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[/] [usb11/] [trunk/] [rtl/] [systemc/] [usb_pe_sie.h] - Rev 2
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///////////////////////////////////////////////////////////////////// //// //// //// USB Protocol Engine //// //// Performs automatic protocol functions //// //// //// //// SystemC Version: usb_pe_sie.h //// //// Author: Alfredo Luiz Foltran Fialho //// //// alfoltran@ig.com.br //// //// //// //// //// ///////////////////////////////////////////////////////////////////// //// //// //// Verilog Version: usb1_pe.v //// //// Copyright (C) 2000-2002 Rudolf Usselmann //// //// www.asics.ws //// //// rudi@asics.ws //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer.//// //// //// //// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY //// //// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED //// //// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS //// //// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR //// //// OR CONTRIBUTORS 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. //// //// //// ///////////////////////////////////////////////////////////////////// #ifndef USB_PE_SIE_H #define USB_PE_SIE_H #include "usb_defines.h" // TX Token Decoding enum PE_TX_TOKEN {PE_ACK, PE_NACK, PE_STALL, PE_NYET}; // State Decoding enum PE_STATE { PE_IDLE = 1, PE_TOKEN = 2, PE_IN = 4, PE_IN2 = 8, PE_OUT = 16, PE_OUT2A = 32, PE_OUT2B = 64, PE_UPDATEW = 128, PE_UPDATE = 256, PE_UPDATE2 = 512}; SC_MODULE(usb_pe_sie) { public: sc_in<bool> clk; sc_in<bool> rst; // PL Interface sc_in<bool> tx_valid; sc_in<bool> rx_active; // PD Interface // Decoded PIDs (used when token_valid is asserted) sc_in<bool> pid_OUT, pid_IN, pid_SOF, pid_SETUP; sc_in<bool> pid_DATA0, pid_DATA1, pid_DATA2, pid_MDATA; sc_in<bool> pid_ACK, pid_PING; sc_in<bool> token_valid; // Token is valid sc_in<bool> rx_data_done; // Indicates end of a transfer sc_in<bool> crc16_err; // Data packet CRC16 error // PA Interface sc_out<bool> send_token; sc_out<sc_uint<2> > token_pid_sel; sc_out<sc_uint<2> > data_pid_sel; // IDMA Interface sc_out<bool> rx_dma_en; // Allows the data to be stored sc_out<bool> tx_dma_en; // Allows for data to be retrieved sc_out<bool> abort; // Abort transfer (time out, CRC error or RX error) sc_in<bool> idma_done; // DMA is done indicator sc_in<bool> ep_full; // Indicates the endpoints FIFOs is full sc_in<bool> ep_empty; // Indicates the endpoints FIFOs is empty // Register File Interface sc_in<bool> fsel; // This function is selected sc_in<sc_uint<4> > ep_sel; // Endpoint Number Input sc_in<bool> match; // Endpoint Matched sc_out<bool> nse_err; // No such endpoint error sc_out<bool> int_upid_set; // Set unsupported PID interrupt sc_out<bool> int_crc16_set; // Set CRC16 error interrupt sc_out<bool> int_to_set; // Set time out interrupt sc_out<bool> int_seqerr_set; // Set PID sequence error interrupt sc_in<sc_uint<14> > csr; // Internal CSR Output sc_in<bool> send_stall; // Force sending a STALL during setup // Local Signals sc_signal<sc_uint<2> > token_pid_sel_d; sc_signal<bool> send_token_d; sc_signal<bool> int_seqerr_set_d; sc_signal<bool> match_r; // Endpoint Decoding sc_signal<bool> IN_ep, OUT_ep, CTRL_ep; // Endpoint Types sc_signal<bool> txfr_iso, txfr_bulk, txfr_int; // Transfer Types sc_signal<sc_uint<2> > uc_dpd; // Buffer checks sc_signal<sc_uint<10> > state, next_state;// synopsys state_vector state // PID next and current decoders sc_signal<sc_uint<2> > next_dpid; sc_signal<sc_uint<2> > this_dpid; sc_signal<bool> pid_seq_err; sc_signal<sc_uint<2> > tr_fr_d; sc_signal<sc_uint<14> > size_next; sc_signal<bool> buf_smaller; // After sending data in response to an IN token from host, the // host must reply with an ack. The host has XXXnS to reply. // "rx_ack_to" indicates when this time has expired. // rx_ack_to_clr, clears the timer sc_signal<bool> rx_ack_to_clr; sc_signal<bool> rx_ack_to_clr_d; sc_signal<bool> rx_ack_to; sc_signal<sc_uint<8> > rx_ack_to_cnt; // After sending a OUT token the host must send a data packet, // the host has XXXnS to send the packet. "tx_data_to" indicates // when this time has expired. // tx_data_to_clr, clears the timer sc_signal<bool> tx_data_to_clr; sc_signal<bool> tx_data_to; sc_signal<sc_uint<8> > tx_data_to_cnt; sc_signal<sc_uint<8> > rx_ack_to_val, tx_data_to_val; sc_signal<sc_uint<2> > next_bsel; sc_signal<bool> uc_stat_set_d; sc_signal<bool> uc_dpd_set; sc_signal<bool> in_token; sc_signal<bool> out_token; sc_signal<bool> setup_token; sc_signal<bool> in_op, out_op; // Indicate