| `default_nettype none |
| module serv_csr |
| ( |
| input wire i_clk, |
| //State |
| input wire i_init, |
| input wire i_en, |
| input wire i_cnt0to3, |
| input wire i_cnt3, |
| input wire i_cnt7, |
| input wire i_cnt_done, |
| input wire i_mem_op, |
| input wire i_mtip, |
| input wire i_trap, |
| output reg o_new_irq, |
| //Control |
| input wire i_e_op, |
| input wire i_ebreak, |
| input wire i_mem_cmd, |
| input wire i_mstatus_en, |
| input wire i_mie_en, |
| input wire i_mcause_en, |
| input wire [1:0] i_csr_source, |
| input wire i_mret, |
| input wire i_csr_d_sel, |
| //Data |
| input wire i_rf_csr_out, |
| output wire o_csr_in, |
| input wire i_csr_imm, |
| input wire i_rs1, |
| output wire o_q); |
| |
| localparam [1:0] |
| CSR_SOURCE_CSR = 2'b00, |
| CSR_SOURCE_EXT = 2'b01, |
| CSR_SOURCE_SET = 2'b10, |
| CSR_SOURCE_CLR = 2'b11; |
| |
| reg mstatus_mie; |
| reg mstatus_mpie; |
| reg mie_mtie; |
| |
| reg mcause31; |
| reg [3:0] mcause3_0; |
| wire mcause; |
| |
| wire csr_in; |
| wire csr_out; |
| |
| reg timer_irq_r; |
| |
| wire d = i_csr_d_sel ? i_csr_imm : i_rs1; |
| |
| assign csr_in = (i_csr_source == CSR_SOURCE_EXT) ? d : |
| (i_csr_source == CSR_SOURCE_SET) ? csr_out | d : |
| (i_csr_source == CSR_SOURCE_CLR) ? csr_out & ~d : |
| (i_csr_source == CSR_SOURCE_CSR) ? csr_out : |
| 1'bx; |
| |
| assign csr_out = (i_mstatus_en & mstatus_mie & i_cnt3) | |
| i_rf_csr_out | |
| (i_mcause_en & i_en & mcause); |
| |
| assign o_q = csr_out; |
| |
| wire timer_irq = i_mtip & mstatus_mie & mie_mtie; |
| |
| assign mcause = i_cnt0to3 ? mcause3_0[0] : //[3:0] |
| i_cnt_done ? mcause31 //[31] |
| : 1'b0; |
| |
| assign o_csr_in = csr_in; |
| |
| always @(posedge i_clk) begin |
| if (!i_init & i_cnt_done) begin |
| timer_irq_r <= timer_irq; |
| o_new_irq <= timer_irq & !timer_irq_r; |
| end |
| |
| if (i_mie_en & i_cnt7) |
| mie_mtie <= csr_in; |
| |
| /* |
| The mie bit in mstatus gets updated under three conditions |
| |
| When a trap is taken, the bit is cleared |
| During an mret instruction, the bit is restored from mpie |
| During a mstatus CSR access instruction it's assigned when |
| bit 3 gets updated |
| |
| These conditions are all mutually exclusibe |
| */ |
| if ((i_trap & i_cnt_done) | i_mstatus_en & i_cnt3 | i_mret) |
| mstatus_mie <= !i_trap & (i_mret ? mstatus_mpie : csr_in); |
| |
| /* |
| Note: To save resources mstatus_mpie (mstatus bit 7) is not |
| readable or writable from sw |
| */ |
| if (i_trap & i_cnt_done) |
| mstatus_mpie <= mstatus_mie; |
| |
| /* |
| The four lowest bits in mcause hold the exception code |
| |
| These bits get updated under three conditions |
| |
| During an mcause CSR access function, they are assigned when |
| bits 0 to 3 gets updated |
| |
| During an external interrupt the exception code is set to |
| 7, since SERV only support timer interrupts |
| |
| During an exception, the exception code is assigned to indicate |
| if it was caused by an ebreak instruction (3), |
| ecall instruction (11), misaligned load (4), misaligned store (6) |
| or misaligned jump (0) |
| |
| The expressions below are derived from the following truth table |
| irq => 0111 (timer=7) |
| e_op => x011 (ebreak=3, ecall=11) |
| mem => 01x0 (store=6, load=4) |
| ctrl => 0000 (jump=0) |
| */ |
| if (i_mcause_en & i_en & i_cnt0to3 | (i_trap & i_cnt_done)) begin |
| mcause3_0[3] <= (i_e_op & !i_ebreak) | (!i_trap & csr_in); |
| mcause3_0[2] <= o_new_irq | i_mem_op | (!i_trap & mcause3_0[3]); |
| mcause3_0[1] <= o_new_irq | i_e_op | (i_mem_op & i_mem_cmd) | (!i_trap & mcause3_0[2]); |
| mcause3_0[0] <= o_new_irq | i_e_op | (!i_trap & mcause3_0[1]); |
| end |
| if (i_mcause_en & i_cnt_done | i_trap) |
| mcause31 <= i_trap ? o_new_irq : csr_in; |
| end |
| |
| endmodule |
