bslathi19/PeakRDL-regblock
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

fix: handle error response for overlapped registers with read-only and write-only attributes (#178)

Browse Source
This commit is contained in:
Sebastien Baillou
2025-11-16 00:43:45 +01:00
committed by Alex Mykyta
parent e1d7b3aa38
commit efbddccc54
4 changed files with 115 additions and 124 deletions
Download Patch File Download Diff File Expand all files Collapse all files

22
src/peakrdl_regblock/addr_decode.py
View File

@@ -141,23 +141,26 @@ class DecodeLogicGenerator(RDLForLoopGenerator):
readable = node.is_sw_readable
writable = node.is_sw_writable
if readable and writable:
rhs_invalid_rw = "'0"
pass
elif readable and not writable:
rhs = f"{addr_decoding_str} & !cpuif_req_is_wr"
rhs_invalid_rw = f"{addr_decoding_str} & cpuif_req_is_wr"
elif not readable and writable:
rhs = f"{addr_decoding_str} & cpuif_req_is_wr"
rhs_invalid_rw = f"{addr_decoding_str} & !cpuif_req_is_wr"
else:
raise RuntimeError
# Add decoding flags
self.add_content(f"{self.addr_decode.get_external_block_access_strobe(node)} = {rhs};")
self.add_content(f"is_external |= {rhs};")
if self.addr_decode.exp.ds.err_if_bad_addr:
# Also assign is_valid_adddr when err_if_bad_rw is set so that it can be used to catch
# invalid RW accesses on existing registers only.
if self.addr_decode.exp.ds.err_if_bad_addr or self.addr_decode.exp.ds.err_if_bad_rw:
self.add_content(f"is_valid_addr |= {rhs_valid_addr};")
if isinstance(node, MemNode):
if self.addr_decode.exp.ds.err_if_bad_rw:
self.add_content(f"is_invalid_rw |= {rhs_invalid_rw};")
self.add_content(f"is_valid_rw |= {rhs};")
else:
# For external register blocks, all accesses are valid RW
self.add_content(f"is_valid_rw |= {rhs_valid_addr};")
def enter_AddressableComponent(self, node: 'AddressableNode') -> Optional[WalkerAction]:
@@ -206,13 +209,10 @@ class DecodeLogicGenerator(RDLForLoopGenerator):
writable = node.has_sw_writable
if readable and writable:
rhs = addr_decoding_str
rhs_invalid_rw = "'0"
elif readable and not writable:
rhs = f"{addr_decoding_str} & !cpuif_req_is_wr"
rhs_invalid_rw = f"{addr_decoding_str} & cpuif_req_is_wr"
elif not readable and writable:
rhs = f"{addr_decoding_str} & cpuif_req_is_wr"
rhs_invalid_rw = f"{addr_decoding_str} & !cpuif_req_is_wr"
else:
raise RuntimeError
# Add decoding flags
@@ -222,10 +222,12 @@ class DecodeLogicGenerator(RDLForLoopGenerator):
self.add_content(f"{self.addr_decode.get_access_strobe(node)}[{subword_index}] = {rhs};")
if node.external:
self.add_content(f"is_external |= {rhs};")
if self.addr_decode.exp.ds.err_if_bad_addr:
# Also assign is_valid_adddr when err_if_bad_rw is set so that it can be used to catch
# invalid RW accesses on existing registers only.
if self.addr_decode.exp.ds.err_if_bad_addr or self.addr_decode.exp.ds.err_if_bad_rw:
self.add_content(f"is_valid_addr |= {rhs_valid_addr};")
if self.addr_decode.exp.ds.err_if_bad_rw:
self.add_content(f"is_invalid_rw |= {rhs_invalid_rw};")
self.add_content(f"is_valid_rw |= {rhs};")
def enter_Reg(self, node: RegNode) -> None:
regwidth = node.get_property('regwidth')

22
src/peakrdl_regblock/module_tmpl.sv
View File

@@ -121,19 +121,31 @@ module {{ds.module_name}}
always_comb begin
automatic logic is_valid_addr;
automatic logic is_invalid_rw;
automatic logic is_valid_rw;
{%- if ds.has_external_addressable %}
automatic logic is_external;
is_external = '0;
{%- endif %}
{%- if ds.err_if_bad_addr %}
{%- if ds.err_if_bad_addr or ds.err_if_bad_rw %}
is_valid_addr = '0;
{%- else %}
is_valid_addr = '1; // No error checking on valid address access
is_valid_addr = '1; // No valid address check
{%- endif %}
{%- if ds.err_if_bad_rw %}
is_valid_rw = '0;
{%- else %}
is_valid_rw = '1; // No valid RW check
{%- endif %}
is_invalid_rw = '0;
{{address_decode.get_implementation()|indent(8)}}
decoded_err = (~is_valid_addr | is_invalid_rw) & decoded_req;
{%- if ds.err_if_bad_addr and ds.err_if_bad_rw %}
decoded_err = (~is_valid_addr | (is_valid_addr & ~is_valid_rw)) & decoded_req;
{%- elif ds.err_if_bad_addr %}
decoded_err = ~is_valid_addr & decoded_req;
{%- elif ds.err_if_bad_rw %}
decoded_err = (is_valid_addr & ~is_valid_rw) & decoded_req;
{%- else %}
decoded_err = '0;
{%- endif %}
{%- if ds.has_external_addressable %}
decoded_strb_is_external = is_external;
external_req = is_external;

