uvm_reg_adapter——寄存器模型(十八)
uvm_reg_adapter 功能就是在uvm_reg_bus_op和总线操作之间的转换。主要包含两个函数reg2bus 和bus2reg。
//------------------------------------------------------------------------------ // Title: Classes for Adapting Between Register and Bus Operations // // This section defines classes used to convert transaction streams between // generic register address/data reads and writes and physical bus accesses. //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // // Class: uvm_reg_adapter // // This class defines an interface for converting between <uvm_reg_bus_op> // and a specific bus transaction. //------------------------------------------------------------------------------ virtual class uvm_reg_adapter extends uvm_object; // Function: new // // Create a new instance of this type, giving it the optional ~name~. function new(string name=""); super.new(name); endfunction // Variable: supports_byte_enable // // Set this bit in extensions of this class if the bus protocol supports // byte enables. bit supports_byte_enable; // Variable: provides_responses // // Set this bit in extensions of this class if the bus driver provides // separate response items. bit provides_responses; // Variable: parent_sequence // // Set this member in extensions of this class if the bus driver requires // bus items be executed via a particular sequence base type. The sequence // assigned to this member must implement do_clone(). uvm_sequence_base parent_sequence; // Function: reg2bus // // Extensions of this class ~must~ implement this method to convert the specified // <uvm_reg_bus_op> to a corresponding <uvm_sequence_item> subtype that defines the bus // transaction. // // The method must allocate a new bus-specific <uvm_sequence_item>, // assign its members from // the corresponding members from the given generic ~rw~ bus operation, then // return it. pure virtual function uvm_sequence_item reg2bus(const ref uvm_reg_bus_op rw); // Function: bus2reg // // Extensions of this class ~must~ implement this method to copy members // of the given bus-specific ~bus_item~ to corresponding members of the provided // ~bus_rw~ instance. Unlike <reg2bus>, the resulting transaction // is not allocated from scratch. This is to accommodate applications // where the bus response must be returned in the original request. pure virtual function void bus2reg(uvm_sequence_item bus_item, ref uvm_reg_bus_op rw); local uvm_reg_item m_item; // function: get_item // // Returns the bus-independent read/write information that corresponds to // the generic bus transaction currently translated to a bus-specific // transaction. // This function returns a value reference only when called in the // <uvm_reg_adapter::reg2bus()> method. // It returns ~null~ at all other times. // The content of the return <uvm_reg_item> instance must not be modified // and used strictly to obtain additional information about the operation. virtual function uvm_reg_item get_item(); return m_item; endfunction virtual function void m_set_item(uvm_reg_item item); m_item = item; endfunction endclass //------------------------------------------------------------------------------ // Group: Example // // The following example illustrates how to implement a RegModel-BUS adapter class // for the APB bus protocol. // //|class rreg2apb_adapter extends uvm_reg_adapter; //| `uvm_object_utils(reg2apb_adapter) //| //| function new(string name="reg2apb_adapter"); //| super.new(name); //| //| endfunction //| //| virtual function uvm_sequence_item reg2bus(uvm_reg_bus_op rw); //| apb_item apb = apb_item::type_id::create("apb_item"); //| apb.op = (rw.kind == UVM_READ) ? apb::READ : apb::WRITE; //| apb.addr = rw.addr; //| apb.data = rw.data; //| return apb; //| endfunction //| //| virtual function void bus2reg(uvm_sequencer_item bus_item, //| uvm_reg_bus_op rw); //| apb_item apb; //| if (!$cast(apb,bus_item)) begin //| `uvm_fatal("CONVERT_APB2REG","Bus item is not of type apb_item") //| end //| rw.kind = apb.op==apb::READ ? UVM_READ : UVM_WRITE; //| rw.addr = apb.addr; //| rw.data = apb.data; //| rw.status = UVM_IS_OK; //| endfunction //| //|endclass // //------------------------------------------------------------------------------ //------------------------------------------------------------------------------ // // Class: uvm_reg_tlm_adapter // // For converting between <uvm_reg_bus_op> and <uvm_tlm_gp> items. // //------------------------------------------------------------------------------ class uvm_reg_tlm_adapter extends uvm_reg_adapter; `uvm_object_utils(uvm_reg_tlm_adapter) function new(string name = "uvm_reg_tlm_adapter"); super.new(name); endfunction // Function: reg2bus // // Converts a <uvm_reg_bus_op> struct to a <uvm_tlm_gp> item. virtual function uvm_sequence_item reg2bus(const ref uvm_reg_bus_op rw); uvm_tlm_gp gp = uvm_tlm_gp::type_id::create("tlm_gp",, this.get_full_name()); int nbytes = (rw.n_bits-1)/8+1; uvm_reg_addr_t addr=rw.addr; if (rw.kind == UVM_WRITE) gp.set_command(UVM_TLM_WRITE_COMMAND); else gp.set_command(UVM_TLM_READ_COMMAND); gp.set_address(addr); gp.m_byte_enable = new [nbytes]; gp.m_byte_enable_length = nbytes; gp.set_streaming_width (nbytes); gp.m_data = new [gp.get_streaming_width()]; gp.m_length = nbytes; for (int i = 0; i < nbytes; i++) begin gp.m_data[i] = rw.data[i*8+:8]; gp.m_byte_enable[i] = (i > nbytes) ? 8'h00 : (rw.byte_en[i] ? 8'hFF : 8'h00); end return gp; endfunction // Function: bus2reg // // Converts a <uvm_tlm_gp> item to a <uvm_reg_bus_op>. // into the provided ~rw~ transaction. // virtual function void bus2reg(uvm_sequence_item bus_item, ref uvm_reg_bus_op rw); uvm_tlm_gp gp; int nbytes; if (bus_item == null) `uvm_fatal("REG/NULL_ITEM","bus2reg: bus_item argument is null") if (!$cast(gp,bus_item)) begin `uvm_error("WRONG_TYPE","Provided bus_item is not of type uvm_tlm_gp") return; end if (gp.get_command() == UVM_TLM_WRITE_COMMAND) rw.kind = UVM_WRITE; else rw.kind = UVM_READ; rw.addr = gp.get_address(); rw.byte_en = 0; foreach (gp.m_byte_enable[i]) rw.byte_en[i] = gp.m_byte_enable[i]; rw.data = 0; foreach (gp.m_data[i]) rw.data[i*8+:8] = gp.m_data[i]; rw.status = (gp.is_response_ok()) ? UVM_IS_OK : UVM_NOT_OK; endfunction endclass