a IN or OUT operation sc_signal<sc_uint<2> > allow_pid; sc_signal<sc_uint<2> > ep_type, txfr_type; sc_signal<sc_uint<2> > ep0_dpid, ep1_dpid, ep2_dpid, ep3_dpid; sc_signal<sc_uint<2> > ep4_dpid, ep5_dpid, ep6_dpid, ep7_dpid; sc_signal<bool> pid_OUT_r, pid_IN_r, pid_PING_r, pid_SETUP_r; sc_signal<bool> send_stall_r; // Misc Functions void csr_decoder(void); void match_up(void); void nse_err_up(void); void send_token_up(void); void token_pid_sel_up(void); // Data PID Storage Functions void ep0_dpid_up(void); void ep1_dpid_up(void); void ep2_dpid_up(void); void ep3_dpid_up(void); void ep4_dpid_up(void); void ep5_dpid_up(void); void ep6_dpid_up(void); void ep7_dpid_up(void); void uc_dpd_up(void); // Data PID Sequencer Function void sq_statemachine(void); // Current PID Decoder Functions void allow_pid_up(void); void this_dpid_up(void); void data_pid_sel_up(void); void pid_seq_err_up(void); // IDMA Setup and Buffer Select Functions void in_token_up(void); void out_token_up(void); void setup_token_up(void); void in_op_up(void); void out_op_up(void); // Register File Update Logic Functions void uc_dpd_set_up(void); void abort_up(void); // Time Out Functions void rx_ack_up1(void); void rx_ack_up2(void); void rx_ack_up3(void); void tx_data_up1(void); void tx_data_up2(void); void tx_data_up3(void); // Interrupts Functions void pid_OUT_up(void); void pid_IN_up(void); void pid_PING_up(void); void pid_SETUP_up(void); void int_upid_up(void); void int_to_up(void); void int_crc16_up(void); void int_seqerr_up(void); void send_stall_up(void); // Main Protocol State Machine Functions void state_up(void); void pe_statemachine(void); SC_CTOR(usb_pe_sie) { tr_fr_d.write(0); rx_ack_to_val.write(USBF_RX_ACK_TO_VAL_FS); tx_data_to_val.write(USBF_TX_DATA_TO_VAL_FS); SC_METHOD(csr_decoder); sensitive << csr; SC_METHOD(match_up); sensitive << clk.pos(); SC_METHOD(nse_err_up); sensitive << clk.pos(); SC_METHOD(send_token_up); sensitive << clk.pos(); SC_METHOD(token_pid_sel_up); sensitive << clk.pos(); SC_METHOD(ep0_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep1_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep2_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep3_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep4_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep5_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep6_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(ep7_dpid_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(uc_dpd_up); sensitive << clk.pos(); SC_METHOD(sq_statemachine); sensitive << clk.pos(); SC_METHOD(allow_pid_up); sensitive << pid_DATA0 << pid_DATA1 << pid_DATA2 << pid_MDATA; SC_METHOD(this_dpid_up); sensitive << clk.pos(); SC_METHOD(data_pid_sel_up); sensitive << this_dpid; SC_METHOD(pid_seq_err_up); sensitive << clk.pos(); SC_METHOD(in_token_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(out_token_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(setup_token_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(in_op_up); sensitive << IN_ep << CTRL_ep << in_token; SC_METHOD(out_op_up); sensitive << OUT_ep << CTRL_ep << out_token; SC_METHOD(uc_dpd_set_up); sensitive << clk.pos(); SC_METHOD(abort_up); sensitive << clk.pos(); SC_METHOD(rx_ack_up1); sensitive << clk.pos(); SC_METHOD(rx_ack_up2); sensitive << clk.pos(); SC_METHOD(rx_ack_up3); sensitive << clk.pos(); SC_METHOD(tx_data_up1); sensitive << rx_active; SC_METHOD(tx_data_up2); sensitive << clk.pos(); SC_METHOD(tx_data_up3); sensitive << clk.pos(); SC_METHOD(pid_OUT_up); sensitive << clk.pos(); SC_METHOD(pid_IN_up); sensitive << clk.pos(); SC_METHOD(pid_PING_up); sensitive << clk.pos(); SC_METHOD(pid_SETUP_up); sensitive << clk.pos(); SC_METHOD(int_upid_up); sensitive << clk.pos(); SC_METHOD(int_to_up); sensitive << state << rx_ack_to << tx_data_to; SC_METHOD(int_crc16_up); sensitive << rx_data_done << crc16_err; SC_METHOD(int_seqerr_up); sensitive << clk.pos(); SC_METHOD(send_stall_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(state_up); sensitive << clk.pos() << rst.neg(); SC_METHOD(pe_statemachine); sensitive << state << pid_seq_err << idma_done << ep_full << ep_empty; sensitive << token_valid << pid_ACK << rx_data_done << tx_data_to << crc16_err; sensitive << rx_ack_to << pid_PING << txfr_iso << txfr_int << CTRL_ep; sensitive << pid_IN << pid_OUT << IN_ep << OUT_ep << pid_SETUP << pid_SOF; sensitive << match_r << abort << send_stall_r << send_stall; } }; #endif
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