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/qspiflash/trunk/rtl/wbqspiflash.v
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// |
// |
// Filename: wbspiflash.v |
// |
// Project: FPGA library development (Basys3 development board) |
// |
// Purpose: Access a Quad SPI flash via a WISHBONE interface. This |
// includes both read and write (and erase) commands to the SPI |
// flash. All read/write commands are accomplished using the |
// high speed (4-bit) interface. Further, the device will be |
// left/kept in the 4-bit read interface mode between accesses, |
// for a minimum read latency. |
// |
// Wishbone Registers (See Basys3 Wishbone HTML page): |
// 0: local config(r) / erase commands(w) / deep power down cmds / etc. |
// R: (Write in Progress), (dirty-block), (spi_port_busy), 1'b0, 9'h00, |
// { last_erased_sector, 14'h00 } if (WIP) |
// else { current_sector_being_erased, 14'h00 } |
// current if write in progress, last if written |
// W: (1'b1 to erase), (12'h ignored), next_erased_block, 14'h ignored) |
// 1: Read ID (read only) |
// 2: Status register (R(/w?)), reads update the WIP bit ... |
// (19 bits): Data (R/w, but expect writes to take a while) |
// |
// |
// Creator: Dan Gisselquist |
// Gisselquist Tecnology, LLC |
// |
// Copyright: 2015 |
// |
// |
`define WBQSPI_RESET 0 |
`define WBQSPI_RESET_WEN 1 |
`define WBQSPI_IDLE 2 |
`define WBQSPI_RDIDLE 3 // Idle, but in fast read mode |
`define WBQSPI_WBDECODE 4 |
`define WBQSPI_WAIT_WIP_CLEAR 5 |
`define WBQSPI_CHECK_WIP_CLEAR 6 |
`define WBQSPI_CHECK_WIP_DONE 7 |
`define WBQSPI_WEN 8 |
`define WBQSPI_PP 9 // Program page |
`define WBQSPI_QPP 10 // Program page, 4 bit mode |
`define WBQSPI_WR_DATA 11 |
`define WBQSPI_WR_BUS_CYCLE 12 |
`define WBQSPI_RD_DUMMY 13 |
`define WBQSPI_QRD_ADDRESS 14 |
`define WBQSPI_QRD_DUMMY 15 |
`define WBQSPI_READ_CMD 16 |
`define WBQSPI_READ_DATA 17 |
`define WBQSPI_WAIT_TIL_RDIDLE 18 |
`define WBQSPI_READ_ID_CMD 19 |
`define WBQSPI_READ_ID 20 |
`define WBQSPI_READ_STATUS 21 |
`define WBQSPI_READ_CONFIG 22 |
`define WBQSPI_WRITE_STATUS 23 |
`define WBQSPI_WRITE_CONFIG 24 |
`define WBQSPI_ERASE_WEN 25 |
`define WBQSPI_ERASE_CMD 26 |
`define WBQSPI_ERASE_BLOCK 27 |
`define WBQSPI_CLEAR_STATUS 28 |
`define WBQSPI_IDLE_CHECK_WIP 29 |
`define WBQSPI_WAIT_TIL_IDLE 30 |
|
module wbqspiflash(i_clk_100mhz, |
// Internal wishbone connections |
i_wb_cyc, i_wb_data_stb, i_wb_ctrl_stb, i_wb_we, |
i_wb_addr, i_wb_data, |
// Wishbone return values |
o_wb_ack, o_wb_stall, o_wb_data, |
// Quad Spi connections to the external device |
o_qspi_sck, o_qspi_cs_n, o_qspi_mod, o_qspi_dat, i_qspi_dat, |
o_interrupt, |
// Info for a wbscope |
o_debug); |
input i_clk_100mhz; |
// Wishbone, inputs first |
input i_wb_cyc, i_wb_data_stb, i_wb_ctrl_stb, i_wb_we; |
input [19:0] i_wb_addr; |
input [31:0] i_wb_data; |
// then outputs |
output reg o_wb_ack; |
output reg o_wb_stall; |
output reg [31:0] o_wb_data; |
// Quad SPI control wires |
output wire o_qspi_sck, o_qspi_cs_n; |
output wire [1:0] o_qspi_mod; |
output wire [3:0] o_qspi_dat; |
input [3:0] i_qspi_dat; |
// Interrupt line |
output reg o_interrupt; |
// Debug/scope |
output wire [31:0] o_debug; |
|
reg spi_wr, spi_hold, spi_spd, spi_dir; |
reg [31:0] spi_in; |
reg [1:0] spi_len; |
wire [31:0] spi_out; |
wire spi_valid, spi_busy; |
wire [22:0] spi_dbg; |
llqspi lldriver(i_clk_100mhz, |
spi_wr, spi_hold, spi_in, spi_len, spi_spd, spi_dir, |
spi_out, spi_valid, spi_busy, |
o_qspi_sck, o_qspi_cs_n, o_qspi_mod, o_qspi_dat, |
i_qspi_dat, |
spi_dbg); |
|
// Erase status tracking |
reg write_in_progress, write_protect; |
reg [5:0] erased_sector; |
reg dirty_sector; |
initial begin |
write_in_progress = 1'b0; |
erased_sector = 6'h00; |
dirty_sector = 1'b1; |
write_protect = 1'b1; |
end |
|
reg [7:0] last_status; |
reg quad_mode_enabled; |
reg spif_cmd; |
reg [19:0] spif_addr; |
reg [31:0] spif_data; |
reg [5:0] state; |
reg [5:0] spif_return; |
reg spif_ctrl, spif_req; |
wire [5:0] spif_sector; |
assign spif_sector = spif_addr[19:14]; |
|
assign o_debug = { spi_wr, spi_spd, spi_hold, state, spi_dbg }; |
|
initial state = `WBQSPI_RESET; |
initial o_wb_ack = 1'b0; |
initial o_wb_stall = 1'b1; |
initial spi_wr = 1'b0; |
initial spi_len = 2'b00; |
initial quad_mode_enabled = 1'b0; |
initial o_interrupt = 1'b0; |
always @(posedge i_clk_100mhz) |
if (state == `WBQSPI_RESET) |
begin |
// From a reset, we should |
// Enable the Quad I/O mode |
// Disable the Write protection bits in the status register |
// Chip should already be up and running, so we can start |
// immediately .... |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
spi_hold <= 1'b0; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; |
last_status <= 8'h00; |
if (spi_len < 2'b11) |
spi_len <= spi_len + 1; |
state <= `WBQSPI_IDLE; |
spif_req <= 1'b0; |
/* |
// This next bit of logic is confusing ... |
// I wish to enable quad SPI mode automatically. However, this is |
// a configuration register thing, so once written it never needs to |
// be adjusted again. Further, some bits within the configuration |
// register cannot be undone, and my inkling might be to set those. |
// Finally, the configuration register affects the control of the |
// block protect registers in the status register. So ... |
// let's just leave these registers alone, or command them from the |
// UART-wishbone interface. |
else if (~spi_busy) |
begin |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 1 byte |
spi_in <= { 8'h06, 24'h000 }; |
end |
end else if (state == `WBQSPI_RESET_WEN) |
begin |
spi_wr <= 1'b0; |
if ((~spi_busy)&&(~spi_wr)&&(o_qspi_cs_n)) |
begin |
spi_wr <= 1'b1; |
spi_spd <= 1'b0; |
spi_len <= 2'b10; // 3 bytes |
// Command, status, config, then don't care |
spi_in <= { 8'h01, 8'h00, 8'h0b, 8'h00 }; |
spi_dir <= 1'b0; |
quad_mode_enabled <= 1'b1; |
state <= `WBQSPI_WAIT_TIL_IDLE; |
write_in_progress <= 1'b1; |
end |
*/ |
end else if (state == `WBQSPI_IDLE) |
begin |
o_interrupt <= 1'b0; |
o_wb_stall <= 1'b0; |
o_wb_ack <= 1'b0; |
spif_cmd <= i_wb_we; |
spif_addr <= i_wb_addr; |
spif_data <= i_wb_data; |
spif_ctrl <= (i_wb_ctrl_stb)&&(~i_wb_data_stb); |
spif_req <= (i_wb_ctrl_stb)||(i_wb_data_stb); |
spi_wr <= 1'b0; // Keep the port idle, unless told otherwise |
spi_hold <= 1'b0; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; // Write (for now, 'cause of cmd) |
// Data register access |
if ((i_wb_data_stb)&&(i_wb_cyc)) |
begin |
|
if (i_wb_we) // Request to write a page |
begin |
if((~write_protect)&&(~write_in_progress)) |
begin // 00 |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WEN; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end else if (write_protect) |
begin // whether or not write-in_progress ... |
// Do nothing on a write protect |
// violation |
// |
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b0; |
end else begin // write is in progress, wait |
// for it to complete |
state <= `WBQSPI_WAIT_WIP_CLEAR; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
end else if (~write_in_progress) |
begin // Read access, normal mode(s) |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
spi_wr <= 1'b1; // Write cmd to device |
if (quad_mode_enabled) |
begin |
spi_in <= { 8'heb, 2'b00, i_wb_addr[19:0], 2'b00 }; |
state <= `WBQSPI_QRD_ADDRESS; |
spi_len <= 2'b00; // single byte, cmd only |
end else begin |
spi_in <= { 8'h0b, 2'b00, i_wb_addr[19:0], 2'b00 }; |
state <= `WBQSPI_RD_DUMMY; |
spi_len <= 2'b11; // cmd+addr,32bits |
end |
end else begin |
// A write is in progress ... need to stall |
// the bus until the write is complete. |
state <= `WBQSPI_WAIT_WIP_CLEAR; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
end else if ((i_wb_cyc)&&(i_wb_ctrl_stb)&&(i_wb_we)) |
begin |
o_wb_stall <= 1'b1; |
case(i_wb_addr[1:0]) |
2'b00: begin // Erase command register |
write_protect <= ~i_wb_data[28]; |
o_wb_stall <= 1'b0; |
|
if((i_wb_data[31])&&(~write_in_progress)) |
begin |
// Command an erase--ack it immediately |
|
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b0; |
|
if ((i_wb_data[31])&&(~write_protect)) |
begin |
spi_wr <= 1'b1; |
spi_len <= 2'b00; |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_ERASE_CMD; |
o_wb_stall <= 1'b1; |
end |
end else if (i_wb_data[31]) |
begin |
state <= `WBQSPI_WAIT_WIP_CLEAR; |
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b1; |
end else |
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b0; |
end |
2'b01: begin |
// Write the configuration register |
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b1; |
|
// Need to send a write enable command first |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WRITE_CONFIG; |
end |
2'b10: begin |
// Write the status register |
o_wb_ack <= 1'b1; // Ack immediately |
o_wb_stall <= 1'b1; // Stall other cmds |
// Need to send a write enable command first |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WRITE_STATUS; |
end |
2'b11: begin // Write the ID register??? makes no sense |
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b0; |
end |
endcase |
end else if ((i_wb_cyc)&&(i_wb_ctrl_stb)) // &&(~i_wb_we)) |
begin |
case(i_wb_addr[1:0]) |
2'b00: begin // Read local register |
if (write_in_progress) // Read status |
begin// register, is write still in progress? |
state <= `WBQSPI_READ_STATUS; |
spi_wr <= 1'b1; |
spi_len <= 2'b01;// 8 bits out, 8 bits in |
spi_in <= { 8'h05, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end else begin // Return w/o talking to device |
o_wb_ack <= 1'b1; |
o_wb_stall <= 1'b0; |
o_wb_data <= { write_in_progress, |
dirty_sector, spi_busy, |
~write_protect, |
quad_mode_enabled, |
7'h00, |
erased_sector, 14'h000 }; |
end end |
2'b01: begin // Read configuration register |
state <= `WBQSPI_READ_CONFIG; |
spi_wr <= 1'b1; |
spi_len <= 2'b01; |
spi_in <= { 8'h35, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
2'b10: begin // Read status register |
state <= `WBQSPI_READ_STATUS; |
spi_wr <= 1'b1; |
spi_len <= 2'b01; // 8 bits out, 8 bits in |
spi_in <= { 8'h05, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
2'b11: begin // Read ID register |
state <= `WBQSPI_READ_ID_CMD; |
spi_wr <= 1'b1; |
spi_len <= 2'b00; |
spi_in <= { 8'h9f, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
endcase |
end else if ((~i_wb_cyc)&&(write_in_progress)) |
begin |
state <= `WBQSPI_IDLE_CHECK_WIP; |
spi_wr <= 1'b1; |
spi_len <= 2'b01; // 8 bits out, 8 bits in |
spi_in <= { 8'h05, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
end else if (state == `WBQSPI_RDIDLE) |
begin |
spi_wr <= 1'b0; |
o_wb_stall <= 1'b0; |
o_wb_ack <= 1'b0; |
spif_cmd <= i_wb_we; |
spif_addr <= i_wb_addr; |
spif_data <= i_wb_data; |
spif_ctrl <= (i_wb_ctrl_stb)&&(~i_wb_data_stb); |
spif_req <= (i_wb_ctrl_stb)||(i_wb_data_stb); |
spi_hold <= 1'b0; |
spi_spd<= 1'b1; |
spi_dir <= 1'b0; // Write (for now) |
