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yosys/tests/i2c_bench/i2c_slave_model.v

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/////////////////////////////////////////////////////////////////////
//// ////
//// WISHBONE rev.B2 compliant synthesizable I2C Slave model ////
//// ////
//// ////
//// Authors: Richard Herveille (richard@asics.ws) www.asics.ws ////
//// John Sheahan (jrsheahan@optushome.com.au) ////
//// ////
//// Downloaded from: http://www.opencores.org/projects/i2c/ ////
//// ////
/////////////////////////////////////////////////////////////////////
//// ////
//// Copyright (C) 2001,2002 Richard Herveille ////
//// richard@asics.ws ////
//// ////
//// This source file may be used and distributed without ////
//// restriction provided that this copyright statement is not ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer.////
//// ////
//// THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY ////
//// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ////
//// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS ////
//// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR ////
//// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, ////
//// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ////
//// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE ////
//// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR ////
//// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF ////
//// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ////
//// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT ////
//// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE ////
//// POSSIBILITY OF SUCH DAMAGE. ////
//// ////
/////////////////////////////////////////////////////////////////////
// CVS Log
//
// $Id: i2c_slave_model.v,v 1.7 2006-09-04 09:08:51 rherveille Exp $
//
// $Date: 2006-09-04 09:08:51 $
// $Revision: 1.7 $
// $Author: rherveille $
// $Locker: $
// $State: Exp $
//
// Change History:
// $Log: not supported by cvs2svn $
// Revision 1.6 2005/02/28 11:33:48 rherveille
// Fixed Tsu:sta timing check.
// Added Thd:sta timing check.
//
// Revision 1.5 2003/12/05 11:05:19 rherveille
// Fixed slave address MSB='1' bug
//
// Revision 1.4 2003/09/11 08:25:37 rherveille
// Fixed a bug in the timing section. Changed 'tst_scl' into 'tst_sto'.
//
// Revision 1.3 2002/10/30 18:11:06 rherveille
// Added timing tests to i2c_model.
// Updated testbench.
//
// Revision 1.2 2002/03/17 10:26:38 rherveille
// Fixed some race conditions in the i2c-slave model.
// Added debug information.
// Added headers.
//
`include "timescale.v"
module i2c_slave_model (scl, sda);
//
// parameters
//
parameter I2C_ADR = 7'b001_0000;
//
// input && outpus
//
input scl;
inout sda;
//
// Variable declaration
//
wire debug = 1'b1;
reg [7:0] mem [3:0]; // initiate memory
reg [7:0] mem_adr; // memory address
reg [7:0] mem_do; // memory data output
reg sta, d_sta;
reg sto, d_sto;
reg [7:0] sr; // 8bit shift register
reg rw; // read/write direction
wire my_adr; // my address called ??
wire i2c_reset; // i2c-statemachine reset
reg [2:0] bit_cnt; // 3bit downcounter
wire acc_done; // 8bits transfered
reg ld; // load downcounter
reg sda_o; // sda-drive level
wire sda_dly; // delayed version of sda
// statemachine declaration
parameter idle = 3'b000;
parameter slave_ack = 3'b001;
parameter get_mem_adr = 3'b010;
parameter gma_ack = 3'b011;
parameter data = 3'b100;
parameter data_ack = 3'b101;
reg [2:0] state; // synopsys enum_state
//
// module body
//
initial
begin
sda_o = 1'b1;
state = idle;
mem[0] = 0;
mem[1] = 0;
mem[2] = 0;
mem[3] = 0;
end
// generate shift register
always @(posedge scl)
sr <= #1 {sr[6:0],sda};
//detect my_address
assign my_adr = (sr[7:1] == I2C_ADR);
// FIXME: This should not be a generic assign, but rather
// qualified on address transfer phase and probably reset by stop
//generate bit-counter
always @(posedge scl)
if(ld)
bit_cnt <= #1 3'b111;
else
bit_cnt <= #1 bit_cnt - 3'h1;
//generate access done signal
assign acc_done = !(|bit_cnt);
// generate delayed version of sda
// this model assumes a hold time for sda after the falling edge of scl.
