Number", rbffi_StructLayoutFieldClass); rb_global_variable(&rbffi_StructLayoutNumberFieldClass); /* * Document-class: FFI::StructLayout::String * A string {Field} in a {StructLayout}. */ rbffi_StructLayoutStringFieldClass = rb_define_class_under(rbffi_StructLayoutClass, "String", rbffi_StructLayoutFieldClass); rb_global_variable(&rbffi_StructLayoutStringFieldClass); /* * Document-class: FFI::StructLayout::Pointer * A pointer {Field} in a {StructLayout}. */ rbffi_StructLayoutPointerFieldClass = rb_define_class_under(rbffi_StructLayoutClass, "Pointer", rbffi_StructLayoutFieldClass); rb_global_variable(&rbffi_StructLayoutPointerFieldClass); /* * Document-class: FFI::StructLayout::Function * A function pointer {Field} in a {StructLayout}. */ rbffi_StructLayoutFunctionFieldClass = rb_define_class_under(rbffi_StructLayoutClass, "Function", rbffi_StructLayoutFieldClass); rb_global_variable(&rbffi_StructLayoutFunctionFieldClass); /* * Document-class: FFI::StructLayout::Array * An array {Field} in a {StructLayout}. */ rbffi_StructLayoutArrayFieldClass = rb_define_class_under(rbffi_StructLayoutClass, "Array", rbffi_StructLayoutFieldClass); rb_global_variable(&rbffi_StructLayoutArrayFieldClass); rb_define_alloc_func(rbffi_StructLayoutFieldClass, struct_field_allocate); rb_define_method(rbffi_StructLayoutFieldClass, "initialize", struct_field_initialize, -1); rb_define_method(rbffi_StructLayoutFieldClass, "offset", struct_field_offset, 0); rb_define_method(rbffi_StructLayoutFieldClass, "size", struct_field_size, 0); rb_define_method(rbffi_StructLayoutFieldClass, "alignment", struct_field_alignment, 0); rb_define_method(rbffi_StructLayoutFieldClass, "name", struct_field_name, 0); rb_define_method(rbffi_StructLayoutFieldClass, "type", struct_field_type, 0); rb_define_method(rbffi_StructLayoutFieldClass, "put", struct_field_put, 2); rb_define_method(rbffi_StructLayoutFieldClass, "get", struct_field_get, 1); rb_define_method(rbffi_StructLayoutFunctionFieldClass, "put", function_field_put, 2); rb_define_method(rbffi_StructLayoutFunctionFieldClass, "get", function_field_get, 1); rb_define_method(rbffi_StructLayoutArrayFieldClass, "get", array_field_get, 1); rb_define_method(rbffi_StructLayoutArrayFieldClass, "put", array_field_put, 2); rb_define_alloc_func(rbffi_StructLayoutClass, struct_layout_allocate); rb_define_method(rbffi_StructLayoutClass, "initialize", struct_layout_initialize, 3); rb_define_method(rbffi_StructLayoutClass, "[]", struct_layout_aref, 1); rb_define_method(rbffi_StructLayoutClass, "fields", struct_layout_fields, 0); rb_define_method(rbffi_StructLayoutClass, "members", struct_layout_members, 0); rb_define_method(rbffi_StructLayoutClass, "to_a", struct_layout_to_a, 0); rb_define_method(rbffi_StructLayoutClass, "__union!", struct_layout_union_bang, 0); }