From: Benjamin Herrenschmidt Date: Tue, 27 Aug 2019 14:08:54 +0000 (+1000) Subject: Add simulated UART design X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=48b689b665c8620e3477b183f5c5db98625b9018;p=microwatt.git Add simulated UART design Signed-off-by: Benjamin Herrenschmidt --- diff --git a/sim_uart.vhdl b/sim_uart.vhdl new file mode 100644 index 0000000..c52a8bc --- /dev/null +++ b/sim_uart.vhdl @@ -0,0 +1,118 @@ +-- Sim console UART, provides the same interface as potato UART by +-- Kristian Klomsten Skordal. + +library ieee; +use ieee.std_logic_1164.all; +use ieee.numeric_std.all; + +library work; +use work.wishbone_types.all; +use work.sim_console.all; + +--! @brief Simple UART module. +--! The following registers are defined: +--! |--------------------|--------------------------------------------| +--! | Address | Description | +--! |--------------------|--------------------------------------------| +--! | 0x00 | Transmit register (write-only) | +--! | 0x08 | Receive register (read-only) | +--! | 0x10 | Status register (read-only) | +--! | 0x18 | Sample clock divisor register (dummy) | +--! | 0x20 | Interrupt enable register (read/write) | +--! |--------------------|--------------------------------------------| +--! +--! The status register contains the following bits: +--! - Bit 0: receive buffer empty +--! - Bit 1: transmit buffer empty +--! - Bit 2: receive buffer full +--! - Bit 3: transmit buffer full +--! +--! Interrupts are enabled by setting the corresponding bit in the interrupt +--! enable register. The following bits are available: +--! - Bit 0: data received (receive buffer not empty) +--! - Bit 1: ready to send data (transmit buffer empty) +entity sim_uart is + port( + clk : in std_logic; + reset : in std_logic; + + -- Wishbone ports: + wishbone_in : in wishbone_master_out; + wishbone_out : out wishbone_slave_out + ); +end entity sim_uart; + +architecture behaviour of sim_uart is + + signal sample_clk_divisor : std_logic_vector(7 downto 0); + + -- IRQ enable signals: + signal irq_recv_enable, irq_tx_ready_enable : std_logic := '0'; + + -- Wishbone signals: + type wb_state_type is (IDLE, WRITE_ACK, READ_ACK); + signal wb_state : wb_state_type; + signal wb_ack : std_logic; --! Wishbone acknowledge signal + +begin + + wishbone_out.ack <= wb_ack and wishbone_in.cyc and wishbone_in.stb; + + wishbone: process(clk) + variable sim_tmp : std_logic_vector(63 downto 0); + begin + if rising_edge(clk) then + if reset = '1' then + wb_ack <= '0'; + wb_state <= IDLE; + sample_clk_divisor <= (others => '0'); + irq_recv_enable <= '0'; + irq_tx_ready_enable <= '0'; + else + case wb_state is + when IDLE => + if wishbone_in.cyc = '1' and wishbone_in.stb = '1' then + if wishbone_in.we = '1' then -- Write to register + if wishbone_in.adr(11 downto 0) = x"000" then + report "FOO !"; + sim_console_write(wishbone_in.dat); + elsif wishbone_in.adr(11 downto 0) = x"018" then + sample_clk_divisor <= wishbone_in.dat(7 downto 0); + elsif wishbone_in.adr(11 downto 0) = x"020" then + irq_recv_enable <= wishbone_in.dat(0); + irq_tx_ready_enable <= wishbone_in.dat(1); + end if; + wb_ack <= '1'; + wb_state <= WRITE_ACK; + else -- Read from register + if wishbone_in.adr(11 downto 0) = x"008" then + sim_console_read(sim_tmp); + wishbone_out.dat <= sim_tmp; + elsif wishbone_in.adr(11 downto 0) = x"010" then + sim_console_poll(sim_tmp); + wishbone_out.dat <= x"000000000000000" & '0' & + sim_tmp(0) & '1' & not sim_tmp(0); + elsif wishbone_in.adr(11 downto 0) = x"018" then + wishbone_out.dat <= x"00000000000000" & sample_clk_divisor; + elsif wishbone_in.adr(11 downto 0) = x"020" then + wishbone_out.dat <= (0 => irq_recv_enable, + 1 => irq_tx_ready_enable, + others => '0'); + else + wishbone_out.dat <= (others => '0'); + end if; + wb_ack <= '1'; + wb_state <= READ_ACK; + end if; + end if; + when WRITE_ACK|READ_ACK => + if wishbone_in.stb = '0' then + wb_ack <= '0'; + wb_state <= IDLE; + end if; + end case; + end if; + end if; + end process wishbone; + +end architecture behaviour;