if ((i_wb_cyc)&&(i_wb_data_stb)&&(~i_wb_we)) |
begin // Continue our read ... send the new address / mode |
o_wb_stall <= 1'b1; |
spi_wr <= 1'b1; |
spi_len <= 2'b10; |
spi_in <= { 2'h0, i_wb_addr[19:0], 2'h0, 8'ha0 }; |
state <= `WBQSPI_QRD_DUMMY; |
end else if((i_wb_cyc)&&(i_wb_ctrl_stb)&&(~i_wb_we)&&(i_wb_addr[1:0] == 2'b00)) |
begin |
// A local read that doesn't touch the device, so leave |
// the device in its current state |
o_wb_stall <= 1'b0; |
o_wb_ack <= 1'b1; |
o_wb_data <= { write_in_progress, |
dirty_sector, spi_busy, |
~write_protect, |
quad_mode_enabled, |
7'h00, |
erased_sector, 14'h000 }; |
end else if((i_wb_cyc)&&((i_wb_ctrl_stb)||(i_wb_data_stb))) |
begin // Need to release the device from quad mode for all else |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
spi_wr <= 1'b1; |
spi_len <= 2'b11; |
spi_in <= 32'h00; |
state <= `WBQSPI_WBDECODE; |
end |
end else if (state == `WBQSPI_WBDECODE) |
begin |
// We were in quad SPI read mode, and had to get out. |
// Now we've got a command (not data read) to read and |
// execute. Accomplish what we would've done while in the |
// IDLE state here, save only that we don't have to worry |
// about data reads, and we need to operate on a stored |
// version of the bus command |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spi_wr <= 1'b0; // Keep the port idle, unless told otherwise |
spi_hold <= 1'b0; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
if ((~spi_busy)&&(o_qspi_cs_n)&&(~spi_wr)) // only in full idle ... |
begin |
// Data register access |
if (~spif_ctrl) |
begin |
if (spif_cmd) // Request to write a page |
begin |
if((~write_protect)&&(~write_in_progress)) |
begin // 00 |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WEN; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end else if (write_protect) |
begin // whether or not write-in_progress ... |
// Do nothing on a write protect |
// violation |
// |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b0; |
state <= `WBQSPI_IDLE; |
end else begin // write is in progress, wait |
// for it to complete |
state <= `WBQSPI_WAIT_WIP_CLEAR; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
// end else if (~write_in_progress) // always true |
// but ... we wouldn't get here on a normal read access |
end else begin |
// Something's wrong, we should never get here |
// Attempt to go to idle to recover |
state <= `WBQSPI_IDLE; |
end |
end else if ((spif_ctrl)&&(spif_cmd)) |
begin |
o_wb_stall <= 1'b1; |
case(spif_addr[1:0]) |
2'b00: begin // Erase command register |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b0; |
state <= `WBQSPI_IDLE; |
write_protect <= ~spif_data[28]; |
// Are we commanding an erase? |
// We're in read mode, writes cannot |
// be in progress, so ... |
if (spif_data[31]) // Command an erase |
begin |
// Since we're not going back |
// to IDLE, we must stall the |
// bus here |
o_wb_stall <= 1'b1; |
spi_wr <= 1'b1; |
spi_len <= 2'b00; |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_ERASE_CMD; |
end end |
2'b01: begin |
// Write the configuration register |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b1; |
|
// Need to send a write enable command first |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WRITE_CONFIG; |
end |
2'b10: begin |
// Write the status register |
o_wb_ack <= spif_req; // Ack immediately |
o_wb_stall <= 1'b1; // Stall other cmds |
// Need to send a write enable command first |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WRITE_STATUS; |
end |
2'b11: begin // Write the ID register??? makes no sense |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b0; |
state <= `WBQSPI_IDLE; |
end |
endcase |
end else begin // on (~spif_we) |
case(spif_addr[1:0]) |
2'b00: begin // Read local register |
// Nonsense case--would've done this |
// already |
state <= `WBQSPI_IDLE; |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b0; |
end |
2'b01: begin // Read configuration register |
state <= `WBQSPI_READ_CONFIG; |
spi_wr <= 1'b1; |
spi_len <= 2'b01; |
spi_in <= { 8'h35, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
2'b10: begin // Read status register |
state <= `WBQSPI_READ_STATUS; |
spi_wr <= 1'b1; |
spi_len <= 2'b01; // 8 bits out, 8 bits in |
spi_in <= { 8'h05, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
2'b11: begin // Read ID register |
state <= `WBQSPI_READ_ID_CMD; |
spi_wr <= 1'b1; |
spi_len <= 2'b00; |
spi_in <= { 8'h9f, 24'h00}; |
|
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
endcase |
end |
end |
end else if (state == `WBQSPI_WAIT_WIP_CLEAR) |
begin |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spi_wr <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
if (~spi_busy) |
begin |
spi_wr <= 1'b1; |
spi_in <= { 8'h05, 24'h0000 }; |
spi_hold <= 1'b1; |
spi_len <= 2'b01; // 16 bits write, so we can read 8 |
state <= `WBQSPI_CHECK_WIP_CLEAR; |
spi_spd <= 1'b0; // Slow speed |
spi_dir <= 1'b0; |
end |
end else if (state == `WBQSPI_CHECK_WIP_CLEAR) |
begin |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
// Repeat as often as necessary until we are clear |
spi_wr <= 1'b1; |
spi_in <= 32'h0000; // Values here are actually irrelevant |
spi_hold <= 1'b1; |
spi_len <= 2'b00; // One byte at a time |
spi_spd <= 1'b0; // Slow speed |
spi_dir <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
if ((spi_valid)&&(~spi_out[0])) |
begin |
state <= `WBQSPI_CHECK_WIP_DONE; |
spi_wr <= 1'b0; |
spi_hold <= 1'b0; |
write_in_progress <= 1'b0; |
last_status <= spi_out[7:0]; |
end |
end else if (state == `WBQSPI_CHECK_WIP_DONE) |
begin |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
// Let's let the SPI port come back to a full idle, |
// and the chip select line go low before continuing |
spi_wr <= 1'b0; |
spi_len <= 2'b00; |
spi_hold <= 1'b0; |
spi_spd <= 1'b0; // Slow speed |
spi_dir <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
if ((o_qspi_cs_n)&&(~spi_busy)) // Chip select line is high, we can continue |
begin |
spi_wr <= 1'b0; |
spi_hold <= 1'b0; |
|
casez({ spif_cmd, spif_ctrl, spif_addr[1:0] }) |
4'b00??: begin // Read data from ... somewhere |
spi_wr <= 1'b1; // Write cmd to device |
if (quad_mode_enabled) |
begin |
spi_in <= { 8'heb, 2'b00, spif_addr[19:0], 2'b00 }; |
state <= `WBQSPI_QRD_DUMMY; |
end else begin |
spi_in <= { 8'h0b, 2'b00, spif_addr[19:0], 2'b00 }; |
state <= `WBQSPI_RD_DUMMY; |
end end |
4'b10??: begin // Write data to ... anywhere |
spi_wr <= 1'b1; |
spi_len <= 2'b00; // 8 bits |
// Send a write enable command |
spi_in <= { 8'h06, 24'h00 }; |
state <= `WBQSPI_WEN; |
end |
4'b0110: begin // Read status register |
state <= `WBQSPI_READ_STATUS; |
spi_wr <= 1'b1; |
spi_len <= 2'b01; // 8 bits out, 8 bits in |
spi_in <= { 8'h05, 24'h00}; |
end |
4'b0111: begin |
state <= `WBQSPI_READ_ID_CMD; |
spi_wr <= 1'b1; |
spi_len <= 2'b00; |
spi_in <= { 8'h9f, 24'h00}; |
end |
default: begin // |
o_wb_stall <= 1'b1; |
o_wb_ack <= spif_req; |
state <= `WBQSPI_WAIT_TIL_IDLE; |
end |
endcase |
// spif_cmd <= i_wb_we; |
// spif_addr <= i_wb_addr; |
// spif_data <= i_wb_data; |
// spif_ctrl <= (i_wb_ctrl_stb)&&(~i_wb_data_stb); |
// spi_wr <= 1'b0; // Keep the port idle, unless told otherwise |
end |
end else if (state == `WBQSPI_WEN) |
begin // We came here after issuing a write enable command |
spi_wr <= 1'b0; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
spif_req<= (spif_req) && (i_wb_cyc); |
if ((~spi_busy)&&(o_qspi_cs_n)&&(~spi_wr)) // Let's come to a full stop |
// state <= (quad_mode_enabled)?`WBQSPI_QPP:`WBQSPI_PP; |
state <= `WBQSPI_PP; |
end else if (state == `WBQSPI_PP) |
begin // We come here under a full stop / full port idle mode |
// Issue our command immediately |
spi_wr <= 1'b1; |
spi_in <= { 8'h02, 2'h0, spif_addr, 2'b00 }; |
spi_len <= 2'b11; |
spi_hold <= 1'b1; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; // Writing |
spif_req<= (spif_req) && (i_wb_cyc); |
|
// Once we get busy, move on |
if (spi_busy) |
state <= `WBQSPI_WR_DATA; |
if (spif_sector == erased_sector) |
dirty_sector <= 1'b1; |
end else if (state == `WBQSPI_QPP) |
begin // We come here under a full stop / full port idle mode |
// Issue our command immediately |
spi_wr <= 1'b1; |
spi_in <= { 8'h32, 2'h0, spif_addr, 2'b00 }; |
spi_len <= 2'b11; |
spi_hold <= 1'b1; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; // Writing |
spif_req<= (spif_req) && (i_wb_cyc); |
|
// Once we get busy, move on |
if (spi_busy) |
begin |
// spi_wr is irrelevant here ... |
// Set the speed value once, but wait til we get busy |
// to do so. |
spi_spd <= 1'b1; |
state <= `WBQSPI_WR_DATA; |
end |
if (spif_sector == erased_sector) |
dirty_sector <= 1'b1; |
end else if (state == `WBQSPI_WR_DATA) |
begin |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spi_wr <= 1'b1; // write without waiting |
spi_in <= { |
spif_data[ 7: 0], |
spif_data[15: 8], |
spif_data[23:16], |
spif_data[31:24] }; |
spi_len <= 2'b11; // Write 4 bytes |
spi_hold <= 1'b1; |
if (~spi_busy) |
begin |
o_wb_ack <= spif_req; // Ack when command given |
state <= `WBQSPI_WR_BUS_CYCLE; |
end |
spif_req<= (spif_req) && (i_wb_cyc); |
end else if (state == `WBQSPI_WR_BUS_CYCLE) |
begin |
o_wb_ack <= 1'b0; // Turn off our ack and stall flags |
o_wb_stall <= 1'b1; |
spi_wr <= 1'b0; |
spi_hold <= 1'b1; |
write_in_progress <= 1'b1; |
spif_req<= (spif_req) && (i_wb_cyc); |
if (~i_wb_cyc) |
begin |
state <= `WBQSPI_WAIT_TIL_IDLE; |
spi_hold <= 1'b0; |
end else if (spi_wr) |
begin // Give the SPI a chance to get busy on the last write |
// Do nothing here. |
end else if ((i_wb_data_stb)&&(i_wb_we) |
&&(i_wb_addr == (spif_addr+1)) |
&&(i_wb_addr[19:6]==spif_addr[19:6])) |
begin |
spif_cmd <= 1'b1; |
spif_data <= i_wb_data; |
spif_addr <= i_wb_addr; |
spif_ctrl <= 1'b0; |
spif_req<= 1'b1; |
// We'll keep the bus stalled on this request |
// for a while |
state <= `WBQSPI_WR_DATA; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b0; |
end else if ((i_wb_data_stb|i_wb_ctrl_stb)&&(~o_wb_ack)) // Writing out of bounds |
begin |
spi_hold <= 1'b0; |
spi_wr <= 1'b0; |
state <= `WBQSPI_WAIT_TIL_IDLE; |
end // Otherwise we stay here |
end else if (state == `WBQSPI_RD_DUMMY) |
begin |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
|
spi_wr <= 1'b1; // Non-stop |
// Need to read one byte of dummy data, |
// just to consume 8 clocks |
spi_in <= { 8'h00, 24'h00 }; |
spi_len <= 2'b00; // Read 8 bits |
spi_spd <= 1'b0; |
spi_hold <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
|
if ((~spi_busy)&&(~o_qspi_cs_n)) |
// Our command was accepted |
state <= `WBQSPI_READ_CMD; |
end else if (state == `WBQSPI_QRD_ADDRESS) |
begin |
// We come in here immediately upon issuing a QRD read |
// command (8-bits), but we have to pause to give the |
// address (24-bits) and mode (8-bits) in quad speed. |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
|
spi_wr <= 1'b1; // Non-stop |