// According to the Phillips i2c spec, there s/b a 0 ns hold time for sda
// with regards to scl. If the data changes coincident with the clock, the
// acknowledge is missed
// Fix by Michael Sosnoski
assign #1 sda_dly = sda;
//detect start condition
always @(negedge sda)
if(scl)
begin
sta <= #1 1'b1;
d_sta <= #1 1'b0;
sto <= #1 1'b0;
if(debug)
$display("DEBUG i2c_slave; start condition detected at %t", $time);
end
else
sta <= #1 1'b0;
always @(posedge scl)
d_sta <= #1 sta;
// detect stop condition
always @(posedge sda)
if(scl)
begin
sta <= #1 1'b0;
sto <= #1 1'b1;
if(debug)
$display("DEBUG i2c_slave; stop condition detected at %t", $time);
end
else
sto <= #1 1'b0;
//generate i2c_reset signal
assign i2c_reset = sta || sto;
// generate statemachine
always @(negedge scl or posedge sto)
if (sto || (sta && !d_sta) )
begin
state <= #1 idle; // reset statemachine
sda_o <= #1 1'b1;
ld <= #1 1'b1;
end
else
begin
// initial settings
sda_o <= #1 1'b1;
ld <= #1 1'b0;
case(state) // synopsys full_case parallel_case
idle: // idle state
if (acc_done && my_adr)
begin
state <= #1 slave_ack;
rw <= #1 sr[0];
sda_o <= #1 1'b0; // generate i2c_ack
#2;
if(debug && rw)
$display("DEBUG i2c_slave; command byte received (read) at %t", $time);
if(debug && !rw)
$display("DEBUG i2c_slave; command byte received (write) at %t", $time);
if(rw)
begin
mem_do <= #1 mem[mem_adr % 4];
if(debug)
begin
#2 $display("DEBUG i2c_slave; data block read %x from address %x (1)", mem_do, mem_adr);
#2 $display("DEBUG i2c_slave; memcheck [0]=%x, [1]=%x, [2]=%x", mem[4'h0], mem[4'h1], mem[4'h2]);
end
end
end
slave_ack:
begin
if(rw)
begin
state <= #1 data;
sda_o <= #1 mem_do[7];
end
else
state <= #1 get_mem_adr;
ld <= #1 1'b1;
end
get_mem_adr: // wait for memory address
if(acc_done)
begin
state <= #1 gma_ack;
mem_adr <= #1 sr; // store memory address
sda_o <= #1 !(sr <= 15); // generate i2c_ack, for valid address
if(debug)
#1 $display("DEBUG i2c_slave; address received. adr=%x, ack=%b", sr, sda_o);
end
gma_ack:
begin
state <= #1 data;
ld <= #1 1'b1;
end
data: // receive or drive data
begin
if(rw)
sda_o <= #1 mem_do[7];
if(acc_done)
begin
state <= #1 data_ack;
mem_adr <= #2 mem_adr + 8'h1;
sda_o <= #1 (rw && (mem_adr <= 15) ); // send ack on write, receive ack on read
if(rw)
begin
#3 mem_do <= mem[mem_adr % 4];
if(debug)
#5 $display("DEBUG i2c_slave; data block read %x from address %x (2)", mem_do, mem_adr);
end
if(!rw)
begin
mem[ mem_adr[3:0] ] <= #1 sr; // store data in memory
if(debug)
#2 $display("DEBUG i2c_slave; data block write %x to address %x", sr, mem_adr);
end
end
end
data_ack:
begin
ld <= #1 1'b1;
if(rw)
if(sr[0]) // read operation && master send NACK
begin
state <= #1 idle;
sda_o <= #1 1'b1;
end
else
begin
state <= #1 data;
sda_o <= #1 mem_do[7];
end
else
begin
state <= #1 data;
sda_o <= #1 1'b1;
end
end
endcase
end
// read data from memory
always @(posedge scl)
if(!acc_done && rw)
mem_do <= #1 {mem_do[6:0], 1'b1}; // insert 1'b1 for host ack generation
// generate tri-states
assign sda = sda_o ? 1'bz : 1'b0;
//
// Timing checks
//
wire tst_sto = sto;
wire tst_sta = sta;
specify
specparam normal_scl_low = 4700,
normal_scl_high = 4000,
normal_tsu_sta = 4700,
normal_thd_sta = 4000,
normal_tsu_sto = 4000,
normal_tbuf = 4700,
fast_scl_low = 1300,
fast_scl_high = 600,
fast_tsu_sta = 1300,
fast_thd_sta = 600,
fast_tsu_sto = 600,
fast_tbuf = 1300;
$width(negedge scl, normal_scl_low); // scl low time
$width(posedge scl, normal_scl_high); // scl high time
$setup(posedge scl, negedge sda &&& scl, normal_tsu_sta); // setup start
$setup(negedge sda &&& scl, negedge scl, normal_thd_sta); // hold start
$setup(posedge scl, posedge sda &&& scl, normal_tsu_sto); // setup stop
$setup(posedge tst_sta, posedge tst_sto, normal_tbuf); // stop to start time
endspecify
endmodule
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