spi_in <= { 2'b0, spif_addr, 2'b0, 8'ha0 }; |
spi_len <= 2'b11; // Write all 32 bits bits |
spi_spd <= 1'b1; |
spi_dir <= 1'b0; // Still writing |
spi_hold <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
|
if ((~spi_busy)&&(spi_spd)) |
// Our command was accepted |
state <= `WBQSPI_QRD_DUMMY; |
end else if (state == `WBQSPI_QRD_DUMMY) |
begin |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
|
spi_wr <= 1'b1; // Non-stop |
spi_in <= { 8'ha0, 24'h00 }; // Mode byte, then 2 bytes dummy |
spi_len <= 2'b10; // Write 8 bits |
spi_spd <= 1'b1; |
spi_dir <= 1'b0; // Still writing |
spi_hold <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
|
if ((~spi_busy)&&(spi_in[31:28] == 4'ha)) |
// Our command was accepted |
state <= `WBQSPI_READ_CMD; |
end else if (state == `WBQSPI_READ_CMD) |
begin // Issue our first command to read 32 bits. |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
|
spi_wr <= 1'b1; |
spi_in <= { 8'hff, 24'h00 }; // Empty |
spi_len <= 2'b11; // Read 32 bits |
spi_dir <= 1'b1; // Now reading |
spi_hold <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
if ((spi_valid)&&(spi_len == 2'b11)) |
state <= `WBQSPI_READ_DATA; |
end else if (state == `WBQSPI_READ_DATA) |
begin |
// Pipelined read support |
spi_wr <=((i_wb_cyc)&&(i_wb_data_stb)&&(~i_wb_we)&&(i_wb_addr== (spif_addr+1))); |
// spi_wr <= 1'b0; // No pipelined read support |
spi_in <= 32'h00; |
spi_len <= 2'b11; |
// Don't adjust the speed here, it was set in the setup |
spi_dir <= 1'b1; // Now we get to read |
spi_hold <= 1'b0; |
spif_req<= (spif_req) && (i_wb_cyc); |
if ((spi_valid)&&(~spi_in[31])) |
begin // Single pulse acknowledge and write data out |
o_wb_ack <= spif_req; |
o_wb_stall <= (~spi_wr); |
// adjust endian-ness to match the PC |
o_wb_data <= { spi_out[7:0], spi_out[15:8], |
spi_out[23:16], spi_out[31:24] }; |
state <= (spi_wr)?`WBQSPI_READ_DATA |
: ((spi_spd) ? `WBQSPI_WAIT_TIL_RDIDLE : `WBQSPI_WAIT_TIL_IDLE); |
spif_req <= spi_wr; |
if (spi_wr) |
spif_addr <= i_wb_addr; |
end else begin |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
end |
end else if (state == `WBQSPI_WAIT_TIL_RDIDLE) |
begin // Wait 'til idle, but then go to fast read idle instead of full |
spi_wr <= 1'b0; // idle |
spi_hold <= 1'b0; |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spif_req <= 1'b0; |
if ((~spi_busy)&&(o_qspi_cs_n)&&(~spi_wr)) // Wait for a full |
begin // clearing of the SPI port before moving on |
state <= `WBQSPI_RDIDLE; |
o_wb_stall <= 1'b0; |
o_wb_ack <= 1'b0;// Shouldn't be acking anything here |
end |
end else if (state == `WBQSPI_READ_ID_CMD) |
begin // We came into here immediately after issuing a 0x9f command |
// Now we need to read 32 bits of data. Result should be |
// 0x0102154d (8'h manufacture ID, 16'h device ID, followed |
// by the number of extended bytes available 8'h4d). |
o_wb_ack <= 1'b0; |
o_wb_stall<= 1'b1; |
|
spi_wr <= 1'b1; // No data to send, but need four bytes, since |
spi_len <= 2'b11; // 32 bits of data are ... useful |
spi_in <= 32'h00; // Irrelevant |
spi_spd <= 1'b0; // Slow speed |
spi_dir <= 1'b1; // Reading |
spi_hold <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
if ((~spi_busy)&&(~o_qspi_cs_n)&&(spi_len == 2'b11)) |
// Our command was accepted, now go read the result |
state <= `WBQSPI_READ_ID; |
end else if (state == `WBQSPI_READ_ID) |
begin |
o_wb_ack <= 1'b0; // Assuming we're still waiting |
o_wb_stall <= 1'b1; |
|
spi_wr <= 1'b0; // No more writes, we'ev already written the cmd |
spi_hold <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
|
// Here, we just wait until the result comes back |
// The problem is, the result may be the previous result. |
// So we use spi_len as an indicator |
spi_len <= 2'b00; |
if((spi_valid)&&(spi_len==2'b00)) |
begin // Put the results out as soon as possible |
o_wb_data <= spi_out[31:0]; |
o_wb_ack <= spif_req; |
spif_req <= 1'b0; |
end else if ((~spi_busy)&&(~o_qspi_cs_n)) |
begin |
state <= `WBQSPI_IDLE; |
o_wb_stall <= 1'b0; |
end |
end else if (state == `WBQSPI_READ_STATUS) |
begin // We enter after the command has been given, for now just |
// read and return |
spi_wr <= 1'b0; |
o_wb_ack <= 1'b0; |
spi_hold <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
if (spi_valid) |
begin |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b1; |
spif_req <= 1'b0; |
last_status <= spi_out[7:0]; |
write_in_progress <= spi_out[0]; |
if (spif_addr[1:0] == 2'b00) // Local read, checking |
begin // status, 'cause we're writing |
o_wb_data <= { spi_out[0], |
dirty_sector, spi_busy, |
~write_protect, |
quad_mode_enabled, |
7'h00, |
erased_sector, 14'h000 }; |
end else begin |
o_wb_data <= { 24'h00, spi_out[7:0] }; |
end |
end |
|
if ((~spi_busy)&&(~spi_wr)) |
state <= `WBQSPI_IDLE; |
end else if (state == `WBQSPI_READ_CONFIG) |
begin // We enter after the command has been given, for now just |
// read and return |
spi_wr <= 1'b0; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
spi_hold <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
|
if (spi_valid) |
begin |
o_wb_data <= { 24'h00, spi_out[7:0] }; |
quad_mode_enabled <= spi_out[1]; |
end |
|
if ((~spi_busy)&&(~spi_wr)) |
begin |
state <= `WBQSPI_IDLE; |
o_wb_ack <= spif_req; |
o_wb_stall <= 1'b0; |
spif_req <= 1'b0; |
end |
end else if (state == `WBQSPI_WRITE_CONFIG) |
begin // We enter immediately after commanding a WEN |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
|
spi_len <= 2'b10; |
spi_in <= { 8'h01, last_status, spif_data[7:0], 8'h00 }; |
spi_wr <= 1'b0; |
spi_hold <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
if ((~spi_busy)&&(~spi_wr)) |
begin |
spi_wr <= 1'b1; |
state <= `WBQSPI_WAIT_TIL_IDLE; |
write_in_progress <= 1'b1; |
quad_mode_enabled <= spif_data[1]; |
end |
end else if (state == `WBQSPI_WRITE_STATUS) |
begin // We enter immediately after commanding a WEN |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
|
spi_len <= 2'b01; |
spi_in <= { 8'h01, spif_data[7:0], 16'h00 }; |
// last_status <= i_wb_data[7:0]; // We'll read this in a moment |
spi_wr <= 1'b0; |
spi_hold <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
if ((~spi_busy)&&(~spi_wr)) |
begin |
spi_wr <= 1'b1; |
last_status <= spif_data[7:0]; |
write_in_progress <= 1'b1; |
if(((last_status[6])||(last_status[5])) |
&&((~spif_data[6])&&(~spif_data[5]))) |
state <= `WBQSPI_CLEAR_STATUS; |
else |
state <= `WBQSPI_WAIT_TIL_IDLE; |
end |
end else if (state == `WBQSPI_ERASE_CMD) |
begin // Know that WIP is clear on entry, WEN has just been commanded |
spi_wr <= 1'b0; |
o_wb_ack <= 1'b0; |
o_wb_stall <= 1'b1; |
spi_hold <= 1'b0; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
|
// Here's the erase command |
spi_in <= { 8'hd8, 2'h0, spif_data[19:14], 14'h000, 2'b00 }; |
spi_len <= 2'b11; // 32 bit write |
// together with setting our copy of the WIP bit |
write_in_progress <= 1'b1; |
// keeping track of which sector we just erased |
erased_sector <= spif_data[19:14]; |
// and marking this erase sector as no longer dirty |
dirty_sector <= 1'b0; |
|
// Wait for a full stop before issuing this command |
if ((~spi_busy)&&(~spi_wr)&&(o_qspi_cs_n)) |
begin // When our command is accepted, move to the next state |
spi_wr <= 1'b1; |
state <= `WBQSPI_ERASE_BLOCK; |
end |
end else if (state == `WBQSPI_ERASE_BLOCK) |
begin |
spi_wr <= 1'b0; |
spi_hold <= 1'b0; |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
// When the port clears, we can head back to idle |
if ((~spi_busy)&&(~spi_wr)) |
begin |
o_wb_ack <= spif_req; |
state <= `WBQSPI_IDLE; |
end |
end else if (state == `WBQSPI_CLEAR_STATUS) |
begin // Issue a clear status command |
spi_wr <= 1'b1; |
spi_hold <= 1'b0; |
spi_len <= 2'b00; // 8 bit command |
spi_in <= { 8'h30, 24'h00 }; |
spi_spd <= 1'b0; |
spi_dir <= 1'b0; |
last_status[6:5] <= 2'b00; |
spif_req <= (spif_req) && (i_wb_cyc); |
if ((spi_wr)&&(~spi_busy)) |
state <= `WBQSPI_WAIT_TIL_IDLE; |
end else if (state == `WBQSPI_IDLE_CHECK_WIP) |
begin // We are now in read status register mode |
|
// No bus commands have (yet) been given |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spif_req <= (spif_req) && (i_wb_cyc); |
|
// Stay in this mode unless/until we get a command, or |
// the write is over |
spi_wr <= (((~i_wb_cyc)||((~i_wb_data_stb)&&(~i_wb_ctrl_stb))) |
&&(write_in_progress)); |
spi_len <= 2'b00; // 8 bit reads |
spi_spd <= 1'b0; // SPI, not quad |
spi_dir <= 1'b1; // Read |
if (spi_valid) |
begin |
write_in_progress <= spi_out[0]; |
if ((~spi_out[0])&&(write_in_progress)) |
o_interrupt <= 1'b1; |
end else |
o_interrupt <= 1'b0; |
|
if ((~spi_wr)&&(~spi_busy)&&(o_qspi_cs_n)) |
begin // We can now go to idle and process a command |
o_wb_stall <= 1'b0; |
o_wb_ack <= 1'b0; |
state <= `WBQSPI_IDLE; |
end |
end else // if (state == `WBQSPI_WAIT_TIL_IDLE) or anything else |
begin |
spi_wr <= 1'b0; |
spi_hold <= 1'b0; |
o_wb_stall <= 1'b1; |
o_wb_ack <= 1'b0; |
spif_req <= 1'b0; |
if ((~spi_busy)&&(o_qspi_cs_n)&&(~spi_wr)) // Wait for a full |
begin // clearing of the SPI port before moving on |
state <= `WBQSPI_IDLE; |
o_wb_stall <= 1'b0; |
o_wb_ack <= 1'b0; // Shouldn't be acking anything here |
end |
end |
|
endmodule |
/qspiflash/trunk/rtl/llqspi.v
0,0 → 1,339
// |
// |
// Filename: llqspi.v |
// |
// Project: FPGA library development (Basys-3 development board) |
// |
// Purpose: Reads/writes a word (user selectable number of bytes) of data |
// to/from a Quad SPI port. The port is understood to be |
// a normal SPI port unless the driver requests four bit mode. |
// When not in use, unlike our previous SPI work, no bits will |
// toggle. |
// |
// Creator: Dan Gisselquist |
// Gisselquist Tecnology, LLC |
// |
// Copyright: 2015 |
// |
// |
`define QSPI_IDLE 0 |
`define QSPI_START 1 |
`define QSPI_BITS 2 |
`define QSPI_READY 3 |
`define QSPI_STOP 4 |
`define QSPI_STOP_B 5 |
|
// Modes |
`define QSPI_MOD_SPI 2'b00 |
`define QSPI_MOD_QOUT 2'b10 |
`define QSPI_MOD_QIN 2'b11 |
|
module llqspi(i_clk, |
// Module interface |
i_wr, i_hold, i_word, i_len, i_spd, i_dir, |
o_word, o_valid, o_busy, |
// QSPI interface |
o_sck, o_cs_n, o_mod, o_dat, i_dat, |
// Wbscope interface |
o_dbg); |
input i_clk; |
// Chip interface |
// Can send info |
// i_dir = 1, i_spd = 0, i_hold = 0, i_wr = 1, |
// i_word = { 1'b0, 32'info to send }, |
// i_len = # of bytes in word-1 |
input i_wr, i_hold; |
input [31:0] i_word; |
input [1:0] i_len; // 0=>8bits, 1=>16 bits, 2=>24 bits, 3=>32 bits |
input i_spd; // 0 -> normal QPI, 1 -> QSPI |
input i_dir; // 0 -> read, 1 -> write to SPI |
output reg [31:0] o_word; |
output reg o_valid, o_busy; |
// Interface with the QSPI lines |
output reg o_sck; |
output reg o_cs_n; |
output reg [1:0] o_mod; |
output reg [3:0] o_dat; |
input [3:0] i_dat; |
output wire [22:0] o_dbg; |
|
assign o_dbg = { state, spi_len, // 3+6+ 14 |
o_busy, o_valid, o_cs_n, o_sck, o_mod, o_dat, i_dat }; |
|
// Timing: |
// |
// Tick Clk BSY/WR CS_n BIT/MO STATE |
// 0 1 0/0 1 - |
// 1 1 0/1 1 - |
// 2 1 1/0 0 - QSPI_START |
// 3 0 1/0 0 - QSPI_START |
// 4 0 1/0 0 0 QSPI_BITS |
// 5 1 1/0 0 0 QSPI_BITS |
// 6 0 1/0 0 1 QSPI_BITS |
// 7 1 1/0 0 1 QSPI_BITS |
// 8 0 1/0 0 2 QSPI_BITS |
// 9 1 1/0 0 2 QSPI_BITS |
// 10 0 1/0 0 3 QSPI_BITS |
// 11 1 1/0 0 3 QSPI_BITS |
// 12 0 1/0 0 4 QSPI_BITS |
// 13 1 1/0 0 4 QSPI_BITS |
// 14 0 1/0 0 5 QSPI_BITS |
// 15 1 1/0 0 5 QSPI_BITS |
// 16 0 1/0 0 6 QSPI_BITS |
// 17 1 1/1 0 6 QSPI_BITS |
// 18 0 1/1 0 7 QSPI_READY |
// 19 1 0/1 0 7 QSPI_READY |
// 20 0 1/0/V 0 8 QSPI_BITS |
// 21 1 1/0 0 8 QSPI_BITS |
// 22 0 1/0 0 9 QSPI_BITS |
// 23 1 1/0 0 9 QSPI_BITS |
// 24 0 1/0 0 10 QSPI_BITS |
// 25 1 1/0 0 10 QSPI_BITS |
// 26 0 1/0 0 11 QSPI_BITS |
// 27 1 1/0 0 11 QSPI_BITS |
// 28 0 1/0 0 12 QSPI_BITS |
// 29 1 1/0 0 12 QSPI_BITS |
// 30 0 1/0 0 13 QSPI_BITS |
// 31 1 1/0 0 13 QSPI_BITS |
// 32 0 1/0 0 14 QSPI_BITS |
// 33 1 1/0 0 14 QSPI_BITS |
// 34 0 1/0 0 15 QSPI_READY |
// 35 1 1/0 0 15 QSPI_READY |
// 36 1 1/0/V 0 - QSPI_STOP |
// 37 1 1/0 0 - QSPI_STOPB |
// 38 1 1/0 1 - QSPI_IDLE |
// 39 1 0/0 1 - |
// Now, let's switch from single bit to quad mode |
// 40 1 0/0 1 - QSPI_IDLE |
// 41 1 0/1 1 - QSPI_IDLE |
// 42 1 1/0 0 - QSPI_START |
// 43 0 1/0 0 - QSPI_START |
// 44 0 1/0 0 0 QSPI_BITS |
// 45 1 1/0 0 0 QSPI_BITS |
// 46 0 1/0 0 1 QSPI_BITS |
// 47 1 1/0 0 1 QSPI_BITS |
// 48 0 1/0 0 2 QSPI_BITS |
// 49 1 1/0 0 2 QSPI_BITS |
// 50 0 1/0 0 3 QSPI_BITS |
// 51 1 1/0 0 3 QSPI_BITS |
// 52 0 1/0 0 4 QSPI_BITS |
// 53 1 1/0 0 4 QSPI_BITS |
// 54 0 1/0 0 5 QSPI_BITS |
// 55 1 1/0 0 5 QSPI_BITS |
// 56 0 1/0 0 6 QSPI_BITS |
// 57 1 1/1/QR 0 6 QSPI_BITS |
// 58 0 1/1/QR 0 7 QSPI_READY |
// 59 1 0/1/QR 0 7 QSPI_READY |
// 60 0 1/0/?/V 0 8-11 QSPI_BITS |
// 61 1 1/0/? 0 8-11 QSPI_BITS |
// 62 0 1/0/? 0 12-15 QSPI_BITS |
// 63 1 1/0/? 0 12-15 QSPI_BITS |
// 64 1 1/0/?/V 0 - QSPI_STOP |
// 65 1 1/0/? 0 - QSPI_STOPB |
// 66 1 1/0/? 1 - QSPI_IDLE |
// 67 1 0/0 1 - QSPI_IDLE |
// Now let's try something entirely in Quad read mode, from the |
// beginning |
// 68 1 0/1/QR 1 - QSPI_IDLE |
// 69 1 1/0 0 - QSPI_START |
// 70 0 1/0 0 - QSPI_START |
// 71 0 1/0 0 0-3 QSPI_BITS |
// 72 1 1/0 0 0-3 QSPI_BITS |
// 73 0 1/1/QR 0 4-7 QSPI_BITS |
// 74 1 0/1/QR 0 4-7 QSPI_BITS |
// 75 0 1/?/?/V 0 8-11 QSPI_BITS |
// 76 1 1/?/? 0 8-11 QSPI_BITS |
// 77 0 1/1/QR 0 12-15 QSPI_BITS |
// 78 1 0/1/QR 0 12-15 QSPI_BITS |
// 79 0 1/?/?/V 0 16-19 QSPI_BITS |
// 80 1 1/0 0 16-19 QSPI_BITS |
// 81 0 1/0 0 20-23 QSPI_BITS |
// 82 1 1/0 0 20-23 QSPI_BITS |
// 83 1 1/0/V 0 - QSPI_STOP |
// 84 1 1/0 0 - QSPI_STOPB |
// 85 1 1/0 1 - QSPI_IDLE |
// 86 1 0/0 1 - QSPI_IDLE |
|
wire i_miso; |
assign i_miso = i_dat[1]; |
|
reg r_spd, r_dir; |
reg [5:0] spi_len; |
reg [31:0] r_word; |
reg [30:0] r_input; |
reg [2:0] state; |
initial state = `QSPI_IDLE; |
initial o_sck = 1'b1; |
initial o_cs_n = 1'b1; |
initial o_dat = 4'hd; |
initial o_valid = 1'b0; |
initial o_busy = 1'b0; |
initial r_input = 31'h000; |
always @(posedge i_clk) |
if ((state == `QSPI_IDLE)&&(o_sck)) |
begin |
o_cs_n <= 1'b1; |
o_valid <= 1'b0; |
o_busy <= 1'b0; |
o_mod <= `QSPI_MOD_SPI; |
if (i_wr) |
begin |
r_word <= i_word; |
state <= `QSPI_START; |
r_spd <= i_spd; |
r_dir <= i_dir; |
spi_len<= { 1'b0, i_len, 3'b000 } + 6'h8; |
o_cs_n <= 1'b0; |
o_busy <= 1'b1; |
o_sck <= 1'b1; |
end |
end else if (state == `QSPI_START) |
begin // We come in here with sck high, stay here 'til sck is low |
o_sck <= 1'b0; |
if (o_sck == 1'b0) |
begin |
state <= `QSPI_BITS; |
spi_len<= spi_len - ( (r_spd)? 6'h4 : 6'h1 ); |
if (r_spd) |
r_word <= { r_word[27:0], 4'h0 }; |
else |
r_word <= { r_word[30:0], 1'b0 }; |
end |
o_mod <= (r_spd) ? { 1'b1, r_dir } : `QSPI_MOD_SPI; |
o_cs_n <= 1'b0; |
o_busy <= 1'b1; |
o_valid <= 1'b0; |
if (r_spd) |
begin |
o_dat <= r_word[31:28]; |
// r_word <= { r_word[27:0], 4'h0 }; |
end else begin |
o_dat <= { 3'b110, r_word[31] }; |
// r_word <= { r_word[30:0], 1'b0 }; |
end |
end else if (~o_sck) |
begin |
o_sck <= 1'b1; |
o_busy <= ((state != `QSPI_READY)||(~i_wr)); |
o_valid <= 1'b0; |
end else if (state == `QSPI_BITS) |
begin |
// Should enter into here with at least a spi_len |
// of one, perhaps more |
o_sck <= 1'b0; |
o_busy <= 1'b1; |
if (r_spd) |
begin |
o_dat <= r_word[31:28]; |
r_word <= { r_word[27:0], 4'h0 }; |
spi_len <= spi_len - 6'h4; |
if (spi_len == 6'h4) |
state <= `QSPI_READY; |
end else begin |
o_dat <= { 3'b110, r_word[31] }; |
r_word <= { r_word[30:0], 1'b0 }; |
spi_len <= spi_len - 6'h1; |
if (spi_len == 6'h1) |
state <= `QSPI_READY; |
end |
|
o_valid <= 1'b0; |
if (~o_mod[1]) |
r_input <= { r_input[29:0], i_miso }; |
else if (o_mod[1]) |
r_input <= { r_input[26:0], i_dat }; |
end else if (state == `QSPI_READY) |
begin |
o_valid <= 1'b0; |
o_cs_n <= 1'b0; |
o_busy <= 1'b1; |
// This is the state on the last clock (both low and |
// high clocks) of the data. Data is valid during |
// this state. Here we chose to either STOP or |
// continue and transmit more. |
o_sck <= (i_hold); // Stay here on hold, no clocks |
if((~o_busy)&&(i_wr))// Acknowledge a new request |
begin |
state <= `QSPI_BITS; |
o_busy <= 1'b1; |
o_sck <= 1'b0; |
|
// Read the new request off the bus |
r_spd <= i_spd; |
r_dir <= i_dir; |
// Set up the first bits on the bus |
o_mod <= (i_spd) ? { 1'b1, i_dir } : `QSPI_MOD_SPI; |
if (i_spd) |
begin |
o_dat <= i_word[31:28]; |
r_word <= { i_word[27:0], 4'h0 }; |
// spi_len <= spi_len - 4; |
spi_len<= { 1'b0, i_len, 3'b000 } + 6'h8 |
- 6'h4; |
end else begin |
o_dat <= { 3'b110, i_word[31] }; |
r_word <= { i_word[30:0], 1'b0 }; |
spi_len<= { 1'b0, i_len, 3'b000 } + 6'h8 |
- 6'h1; |
end |
|
// Read a bit upon any transition |
o_valid <= 1'b1; |
if (~o_mod[1]) |
begin |
r_input <= { r_input[29:0], i_miso }; |
o_word <= { r_input[30:0], i_miso }; |
end else if (o_mod[1]) |
begin |
r_input <= { r_input[26:0], i_dat }; |
o_word <= { r_input[27:0], i_dat }; |
end |
end else if (i_hold) |
begin // Stay here, holding the clock high, if the user |
// has more data, but it isn't ready yet. |
o_busy <= 1'b0; |
end else begin |
o_sck <= 1'b1; |
state <= `QSPI_STOP; |
|
// Read a bit upon any transition |
o_valid <= 1'b1; |
if (~o_mod[1]) |
begin |
r_input <= { r_input[29:0], i_miso }; |
o_word <= { r_input[30:0], i_miso }; |
end else if (o_mod[1]) |
begin |
r_input <= { r_input[26:0], i_dat }; |
o_word <= { r_input[27:0], i_dat }; |
end |
end |
end else if (state == `QSPI_STOP) |
begin |
o_sck <= 1'b1; // Stop the clock |
o_valid <= 1'b0; // Output may have just been valid, but no more |
o_busy <= 1'b1; // Still busy till port is clear |
state <= `QSPI_STOP_B; |
o_mod <= `QSPI_MOD_SPI; |
end else if (state == `QSPI_STOP_B) |
begin |
o_cs_n <= 1'b1; |
o_sck <= 1'b1; |
// Do I need this???? |
// spi_len <= 3; // Minimum CS high time before next cmd |
state <= `QSPI_IDLE; |
o_valid <= 1'b0; |
o_busy <= 1'b1; |
o_mod <= `QSPI_MOD_SPI; |
end else begin // Invalid states, should never get here |
state <= `QSPI_STOP; |
o_valid <= 1'b0; |
o_busy <= 1'b1; |
o_cs_n <= 1'b1; |
o_sck <= 1'b1; |
o_mod <= `QSPI_MOD_SPI; |
o_dat <= 4'hd; |
end |
|
endmodule |
|
/qspiflash/trunk/doc/spec.pdf
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Index: qspiflash/trunk/doc/src/gpl-3.0.tex
===================================================================
--- qspiflash/trunk/doc/src/gpl-3.0.tex (nonexistent)
+++ qspiflash/trunk/doc/src/gpl-3.0.tex (revision 2)
@@ -0,0 +1,719 @@
+\documentclass[11pt]{article}
+
+\title{GNU GENERAL PUBLIC LICENSE}
+\date{Version 3, 29 June 2007}
+
+\begin{document}
+\maketitle
+
+\begin{center}
+{\parindent 0in
+
+Copyright \copyright\ 2007 Free Software Foundation, Inc. \texttt{http://fsf.org/}
+
+\bigskip
+Everyone is permitted to copy and distribute verbatim copies of this
+
+license document, but changing it is not allowed.}
+
+\end{center}
+
+\renewcommand{\abstractname}{Preamble}
+\begin{abstract}
+The GNU General Public License is a free, copyleft license for
+software and other kinds of works.
+
+The licenses for most software and other practical works are designed
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+
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+
+Developers that use the GNU GPL protect your rights with two steps:
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+
+\begin{center}
+{\Large \sc Terms and Conditions}
+\end{center}
+
+
+\begin{enumerate}
+
+\addtocounter{enumi}{-1}
+
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+
+When you convey a copy of a covered work, you may at your option
+remove any additional permissions from that copy, or from any part of
+it. (Additional permissions may be written to require their own
+removal in certain cases when you modify the work.) You may place
+additional permissions on material, added by you to a covered work,
+for which you have or can give appropriate copyright permission.
+
+Notwithstanding any other provision of this License, for material you
+add to a covered work, you may (if authorized by the copyright holders of
+that material) supplement the terms of this License with terms:
+ \begin{enumerate}
+ \item Disclaiming warranty or limiting liability differently from the
+ terms of sections 15 and 16 of this License; or
+
+ \item Requiring preservation of specified reasonable legal notices or
+ author attributions in that material or in the Appropriate Legal
+ Notices displayed by works containing it; or
+
+ \item Prohibiting misrepresentation of the origin of that material, or
+ requiring that modified versions of such material be marked in
+ reasonable ways as different from the original version; or
+
+ \item Limiting the use for publicity purposes of names of licensors or
+ authors of the material; or
+
+ \item Declining to grant rights under trademark law for use of some
+ trade names, trademarks, or service marks; or
+
+ \item Requiring indemnification of licensors and authors of that
+ material by anyone who conveys the material (or modified versions of
+ it) with contractual assumptions of liability to the recipient, for
+ any liability that these contractual assumptions directly impose on
+ those licensors and authors.
+ \end{enumerate}
+
+All other non-permissive additional terms are considered ``further
+restrictions'' within the meaning of section 10. If the Program as you
+received it, or any part of it, contains a notice stating that it is
+governed by this License along with a term that is a further
+restriction, you may remove that term. If a license document contains
+a further restriction but permits relicensing or conveying under this
+License, you may add to a covered work material governed by the terms
+of that license document, provided that the further restriction does
+not survive such relicensing or conveying.
+
+If you add terms to a covered work in accord with this section, you
+must place, in the relevant source files, a statement of the
+additional terms that apply to those files, or a notice indicating
+where to find the applicable terms.
+
+Additional terms, permissive or non-permissive, may be stated in the
+form of a separately written license, or stated as exceptions;
+the above requirements apply either way.
+
+\item Termination.
+
+You may not propagate or modify a covered work except as expressly
+provided under this License. Any attempt otherwise to propagate or
+modify it is void, and will automatically terminate your rights under
+this License (including any patent licenses granted under the third
+paragraph of section 11).
+
+However, if you cease all violation of this License, then your
+license from a particular copyright holder is reinstated (a)
+provisionally, unless and until the copyright holder explicitly and
+finally terminates your license, and (b) permanently, if the copyright
+holder fails to notify you of the violation by some reasonable means
+prior to 60 days after the cessation.
+
+Moreover, your license from a particular copyright holder is
+reinstated permanently if the copyright holder notifies you of the
+violation by some reasonable means, this is the first time you have
+received notice of violation of this License (for any work) from that
+copyright holder, and you cure the violation prior to 30 days after
+your receipt of the notice.
+
+Termination of your rights under this section does not terminate the
+licenses of parties who have received copies or rights from you under
+this License. If your rights have been terminated and not permanently
+reinstated, you do not qualify to receive new licenses for the same
+material under section 10.
+
+\item Acceptance Not Required for Having Copies.
+
+You are not required to accept this License in order to receive or
+run a copy of the Program. Ancillary propagation of a covered work
+occurring solely as a consequence of using peer-to-peer transmission
+to receive a copy likewise does not require acceptance. However,
+nothing other than this License grants you permission to propagate or
+modify any covered work. These actions infringe copyright if you do
+not accept this License. Therefore, by modifying or propagating a
+covered work, you indicate your acceptance of this License to do so.
+
+\item Automatic Licensing of Downstream Recipients.
+
+Each time you convey a covered work, the recipient automatically
+receives a license from the original licensors, to run, modify and
+propagate that work, subject to this License. You are not responsible
+for enforcing compliance by third parties with this License.
+
+An ``entity transaction'' is a transaction transferring control of an
+organization, or substantially all assets of one, or subdividing an
+organization, or merging organizations. If propagation of a covered
+work results from an entity transaction, each party to that
+transaction who receives a copy of the work also receives whatever
+licenses to the work the party's predecessor in interest had or could
+give under the previous paragraph, plus a right to possession of the
+Corresponding Source of the work from the predecessor in interest, if
+the predecessor has it or can get it with reasonable efforts.
+
+You may not impose any further restrictions on the exercise of the
+rights granted or affirmed under this License. For example, you may
+not impose a license fee, royalty, or other charge for exercise of
+rights granted under this License, and you may not initiate litigation
+(including a cross-claim or counterclaim in a lawsuit) alleging that
+any patent claim is infringed by making, using, selling, offering for
+sale, or importing the Program or any portion of it.
+
+\item Patents.
+
+A ``contributor'' is a copyright holder who authorizes use under this
+License of the Program or a work on which the Program is based. The
+work thus licensed is called the contributor's ``contributor version''.
+
+A contributor's ``essential patent claims'' are all patent claims
+owned or controlled by the contributor, whether already acquired or
+hereafter acquired, that would be infringed by some manner, permitted
+by this License, of making, using, or selling its contributor version,
+but do not include claims that would be infringed only as a
+consequence of further modification of the contributor version. For
+purposes of this definition, ``control'' includes the right to grant
+patent sublicenses in a manner consistent with the requirements of
+this License.
+
+Each contributor grants you a non-exclusive, worldwide, royalty-free
+patent license under the contributor's essential patent claims, to
+make, use, sell, offer for sale, import and otherwise run, modify and
+propagate the contents of its contributor version.
+
+In the following three paragraphs, a ``patent license'' is any express
+agreement or commitment, however denominated, not to enforce a patent
+(such as an express permission to practice a patent or covenant not to
+sue for patent infringement). To ``grant'' such a patent license to a
+party means to make such an agreement or commitment not to enforce a
+patent against the party.
+
+If you convey a covered work, knowingly relying on a patent license,
+and the Corresponding Source of the work is not available for anyone
+to copy, free of charge and under the terms of this License, through a
+publicly available network server or other readily accessible means,
+then you must either (1) cause the Corresponding Source to be so
+available, or (2) arrange to deprive yourself of the benefit of the
+patent license for this particular work, or (3) arrange, in a manner
+consistent with the requirements of this License, to extend the patent
+license to downstream recipients. ``Knowingly relying'' means you have
+actual knowledge that, but for the patent license, your conveying the
+covered work in a country, or your recipient's use of the covered work
+in a country, would infringe one or more identifiable patents in that
+country that you have reason to believe are valid.
+
+If, pursuant to or in connection with a single transaction or
+arrangement, you convey, or propagate by procuring conveyance of, a
+covered work, and grant a patent license to some of the parties
+receiving the covered work authorizing them to use, propagate, modify
+or convey a specific copy of the covered work, then the patent license
+you grant is automatically extended to all recipients of the covered
+work and works based on it.
+
+A patent license is ``discriminatory'' if it does not include within
+the scope of its coverage, prohibits the exercise of, or is
+conditioned on the non-exercise of one or more of the rights that are
+specifically granted under this License. You may not convey a covered
+work if you are a party to an arrangement with a third party that is
+in the business of distributing software, under which you make payment
+to the third party based on the extent of your activity of conveying
+the work, and under which the third party grants, to any of the
+parties who would receive the covered work from you, a discriminatory
+patent license (a) in connection with copies of the covered work
+conveyed by you (or copies made from those copies), or (b) primarily
+for and in connection with specific products or compilations that
+contain the covered work, unless you entered into that arrangement,
+or that patent license was granted, prior to 28 March 2007.
+
+Nothing in this License shall be construed as excluding or limiting
+any implied license or other defenses to infringement that may
+otherwise be available to you under applicable patent law.
+
+\item No Surrender of Others' Freedom.
+
+If conditions are imposed on you (whether by court order, agreement or
+otherwise) that contradict the conditions of this License, they do not
+excuse you from the conditions of this License. If you cannot convey a
+covered work so as to satisfy simultaneously your obligations under this
+License and any other pertinent obligations, then as a consequence you may
+not convey it at all. For example, if you agree to terms that obligate you
+to collect a royalty for further conveying from those to whom you convey
+the Program, the only way you could satisfy both those terms and this
+License would be to refrain entirely from conveying the Program.
+
+\item Use with the GNU Affero General Public License.
+
+Notwithstanding any other provision of this License, you have
+permission to link or combine any covered work with a work licensed
+under version 3 of the GNU Affero General Public License into a single
+combined work, and to convey the resulting work. The terms of this
+License will continue to apply to the part which is the covered work,
+but the special requirements of the GNU Affero General Public License,
+section 13, concerning interaction through a network will apply to the
+combination as such.
+
+\item Revised Versions of this License.
+
+The Free Software Foundation may publish revised and/or new versions of
+the GNU General Public License from time to time. Such new versions will
+be similar in spirit to the present version, but may differ in detail to
+address new problems or concerns.
+
+Each version is given a distinguishing version number. If the
+Program specifies that a certain numbered version of the GNU General
+Public License ``or any later version'' applies to it, you have the
+option of following the terms and conditions either of that numbered
+version or of any later version published by the Free Software
+Foundation. If the Program does not specify a version number of the
+GNU General Public License, you may choose any version ever published
+by the Free Software Foundation.
+
+If the Program specifies that a proxy can decide which future
+versions of the GNU General Public License can be used, that proxy's
+public statement of acceptance of a version permanently authorizes you
+to choose that version for the Program.
+
+Later license versions may give you additional or different
+permissions. However, no additional obligations are imposed on any
+author or copyright holder as a result of your choosing to follow a
+later version.
+
+\item Disclaimer of Warranty.
+
+\begin{sloppypar}
+ THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
+ APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE
+ COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM ``AS IS''
+ WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED,
+ INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
+ MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE
+ RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM IS WITH YOU.
+ SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL
+ NECESSARY SERVICING, REPAIR OR CORRECTION.
+\end{sloppypar}
+
+\item Limitation of Liability.
+
+ IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN
+ WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES
+ AND/OR CONVEYS THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR
+ DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL
+ DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE PROGRAM
+ (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED
+ INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE
+ OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS), EVEN IF SUCH
+ HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
+ DAMAGES.
+
+\item Interpretation of Sections 15 and 16.
+
+If the disclaimer of warranty and limitation of liability provided
+above cannot be given local legal effect according to their terms,
+reviewing courts shall apply local law that most closely approximates
+an absolute waiver of all civil liability in connection with the
+Program, unless a warranty or assumption of liability accompanies a
+copy of the Program in return for a fee.
+
+\begin{center}
+{\Large\sc End of Terms and Conditions}
+
+\bigskip
+How to Apply These Terms to Your New Programs
+\end{center}
+
+If you develop a new program, and you want it to be of the greatest
+possible use to the public, the best way to achieve this is to make it
+free software which everyone can redistribute and change under these terms.
+
+To do so, attach the following notices to the program. It is safest
+to attach them to the start of each source file to most effectively
+state the exclusion of warranty; and each file should have at least
+the ``copyright'' line and a pointer to where the full notice is found.
+
+{\footnotesize
+\begin{verbatim}
+
+
+Copyright (C)
+
+This program is free software: you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation, either version 3 of the License, or
+(at your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program. If not, see .
+\end{verbatim}
+}
+
+Also add information on how to contact you by electronic and paper mail.
+
+If the program does terminal interaction, make it output a short
+notice like this when it starts in an interactive mode:
+
+{\footnotesize
+\begin{verbatim}
+ Copyright (C)
+
+This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
+This is free software, and you are welcome to redistribute it
+under certain conditions; type `show c' for details.
+\end{verbatim}
+}
+
+The hypothetical commands {\tt show w} and {\tt show c} should show
+the appropriate
+parts of the General Public License. Of course, your program's commands
+might be different; for a GUI interface, you would use an ``about box''.
+
+You should also get your employer (if you work as a programmer) or
+school, if any, to sign a ``copyright disclaimer'' for the program, if
+necessary. For more information on this, and how to apply and follow
+the GNU GPL, see \texttt{http://www.gnu.org/licenses/}.
+
+The GNU General Public License does not permit incorporating your
+program into proprietary programs. If your program is a subroutine
+library, you may consider it more useful to permit linking proprietary
+applications with the library. If this is what you want to do, use
+the GNU Lesser General Public License instead of this License. But
+first, please read \texttt{http://www.gnu.org/philosophy/why-not-lgpl.html}.
+
+\end{enumerate}
+
+\end{document}
Index: qspiflash/trunk/doc/src/GT.eps
===================================================================
--- qspiflash/trunk/doc/src/GT.eps (nonexistent)
+++ qspiflash/trunk/doc/src/GT.eps (revision 2)
@@ -0,0 +1,94 @@
+%!PS-Adobe-3.0 EPSF-3.0
+%%BoundingBox: 0 0 504 288
+%%Creator: Gisselquist Technology LLC
+%%Title: Gisselquist Technology Logo
+%%CreationDate: 11 Mar 2014
+%%EndComments
+%%BeginProlog
+/black { 0 setgray } def
+/white { 1 setgray } def
+/height { 288 } def
+/lw { height 8 div } def
+%%EndProlog
+% %%Page: 1
+
+false { % A bounding box
+ 0 setlinewidth
+ newpath
+ 0 0 moveto
+ 0 height lineto
+ 1.625 height mul lw add 0 rlineto
+ 0 height neg rlineto
+ closepath stroke
+} if
+
+true { % The "G"
+ newpath
+ height 2 div 1.25 mul height moveto
+ height 2 div height 4 div sub height lineto
+ 0 height 3 4 div mul lineto
+ 0 height 4 div lineto
+ height 4 div 0 lineto
+ height 3 4 div mul 0 lineto
+ height height 4 div lineto
+ height height 2 div lineto
+ %
+ height lw sub height 2 div lineto
+ height lw sub height 4 div lw 2 div add lineto
+ height 3 4 div mul lw 2 div sub lw lineto
+ height 4 div lw 2 div add lw lineto
+ lw height 4 div lw 2 div add lineto
+ lw height 3 4 div mul lw 2 div sub lineto
+ height 4 div lw 2 div add height lw sub lineto
+ height 2 div 1.25 mul height lw sub lineto
+ closepath fill
+ newpath
+ height 2 div height 2 div moveto
+ height 2 div 0 rlineto
+ 0 height 2 div neg rlineto
+ lw neg 0 rlineto
+ 0 height 2 div lw sub rlineto
+ height 2 div height 2 div lw sub lineto
+ closepath fill
+} if
+
+height 2 div 1.25 mul lw add 0 translate
+false {
+ newpath
+ 0 height moveto
+ height 0 rlineto
+ 0 lw neg rlineto
+ height lw sub 2 div neg 0 rlineto
+ 0 height lw sub neg rlineto
+ lw neg 0 rlineto
+ 0 height lw sub rlineto
+ height lw sub 2 div neg 0 rlineto
+ 0 lw rlineto
+ closepath fill
+} if
+
+true { % The "T" of "GT".
+ newpath
+ 0 height moveto
+ height lw add 2 div 0 rlineto
+ 0 height neg rlineto
+ lw neg 0 rlineto
+ 0 height lw sub rlineto
+ height lw sub 2 div neg 0 rlineto
+ closepath fill
+
+ % The right half of the top of the "T"
+ newpath
+ % (height + lw)/2 + lw
+ height lw add 2 div lw add height moveto
+ % height - (above) = height - height/2 - 3/2 lw = height/2-3/2lw
+ height 3 lw mul sub 2 div 0 rlineto
+ 0 lw neg rlineto
+ height 3 lw mul sub 2 div neg 0 rlineto
+ closepath fill
+} if
+
+
+grestore
+showpage
+%%EOF
Index: qspiflash/trunk/doc/src/gqtekspec.cls
===================================================================
--- qspiflash/trunk/doc/src/gqtekspec.cls (nonexistent)
+++ qspiflash/trunk/doc/src/gqtekspec.cls (revision 2)
@@ -0,0 +1,296 @@
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%/
+%
+% Copyright (C) 2015, Gisselquist Technology, LLC
+%
+% This template is free software: you can redistribute it and/or modify it
+% under the terms of the GNU General Public License as published by the
+% Free Software Foundation, either version 3 of the License, or (at your
+% option) any later version.
+%
+% This template is distributed in the hope that it will be useful, but WITHOUT
+% ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
+% FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+% for more details.
+%
+% You should have received a copy of the GNU General Public License along
+% with this program. If not, see for a copy.
+%
+% License: GPL, v3, as defined and found on www.gnu.org,
+% http://www.gnu.org/licenses/gpl.html
+%
+%
+%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+% \NeedsTeXFormat{LaTeX2e}[1995/12/01]
+\ProvidesClass{gqtekspec}[2015/03/03 v0.1 -- Gisselquist Technology Specification]
+\typeout{by Dan Gisselquist}
+\LoadClassWithOptions{report}
+\usepackage{datetime}
+\usepackage{graphicx}
+\usepackage[dvips]{pstricks}
+\usepackage{hhline}
+\usepackage{colortbl}
+\newdateformat{headerdate}{\THEYEAR/\twodigit{\THEMONTH}/\twodigit{\THEDAY}}
+\setlength{\hoffset}{0.25in}
+\setlength{\voffset}{-0.5in}
+\setlength{\marginparwidth}{0in}
+\setlength{\marginparsep}{0in}
+\setlength{\textwidth}{6in}
+\setlength{\oddsidemargin}{0in}
+
+% **************************************
+% * APPENDIX *
+% **************************************
+%
+\newcommand\appfl@g{\appendixname} %used to test \@chapapp
+%
+% \renewcommand\appendix{\par\clearpage
+ % \setcounter{chapter}{0}%
+ % \setcounter{section}{0}%
+ % \renewcommand\@chapapp{\appendixname}%
+ % \renewcommand\thechapter{\Alph{chapter}}
+ % \if@nosectnum\else
+ % \renewcommand\thesection{\Alph{chapter}.\arabic{section}}
+ % \fi
+% }
+
+
+% FIGURE
+% redefine the @caption command to put a period after the figure or
+% table number in the lof and lot tables
+\long\def\@caption#1[#2]#3{\par\addcontentsline{\csname
+ ext@#1\endcsname}{#1}{\protect\numberline{\csname
+ the#1\endcsname.}{\ignorespaces #2}}\begingroup
+ \@parboxrestore
+ \normalsize
+ \@makecaption{\csname fnum@#1\endcsname}{\ignorespaces #3}\par
+ \endgroup}
+
+% ****************************************
+% * TABLE OF CONTENTS, ETC. *
+% ****************************************
+
+\renewcommand\contentsname{Contents}
+\renewcommand\listfigurename{Figures}
+\renewcommand\listtablename{Tables}
+
+\newif\if@toc \@tocfalse
+\renewcommand\tableofcontents{%
+ \begingroup% temporarily set if@toc so that \@schapter will not
+ % put Table of Contents in the table of contents.
+ \@toctrue
+ \chapter*{\contentsname}
+ \endgroup
+ \thispagestyle{gqtekspecplain}
+
+ \baselineskip=10pt plus .5pt minus .5pt
+
+ {\raggedleft Page \par\vskip-\parskip}
+ \@starttoc{toc}%
+ \baselineskip=\normalbaselineskip
+ }
+
+\def\l@appendix{\pagebreak[3]
+ \vskip 1.0em plus 1pt % space above appendix line
+ \@dottedtocline{0}{0em}{8em}}
+
+\def\l@chapter{\pagebreak[3]
+ \vskip 1.0em plus 1pt % space above appendix line
+ \@dottedtocline{0}{0em}{4em}}
+
+% \if@nosectnum\else
+ % \renewcommand\l@section{\@dottedtocline{1}{5.5em}{2.4em}}
+ % \renewcommand\l@subsection{\@dottedtocline{2}{8.5em}{3.2em}}
+ % \renewcommand\l@subsubsection{\@dottedtocline{3}{11em}{4.1em}}
+ % \renewcommand\l@paragraph{\@dottedtocline{4}{13.5em}{5em}}
+ % \renewcommand\l@subparagraph{\@dottedtocline{5}{16em}{6em}}
+% \fi
+
+% LIST OF FIGURES
+%
+\def\listoffigures{%
+ \begingroup
+ \chapter*{\listfigurename}%
+ \endgroup
+ \thispagestyle{gqtekspecplain}%
+
+ \baselineskip=10pt plus .5pt minus .5pt%
+
+ {\hbox to \hsize{Figure\hfil Page} \par\vskip-\parskip}%
+
+ \rule[2mm]{\textwidth}{0.5mm}\par
+
+ \@starttoc{lof}%
+ \baselineskip=\normalbaselineskip}%
+
+\def\l@figure{\@dottedtocline{1}{1em}{4.0em}}
+
+% LIST OF TABLES
+%
+\def\listoftables{%
+ \begingroup
+ \chapter*{\listtablename}%
+ \endgroup
+ \thispagestyle{gqtekspecplain}%
+ \baselineskip=10pt plus .5pt minus .5pt%
+ {\hbox to \hsize{Table\hfil Page} \par\vskip-\parskip}%
+
+ % Added line underneath headings, 20 Jun 01, Capt Todd Hale.
+ \rule[2mm]{\textwidth}{0.5mm}\par
+
+ \@starttoc{lot}%
+ \baselineskip=\normalbaselineskip}%
+
+\let\l@table\l@figure
+
+% ****************************************
+% * PAGE STYLES *
+% ****************************************
+%
+\def\ps@gqtekspectoc{%
+ \let\@mkboth\@gobbletwo
+ \def \@oddhead{}
+ \def \@oddfoot{\rm
+ \hfil\raisebox{-9pt}{\thepage}\hfil\thispagestyle{gqtekspectocn}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+\def\ps@gqtekspectocn{\let\@mkboth\@gobbletwo
+ \def \@oddhead{\rm \hfil\raisebox{10pt}{Page}}
+ \def \@oddfoot{\rm
+ \hfil\raisebox{-9pt}{\thepage}\hfil\thispagestyle{gqtekspectocn}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+
+\def\ps@gqtekspeclof{\let\@mkboth\@gobbletwo
+ \def \@oddhead{}
+ \def \@oddfoot{\rm
+ \hfil\raisebox{-9pt}{\thepage}\hfil\thispagestyle{gqtekspeclofn}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+\def\ps@gqtekspeclofn{\let\@mkboth\@gobbletwo
+ \def \@oddhead{\rm
+ \parbox{\textwidth}{\raisebox{0pt}{Figure}\hfil\raisebox{0pt}{Page} %
+ \raisebox{20pt}{\rule[10pt]{\textwidth}{0.5mm}} }}
+
+ \def \@oddfoot{\rm
+ \hfil\raisebox{-9pt}{\thepage}\hfil\thispagestyle{gqtekspeclofn}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+
+\def\ps@gqtekspeclot{\let\@mkboth\@gobbletwo
+ \def \@oddhead{}
+ \def \@oddfoot{\rm
+ \hfil\raisebox{-9pt}{\thepage}\hfil\thispagestyle{gqtekspeclotn}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+\def\ps@gqtekspeclotn{\let\@mkboth\@gobbletwo
+ \def \@oddhead{\rm
+ \parbox{\textwidth}{\raisebox{0pt}{Table}\hfil\raisebox{0pt}{Page} %
+ \raisebox{20pt}{\rule[10pt]{\textwidth}{0.5mm}} }}
+
+ \def \@oddfoot{\rm
+ \hfil\raisebox{-9pt}{\thepage}\hfil\thispagestyle{gqtekspeclotn}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+
+\def\ps@gqtekspecplain{\let\@mkboth\@gobbletwo
+ \def \@oddhead{\rput(0,-2pt){\psline(0,0)(\textwidth,0)}\rm \hbox to 1in{\includegraphics[height=0.8\headheight]{GT.eps} Gisselquist Technology, LLC}\hfil\hbox{\@title}\hfil\hbox to 1in{\hfil\headerdate\@date}}
+ \def \@oddfoot{\rput(0,9pt){\psline(0,0)(\textwidth,0)}\rm \hbox to 1in{www.opencores.com\hfil}\hfil\hbox{\r@vision}\hfil\hbox to 1in{\hfil{\thepage}}}
+ \let \@evenhead\@oddhead \let \@evenfoot\@oddfoot}
+
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+\newenvironment{license}{\clearpage\typeout{^^JLicense Page.}\ \vfill\noindent}%
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+% * CHAPTER DEFINITIONS *
+% ****************************************
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+\endinput
Index: qspiflash/trunk/doc/src/spec.tex
===================================================================
--- qspiflash/trunk/doc/src/spec.tex (nonexistent)
+++ qspiflash/trunk/doc/src/spec.tex (revision 2)
@@ -0,0 +1,654 @@
+\documentclass{gqtekspec}
+\project{Quad SPI Flash Controller}
+\title{Specification}
+\author{Dan Gisselquist, Ph.D.}
+\email{dgisselq\at opencores.org}
+\revision{Rev.~0.1}
+\begin{document}
+\pagestyle{gqtekspecplain}
+\titlepage
+\begin{license}
+Copyright (C) \theyear\today, Gisselquist Technology, LLC
+
+This project is free software (firmware): you can redistribute it and/or
+modify it under the terms of the GNU General Public License as published
+by the Free Software Foundation, either version 3 of the License, or (at
+your option) any later version.
+
+This program is distributed in the hope that it will be useful, but WITHOUT
+ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or
+FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
+for more details.
+
+You should have received a copy of the GNU General Public License along
+with this program. If not, see \hbox{ } for a copy.
+\end{license}
+\begin{revisionhistory}
+0.1 & 5/13/2015 & Gisselquist & First Draft \\\hline
+\end{revisionhistory}
+% Revision History
+% Table of Contents, named Contents
+\tableofcontents
+\listoffigures
+\listoftables
+\begin{preface}
+The genesis of this project was a desire to communicate with and program an
+FPGA board without the need for any proprietary tools. This includes Xilinx
+JTAG cables, or other proprietary loading capabilities such as Digilent's
+Adept program. As a result, all interactions with the board need to take
+place using open source tools, and the board must be able to reprogram itself.
+\end{preface}
+
+\chapter{Introduction}
+\pagenumbering{arabic}
+\setcounter{page}{1}
+
+The Quad SPI Flash controller handles all necessary queries and accesses to
+and from a SPI Flash device that has been augmented with an additional
+two data lines and enabled with a mode allowing all four data lines to
+work together in the same direction at the same time. Since the interface
+was derived from a SPI interface, most of the interaction takes place using
+normal SPI protocols and only some commands work at the higher four bits
+at a time speed.
+
+This particular controller attempts to mask the underlying operation of the
+SPI device behind a wishbone interface, to make it so that reads and writes
+are as simple as using the wishbone interface. However, the difference
+between erasing (turning bits from '0' to '1') and programming (turning bits
+from '1' to '0') breaks this model somewhat. Therefore, reads from the
+device act like normal wishbone reads, writes program the device and
+sort of work with the wishbone, while erase commands require another register
+to control. Please read the Operations chapter for a detailed description
+of how to perform these relevant operations.
+
+This controller implements the interface for the Quad SPI flash found on the
+Basys-3 board built by Digilent, Inc. Some portions of the interface may
+be specific to the Spansion S25FL032P chip used on this board, and the
+100~MHz system clock found on the board, although there is no reason the
+controller needs to be limited to this architecture. It just happens to be
+the one I have been designing to and for.
+
+For a description of how the internals of this core work, feel free to browse
+through the Architecture chapter.
+
+The registers that control this core are discussed in the Registers chapter.
+
+As required, you can find a wishbone datasheet in Chapt.~\ref{chap:wishbone}.
+
+The final pertinent information for implementing this core is found in the
+I/O Ports chapter, Chapt.~\ref{chap:ioports}.
+
+As always, write me if you have any questions or problems.
+
+\chapter{Architecture}\label{chap:arch}
+
+As built, the core consists of only two components: the wishbone quad SPI
+flash controller, {\tt wbqspiflash}, and the lower level quad SPI driver,
+{\tt llqspi}. The controller issues high level read/write commands to the
+lower level driver, which actually implements the Quad SPI protocol.
+
+Pictorally, this looks something like Fig.~\ref{fig:arch}.
+\begin{figure}\begin{center}\begin{pspicture}(-2in,0)(2in,3.5in)
+\rput(0,2.5in){
+ \rput(-0.9in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.92in,0.5in){\tt i\_wb\_cyc}
+ \rput(-0.7in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.72in,0.5in){\tt i\_wb\_data\_stb}
+ \rput(-0.5in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.52in,0.5in){\tt i\_wb\_ctrl\_stb}
+ \rput(-0.3in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.32in,0.5in){\tt i\_wb\_we}
+ \rput(-0.1in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.12in,0.5in){\tt i\_wb\_addr}
+ \rput( 0.1in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.08in,0.5in){\tt i\_wb\_data}
+ %
+ \rput( 0.5in,0){\psline{<-}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.48in,0.5in){\tt o\_wb\_ack}
+ \rput( 0.7in,0){\psline{<-}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.68in,0.5in){\tt o\_wb\_stall}
+ \rput( 0.9in,0){\psline{<-}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.88in,0.5in){\tt o\_wb\_data}}
+\rput(0,2.0in){%
+ \rput(0,0){\psframe(-1.2in,0)(1.2in,0.5in)}
+ \rput(0,0.25in){\tt wbqspiflash}}
+\rput(0,1.0in){
+ \rput(-0.9in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.92in,0.5in){\tt spi\_wr}
+ \rput(-0.7in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.72in,0.5in){\tt spi\_hold}
+ \rput(-0.5in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.52in,0.5in){\tt spi\_in}
+ \rput(-0.3in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.32in,0.5in){\tt spi\_len}
+ \rput(-0.1in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}(-0.12in,0.5in){\tt spi\_spd}
+ \rput( 0.1in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.08in,0.5in){\tt spi\_dir}
+ % \rput(-0.9in,0){\psline{->}(0,1in)(0,0in)}
+ % \rput[b]{90}(-0.92in,0.5in){\tt i\_wb\_cyc}
+ \rput( 0.5in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.48in,0.5in){\tt spi\_out}
+ \rput( 0.7in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.68in,0.5in){\tt spi\_valid}
+ \rput( 0.9in,0){\psline{->}(0,1in)(0,0in)}
+ \rput[b]{90}( 0.88in,0.5in){\tt spi\_busy}}
+\rput(0,0.5in){
+ \rput(0,0){\psframe(-1.25in,0)(1.25in,0.5in)}
+ \rput(0,0.25in){\tt llqspi}}
+ \rput(0,0){\psline{<->}(-0.3in,0.5in)(-0.3in,0)
+ \psline{<->}(-0.1in,0.5in)(-0.1in,0)
+ \psline{<->}(0.1in,0.5in)(0.1in,0)
+ \psline{<->}(0.3in,0.5in)(0.3in,0)}
+ \rput[l](0.4in,0.25in){Quad SPI I/O lines}
+\end{pspicture}\end{center}
+\caption{Architecture Diagram}\label{fig:arch}
+\end{figure}
+This is also what you will find if you browse through the code.
+
+While it isn't relevant for operating the device, a quick description of these
+internal wires may be educational. The lower level device is commanded by
+asserting a {\tt spi\_wr} signal when the device is not busy (i.e. {\tt
+spi\_busy} is low). The actual command given depends upon the other
+signals. {\tt spi\_len} is a two bit value indicating whether this is an
+8 bit (2'b00), 16 bit (2'b01), 24 bit (2'b10), or 32 bit (2'b11) transaction.
+The data to be sent out the port is placed into {\tt spi\_in}.
+
+Further, to support Quad I/O, {\tt spi\_spd} can be set to one to use all four
+bits. In this case, {\tt spi\_dir} must also be set to either 1'b0 for
+writing, or 1'b1 to read from the four bits.
+
+When data is valid from the lower level driver, the {\tt spi\_valid} line
+will go high and {\tt spi\_out} will contain the data with the most recently
+read bits in the lower bits. Further, when the device is idle, {\tt spi\_busy}
+will go low, where it may then read another command.
+
+Sadly, this simple interface as originally designed doesn't work on a
+device where transactions can be longer than 32~bits. To support these
+longer transactions, the lower level driver checks the {\tt spi\_wr} line
+before it finishes any transaction. If the line is high, the lower level
+driver will deassert {\tt spi\_busy} for one cycle while reading the command
+from the controller on the previous cycle. Further, the controller can also
+assert the {\tt spi\_hold} line which will stop the clock to the device
+and force everything to wait for further instructions.
+
+This hold line interface was necessary to deal with a slow wishbone bus that
+was writing to the device, but that didn't have it's next data line ready.
+Thus, by holding the {\tt i\_wb\_cyc} line high, a write could take many
+clocks and the flash would simply wait for it. (I was commanding the device
+via a serial port, so writes could take {\em many} clock cycles for each
+word to come through, i.e. 1,500 clocks or so per word and that's at high
+speed.)
+
+The upper level component, the controller {\tt wbqspiflash}, is little more
+than a glorified state machine that interacts with the wishbone bus.
+From it's idle state, it can handle any command, whether data or control,
+and issue appropriate commands to the lower level driver. From any other
+state, it will stall the bus until it comes back to idle--with a few exceptions.
+Subsequent data reads, while reading data, will keep the device reading.
+Subsequent data writes, while in program mode, will keep filling the devices
+buffer before starting the write. In other respects, the device will just
+stall the bus until it comes back to idle.
+
+While they aren't used in this design, the wishbone error and retry signals
+would've made a lot of sense here. Specifically, it should be an error to
+read from the device while it is in the middle of an erase or program command.
+Instead, this core stalls the bus--trying to do good for everyone. Perhaps
+a later, updated, implementation will make better use of these signals instead
+of stalling. For now, this core just stalls the bus.
+
+Perhaps the best takeaway from this architecture section is that the varying
+pieces of complexity have each been separated from each other. There's a
+lower level driver that handles actually toggling the lines to the port,
+while the higher level driver maintains the state machine controlling which
+commands need to be issued and when.
+
+\chapter{Operation}\label{chap:ops}
+This implementation attempts to encapsulate (hide) the details of the chip
+from the user, so that the user does not need to know about the various
+subcommands going to and from the chip. The original goal was to make the
+chip act like any other read/write memory, however the difference between
+erasing and programming the chip made this impossible. Therefore a separate
+register is given to erase any given sector, while reads and writes may proceed
+(almost) as normal.
+
+The wishbone bus that this controller works with, however, is a 32--bit
+bus. Address one on the bus addresses a completely different 32--bit word
+from address zero or address two. Bus select lines are not implemented,
+all operations are 32--bit. Further, the device is little--endian, meaning
+that the low order byte is the first byte that will be or is stored on the
+flash.
+
+\section{High Level}
+From a high level perspective, this core provides read/write access to the
+device either via the wishbone (read and program), or through a control
+register found on the wishbone (the EREG). Programming the device consists of
+first erasing the region of interest. This will set all the bits to '1' in
+that region. After erasing the region, the region can then be programmed,
+setting some of the '1' bits to '0's. When neither erase nor program
+operation is going on, the device may be read. The section will describe
+each of those operations in detail.
+
+To erase a sector of the device, two writes are required to the EREG register.
+The first write turns off the write protect bit, whereas the second write
+commands the erase itself. The first write should equal \hbox{0x1000\_0000},
+the second should be any address within the sector to be erased together
+with setting the high bit of the register or \hbox{0x8000\_0000} plus the
+address. After this second write, the controller will issue a write--enable
+command to the device, followed by a sector erase command. In summary,
+\begin{enumerate}
+\item Disable write protect by writing \hbox{\tt 0x1000\_0000} to the EREG
+ register
+\item Command the erase by writing \hbox{\tt 0x8000\_0000} plus the device
+ address to the EREG register. (Remember, this is the {\em word
+ address} of interest, not the {\em byte address}.)
+\end{enumerate}
+
+While the device is erasing, the controller will idle while checking the
+status register over and over again. Should you wish to read from the EREG
+during this time, the high order bit of the EREG register will be set.
+Once the erase is complete, this bit will clear, the interrupt line will
+be strobed high, and other operations may take then place on the part. Any
+attempt to perform another operation on the part prior to that time will stall
+the bus until the erase is complete.
+
+Once an area has been erased, it may then be programmed. To program the device,
+first disable the write protect by writing a {\tt 0x1000\_0000} to the EREG
+register. After that, you may then write to the area in question whatever
+values you wish to program. One 256~byte (64~bus word) page may be programmed
+at a time. Pages start on even boundaries, such as addresses {\tt 0x040},
+{\tt 0x080}, {\tt 0x0100}, etc. To program a whole page at a time, write the
+64~words of the page to the controller without dropping the {\tt i\_wb\_cyc}
+line. Attempts to write more than 64~words will stall the bus, as will
+attempts to write more than one page. Writes of less than a page work as well.
+In summary,
+\begin{enumerate}
+\item Disable the write protect by writing a {\tt 0x1000\_0000} to the EREG
+ register.
+\item Write the page of interest to the data memory of the device.
+
+ The first address should start at the beginning of a page (bottom six
+ bits zero), and end at the end of the page (bottom six bits one, top
+ bits identical). Writes of less than a page are okay. Writes crossing
+ page boundaries will stall the device.
+\end{enumerate}
+
+While the device is programming a page, the controller will idle while
+checking the status register as it did during an erase. During this idle,
+both the EREG register and the device status register may be queried. Once
+the status register drops the write in progress line, the top level bit of
+the EREG register will be cleared and the interrupt line strobed. Prior to this
+time, any other bus operation will stall the bus until the write completes.
+
+Reads are simple, you just read from the device and the device does everything
+you expect. Reads may be pipelined. Further, if the device is ever commanded
+to read the configuration register, revealing that the quad SPI mode is
+enabled, then reads will take place four bits at a time from the bus.
+In general, it will take 72 device clocks (at 50~MHz) to read the first word
+from memory, and 32 for every pipelined word read thereafter provided that
+the reads are in memory order. Likewise, in quad SPI mode, it will
+instead take 28 device clocks to read the first word, and 8 device clocks
+to read every word thereafter again provided that the subsequent pipelined
+reads are in memory order.
+
+The Quad SPI device provides for a special mode following a read, where the
+next read may start immediately in Quad I/O mode following a 12~clock
+setup. This controller leaves the device in this mode following any initial
+read. Therefore, back to back reads as part of separate bus cycles will only
+take 20~clocks to read the first word, and 8~clocks per word thereafter.
+Other commands, however, such as erasing, writing, reading from the status,
+configuration, or ID registers, will take require a 32~device clock operation
+before entering.
+
+\section{Low Level}
+
+At a lower level, this core implements the following Quad SPI commands:
+\begin{enumerate}
+\item FAST\_READ, when a read is requested and Quad mode has not been enabled.
+\item QIOR, or quad I/O high performance read mode. This is the default read
+ command when Quad mode has been enabled, and it leaves the device
+ in the Quad I/O High Performance Read mode, ready for a faster second
+ read command.
+\item RDID, or Read identification
+\item WREN, or Write Enable, is issued prior to any erase, program, or
+ write register (i.e. configuration or status) command.
+ This detail is hidden from the user.
+\item RDSR, or read status register, is issued any time the user attempts
+ to read from the status register. Further, following an erase or a
+ write command, the device is left reading this register over and over
+ again until the write completes.
+\item RCR, or read configuration, is issued any time a request is made to
+ read from the configuration register. Following such a read, the
+ quad I/O may be enabled for the device, if it is enabled in this
+ register.
+\item WRR, or write registers, is issued upon any write to the status or
+ configuration registers. To separate the two, the last value read
+ from the status register is written to the status register when
+ writing the configuration register.
+\item PP, or page program, is issued to program the device in serial mode
+ whenever programming is desired and the quad I/O has not been enabled.
+\item QPP, or quad page program, is used to program the device whenever
+ a write is requested and quad I/O mode has been enabled.
+\item SE, or sector erase, is the only type of erase this core supports.
+\item CLSR, or Clear Status Register, is issued any time the last status
+ register had the bits {\tt P\_ERR} or {\tt E\_ERR} set and the
+ write to the status register attempts to clear one of these. This
+ command is then issued following the WRR command.
+\end{enumerate}
+
+\chapter{Registers}\label{chap:regs}
+
+This implementation supports four control registers. These are the EREG
+register, the configuration register, the status register, and the device ID,
+as shown and listed in Table.~\ref{tbl:reglist}.
+\begin{table}[htbp]
+\begin{center}
+\begin{reglist}
+EREG & 0 & 32 & R/W & An overall control register, providing instant status
+ from the device and controlling erase commands.\\\hline
+Config & 1 & 8 & R/W & The devices configuration register.\\\hline
+Status & 2 & 8 & R/W & The devices status register.\\\hline
+ID & 3 & 16 & R & Reads the 16-bit ID from the device.\\\hline
+\end{reglist}
+\caption{List of Registers}\label{tbl:reglist}
+\end{center}\end{table}
+
+\section{EREG Register}
+The EREG register was designed to be a replacement for all of the device
+registers, leaving all the other registers a part of a lower level access
+used only in debugging the device. This would've been the case, save that
+one may need to set bit one of the configuration register to enter high
+speed mode.
+
+The bits associated with this register are listed in Tbl.~\ref{tbl:eregbits}.
+
+\begin{table}[htbp]
+\begin{center}
+\begin{bitlist}
+31 & R/W & Write in Progress/Erase. On a read, this bit will be high if any
+ write or erase operation is in progress, zero otherwise. To erase
+ a sector, set this bit to a one. Otherwise, writes should keep this
+ register at zero.\\\hline
+30 & R & Dirty bit. The sector referenced has been written to since it
+ was erased. This bit is meaningless between startup and the first
+ erase, but valid afterwards.\\\hline
+29 & R & Busy bit. This bit returns a one any time the lower level Quad
+ SPI core is active. However, to read this register, the lower level
+ core must be inactive, so this register should always read zero.
+ \\\hline
+28 & R/W & Disable write protect. Set this to a one to disable the write
+ protect mode, or to a zero to re--enable write protect on this chip.
+ Note that this register is not self--clearing. Therefore, write
+ protection may still be disabled following an erase or a write.
+ Clear this manually when you wish to re--enable write protection.
+ \\\hline
+27 & R & Returns a one if the device is in high speed (4-bit I/O) mode.
+ To set the device into high speed mode, set bit~1 of the configuration
+ register.\\\hline
+20--26 & R & Always return zero.\\\hline
+14--19 & R/W & The sector address bits of the last sector erased. If the
+ erase line bit is set while writing this register, these bits
+ will be set as well with the sector being erased.\\\hline
+0--13 & R & Always return zero.\\\hline
+\end{bitlist}
+\caption{EREG bit definitions}\label{tbl:eregbits}
+\end{center}\end{table}
+
+In general, only three bits and an address are of interest here.
+
+The first bit of interest is bit 27, which will tell you if you are in Quad--I/O
+mode. The device will automatically start up in SPI serial mode. Upon
+reading the configuration register, it will transition to Quad--I/O mode if
+the QUAD bit is set. Likewise, if the bit is written to the configuration
+register it will transition to Quad--I/O mode.
+
+While this may seem kind of strange, I have found this setup useful. It allows
+me to debug commands that might work in serial mode but not quad I/O mode,
+and it allows me to explicitly switch to Quad I/O mode. Further, writes to the
+configuration register are non--volatile and in some cases permanent.
+Therefore, it doesn't make sense that a controller should perform such a write
+without first being told to do so. Therefore, this bit is set upon
+noticing that the QUAD bit is set in the configuration register.
+
+The second bit of interest is the write protect disable bit. Write a '1'
+to this bit before any erase or program operation, and a '0' to this bit
+otherwise. This allows you to make sure that accidental bus writes to the
+wrong address won't reprogram your flash (which they would do otherwise).
+
+The final bit of interest is the write in progress slash erase bit. On read,
+this bit mirrors the WIP bit in the status register. It will be a one during
+any ongoing erase or programming operation, and clear otherwise. Further,
+to erase a sector, disable the write protect and then set this bit to a one
+while simultaneously writing the sector of interest to the device.
+
+The last item of interest in this register is the sector address of interest.
+This was placed in bits 14--19 so that any address within the sector
+would work. Thus, to erase a sector, write the sector address, together with
+an erase bit, to this register.
+
+\section{Config Register}
+
+The Quad Flash device also has a non--volatile configuration register, as
+shown in Tbl.~\ref{tbl:confbits}. Writes to this register are program events,
+which will stall subsequent bus operations until the write in progress bit
+of either the status or EREG registers clears. Note that some bits, once
+written, cannot be cleared such as the BPNV bit.
+
+Writes to this register are not truly independent of the status register,
+as the Write Registers (WRR) command writes the status register before the
+configuration register. Therefore, the core implements this by writing the
+status register with the last value that was read by the core, or zero
+if the status register has yet to be read by the core. Following the
+status register write, the new value for the configuration register is
+written.
+\begin{table}[htbp]\begin{center}
+\begin{bitlist}
+8--31 & R & Always return zero.\\\hline
+6--7 & R & Not used.\\\hline
+5 & R/W & TBPROT. Configures the start of block protection. See device
+ documentation for more information. (Default 0)\\\hline
+4 & R/W & Do not use. (Default 0)\\\hline
+3 & R/W & BPNV, configures BP2--0 bits in the status register. If this bit
+ is set to 1, these bits are volatile, if set to '0' (default) the
+ bits are non--volatile. {\em Note that once this bit has been set,
+ it cannot be cleared!}\\\hline
+2 & R/W & TBPARM. Configures the parameter sector location. See device
+ documentation for more detailed information. (Default 0)\\\hline
+1 & R/W & QUAD. Set to '1' to place the device into Quad I/O (4--bit) mode,
+ '0' to leave in dual or serial I/O mode. (This core does not support
+ dual I/O mode.) (Most programmers will set this to '1'.)\\\hline
+0 & R/W & FREEZE. Set to '1' to lock bits BP2--0 in the status register, zero
+ otherwise. (Default 0).\\\hline
+ \\\hline
+\end{bitlist}
+\caption{Configuration bit definitions}\label{tbl:confbits}
+\end{center}\end{table}
+
+Further information on this register is available in the device data sheet.
+
+\section{Status Register}
+The definitions of the bits in the status register are shown in
+Tbl.~\ref{tbl:statbits}. For operating this core, only the write in progress
+bit is relevant. All other bits should be set to zero.
+
+\begin{table}[htbp]
+\begin{center}
+\begin{bitlist}
+8--31 & R & Always return zero.\\\hline
+7 & R/W & Status register write disable. This setting is irrelevant in the
+ current core configuration, since the W\#/ACC line is always kept
+ high.\\\hline
+6 & R/W & P\_ERR. The device will set this to a one if a programming error
+ has occurred. Writes with either P\_ERR or E\_ERR cleared will
+ clear this bit.\\\hline
+5 & R/W & E\_ERR. The device will set this to a one if an erase error has
+ occurred, zero otherwise. Writes clearing either P\_ERR or E\_ERR
+ will clear this bit.
+ \\\hline
+2--4 & R/W & Block protect bits. This core assumes these bits are zero.
+ See device documentation for other possible settings.\\\hline
+1 & R & Write Enable Latch. This bit is handled internally by the core,
+ being set before any program or erase operation and cleared by
+ the operation itself. Therefore, reads should always read this
+ line as low.\\\hline
+0 & R & Write in Progress. This bit, when one, indicates that an erase or
+ program operation is in progress. It will be cleared upon completion.
+ \\\hline
+\end{bitlist}
+\caption{Status bit definitions}\label{tbl:statbits}
+\end{center}\end{table}
+
+\section{Device ID}
+
+Reading from the Device ID register causes the core controller to issue
+a RDID {\tt 0x9f} command. The bytes returned are first the manufacture
+ID of the part ({\tt 0x01} for this part), followed by the device ID
+({\tt 0x0215} for this part), followed by the number of extended bytes that
+may be read ({\tt 0x4D} for this part). This controller provides no means
+of reading these extended bytes. (See Tab.~\ref{tbl:idbits})
+
+\begin{table}[htbp]\begin{center}
+\begin{bitlist}
+0--31 & R & Always reads {\tt 0x0102154d}.\\\hline
+\end{bitlist}
+\caption{Read ID bit definitions}\label{tbl:idbits}
+\end{center}\end{table}
+
+\chapter{Wishbone Datasheet}\label{chap:wishbone}
+Tbl.~\ref{tbl:wishbone} is required by the wishbone specification, and so
+it is included here.
+\begin{table}[htbp]
+\begin{center}
+\begin{wishboneds}
+Revision level of wishbone & WB B4 spec \\\hline
+Type of interface & Slave, (Block) Read/Write \\\hline
+Port size & 32--bit \\\hline
+Port granulity & 32--bit \\\hline
+Maximum Operand Size & 32--bit \\\hline
+Data transfer ordering & Little Endian \\\hline
+Clock constraints & Must be 100~MHz or slower \\\hline
+Signal Names & \begin{tabular}{ll}
+ Signal Name & Wishbone Equivalent \\\hline
+ {\tt i\_clk\_100mhz} & {\tt CLK\_I} \\
+ {\tt i\_wb\_cyc} & {\tt CYC\_I} \\
+ {\tt i\_wb\_ctrl\_stb} & {\tt STB\_I} \\
+ {\tt i\_wb\_data\_stb} & {\tt STB\_I} \\
+ {\tt i\_wb\_we} & {\tt WE\_I} \\
+ {\tt i\_wb\_data} & {\tt DAT\_I} \\
+ {\tt o\_wb\_ack} & {\tt ACK\_O} \\
+ {\tt o\_wb\_stall} & {\tt STALL\_O} \\
+ {\tt o\_wb\_data} & {\tt DAT\_O}
+ \end{tabular}\\\hline
+\end{wishboneds}
+\caption{Wishbone Datasheet for the Quad SPI Flash controller}\label{tbl:wishbone}
+\end{center}\end{table}
+
+\chapter{Clocks}\label{chap:clocks}
+
+This core is based upon the Basys--3 design. The Basys--3 development board
+contains one external 100~MHz clock. This clock is divided by two to create
+the 50~MHz clock used to drive the device. According to the data sheet,
+it should be possible to run this core at up to 160~MHz, however I have not
+tested it at such speeds. See Table.~\ref{tbl:clocks}.
+\begin{table}[htbp]
+\begin{center}
+\begin{clocklist}
+i\_clk\_100mhz & External & 160 & & System clock.\\\hline
+\end{clocklist}
+\caption{List of Clocks}\label{tbl:clocks}
+\end{center}\end{table}
+
+\chapter{I/O Ports}\label{chap:ioports}
+There are two interfaces that this device supports: a wishbone interface, and
+the interface to the Quad--SPI flash itself. Both of these have their own
+section in the I/O port list. For the purpose of this table, the wishbone
+interface is listed in Tbl.~\ref{tbl:iowishbone}, and the Quad SPI flash
+interface is listed in Tbl.~\ref{tbl:ioqspi}. The two lines that don't really
+fit this classification are found in Tbl.~\ref{tbl:ioother}.
+\begin{table}[htbp]
+\begin{center}
+\begin{portlist}
+i\_wb\_cyc & 1 & Input & Wishbone bus cycle wire.\\\hline
+i\_wb\_data\_stb & 1 & Input & Wishbone strobe, when the access is to the data
+ memory.\\\hline
+i\_wb\_ctrl\_stb & 1 & Input & Wishbone strobe, for when the access is to
+ one of control registers.\\\hline
+i\_wb\_we & 1 & Input & Wishbone write enable, indicating a write interaction
+ to the bus.\\\hline
+i\_wb\_addr & 19 & Input & Wishbone address. When accessing control registers,
+ only the bottom two bits are relevant all other bits are
+ ignored.\\\hline
+i\_wb\_data & 32 & Input & Wishbone bus data register.\\\hline
+o\_wb\_ack & 1 & Output & Return value acknowledging a wishbone write, or
+ signifying valid data in the case of a wishbone read request.
+ \\\hline
+o\_wb\_stall & 1 & Output & Indicates the device is not yet ready for another
+ wishbone access, effectively stalling the bus.\\\hline
+o\_wb\_data & 32 & Output & Wishbone data bus, returning data values read
+ from the interface.\\\hline
+\end{portlist}
+\caption{Wishbone I/O Ports}\label{tbl:iowishbone}
+\end{center}\end{table}
+
+While this core is wishbone compatible, there was one necessary change to
+the wishbone interface to make this possible. That was the split of the
+strobe line into two separate lines. The first strobe line, the data strobe,
+is used when the access is to data memory--such as a read or write (program)
+access. The second strobe line, the control strobe, is for reads and writes
+to one of the four control registers. By splitting these strobe lines,
+the wishbone interconnect designer may place the control registers in a
+separate location of wishbone address space from the flash memory. It is
+an error for both strobe lines to be on at the same time.
+
+With respect to the Quad SPI interface itself, one piece of glue logic
+is necessary to tie the Quad SPI flash I/O to the in/out port at the top
+level of the device. Specifically, these two lines must be added somewhere:
+\begin{tabbing}
+assign {\tt io\_qspi\_dat} = \= (\~{\tt qspi\_mod[1]})?(\{2'b11,1'bz,{\tt qspi\_dat[0]}\}) \hbox{\em // Serial mode} \\
+ \> :(({\tt qspi\_bmod[0]})?(4'bzzzz):({\tt qspi\_dat[3:0]}));
+ \hbox{\em // Quad mode}
+\end{tabbing}
+These provide the transition between the input and output ports used by this
+core, and the bi--directional inout ports used by the actual part. Further,
+because the two additional lines are defined to be ones during serial I/O
+mode, the hold and write protect lines are effectively eliminated in this
+design in favor of faster speed I/O (i.e., Quad I/O).
+
+\begin{table}[htbp]
+\begin{center}
+\begin{portlist}
+o\_qspi\_sck & 1 & Output & Serial clock output to the device. This pin
+ will be either inactive, or it will toggle at 50~MHz.\\\hline
+o\_qpsi\_cs\_n & 1 & Output & Chip enable, active low. This will be
+ set low at the beginning of any interaction with the chip,
+ and will be held low throughout the interaction.\\\hline
+o\_qspi\_mod & 2 & Output & Two mode lines for the top level to control
+ how the output data lines interact with the device. See the text
+ for how to use these lines.\\\hline
+o\_qspi\_dat & 4 & Output & Four output lines, the least of which is the
+ old SPI MOSI line. When selected by the o\_qspi\_mod, this output
+ becomes the command for all 4 QSPI I/O lines.\\\hline
+i\_qspi\_dat & 4 & Input & The four input lines from the device, of which
+ line one, {\tt i\_qspi\_dat[1]}, is the old MISO line.\\\hline
+\end{portlist}
+\caption{List of Quad--SPI Flash I/O ports}\label{tbl:ioqspi}
+\end{center}\end{table}
+
+Finally, the clock line is not specific to the wishbone bus, and the interrupt
+line is not specific to any of the above. These have been separated out here.
+\begin{table}[htbp]
+\begin{center}
+\begin{portlist}
+i\_clk\_100mhz & 1 & Input & The 100~MHz clock driving all interactions.\\\hline
+o\_interrupt & 1 & Output & An strobed interrupt line indicating the end of
+ any erase or write transaction. This line will be high for exactly
+ one clock cycle, indicating that the core is again available for
+ commanding.\\\hline
+\end{portlist}
+\caption{Other I/O Ports}\label{tbl:ioother}
+\end{center}\end{table}
+% Appendices
+% Index
+\end{document}
+
+
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