59
tests/test_cpuif_err_rsp/regblock.rdl
View File

@@ -3,6 +3,7 @@ addrmap top {
default sw=rw;
default hw=na;
// Internal registers
reg {
field {
sw=rw; hw=na; // Storage element
@@ -13,32 +14,27 @@ addrmap top {
field {
sw=r; hw=na; // Wire/Bus - constant value
} f[31:0] = 80;
} r_r;
} r_ro;
reg {
field {
sw=w; hw=r; // Storage element
} f[31:0] = 100;
} r_w;
} r_wo;
external reg {
field {
sw=rw; hw=na; // Storage element
} f[31:0];
} er_rw;
external reg {
field {
sw=r; hw=na; // Wire/Bus - constant value
} f[31:0];
} er_r;
external reg {
field {
sw=w; hw=na; // Storage element
} f[31:0];
} er_w;
// Combined read-only and write-only register
reg {
default sw = w;
default hw = r;
field {} wvalue[32] = 0;
} writeonly @ 0x1C;
reg {
default sw = r;
default hw = na;
field {} rvalue[32] = 200;
} readonly @ 0x1C;
// External memories
external mem {
memwidth = 32;
mementries = 2;
@@ -48,12 +44,33 @@ addrmap top {
memwidth = 32;
mementries = 2;
sw=r;
} mem_r @ 0x28;
} mem_ro @ 0x28;
external mem {
memwidth = 32;
mementries = 2;
sw=w;
} mem_w @ 0x30;
} mem_wo @ 0x30;
// External block
external regfile {
// Placeholder registers
reg {
field {
sw=rw; hw=na;
} f[31:0] = 40;
} r_rw;
reg {
field {
sw=r; hw=na;
} f[31:0] = 80;
} r_ro;
reg {
field {
sw=w; hw=r;
} f[31:0] = 100;
} r_wo;
} external_rf @ 0x40;
};

136
tests/test_cpuif_err_rsp/tb_template.sv
View File

@@ -3,45 +3,6 @@
{%- block dut_support %}
{% sv_line_anchor %}
external_reg ext_reg_inst (
.clk(clk),
.rst(rst),
.req(hwif_out.er_rw.req),
.req_is_wr(hwif_out.er_rw.req_is_wr),
.wr_data(hwif_out.er_rw.wr_data),
.wr_biten(hwif_out.er_rw.wr_biten),
.rd_ack(hwif_in.er_rw.rd_ack),
.rd_data(hwif_in.er_rw.rd_data),
.wr_ack(hwif_in.er_rw.wr_ack)
);
external_reg ro_reg_inst (
.clk(clk),
.rst(rst),
.req(hwif_out.er_r.req),
.req_is_wr(hwif_out.er_r.req_is_wr),
.wr_data(32'b0),
.wr_biten(32'b0),
.rd_ack(hwif_in.er_r.rd_ack),
.rd_data(hwif_in.er_r.rd_data),
.wr_ack()
);
external_reg wo_reg_inst (
.clk(clk),
.rst(rst),
.req(hwif_out.er_w.req),
.req_is_wr(hwif_out.er_w.req_is_wr),
.wr_data(hwif_out.er_w.wr_data),
.wr_biten(hwif_out.er_w.wr_biten),
.rd_ack(),
.rd_data(),
.wr_ack(hwif_in.er_w.wr_ack)
);
external_block #(
.ADDR_WIDTH(3)
) mem_rw_inst (
@@ -64,14 +25,14 @@
.clk(clk),
.rst(rst),
.req(hwif_out.mem_r.req),
.req_is_wr(hwif_out.mem_r.req_is_wr),
.addr(hwif_out.mem_r.addr),
.req(hwif_out.mem_ro.req),
.req_is_wr(hwif_out.mem_ro.req_is_wr),
.addr(hwif_out.mem_ro.addr),
.wr_data(32'b0),
.wr_biten(32'b0),
.rd_ack(hwif_in.mem_r.rd_ack),
.rd_data(hwif_in.mem_r.rd_data),
.wr_ack(hwif_in.mem_r.wr_ack)
.rd_ack(hwif_in.mem_ro.rd_ack),
.rd_data(hwif_in.mem_ro.rd_data),
.wr_ack(hwif_in.mem_ro.wr_ack)
);
external_block #(
@@ -80,17 +41,33 @@
.clk(clk),
.rst(rst),
.req(hwif_out.mem_w.req),
.req_is_wr(hwif_out.mem_w.req_is_wr),
.addr(hwif_out.mem_w.addr),
.wr_data(hwif_out.mem_w.wr_data),
.wr_biten(hwif_out.mem_w.wr_biten),
.req(hwif_out.mem_wo.req),
.req_is_wr(hwif_out.mem_wo.req_is_wr),
.addr(hwif_out.mem_wo.addr),
.wr_data(hwif_out.mem_wo.wr_data),
.wr_biten(hwif_out.mem_wo.wr_biten),
.rd_ack(),
.rd_data(),
.wr_ack(hwif_in.mem_w.wr_ack)
.wr_ack(hwif_in.mem_wo.wr_ack)
);
assign hwif_in.mem_wo.rd_ack = '0;
assign hwif_in.mem_wo.rd_data = '0;
external_block #(
.ADDR_WIDTH(4)
) external_rf_inst (
.clk(clk),
.rst(rst),
.req(hwif_out.external_rf.req),
.req_is_wr(hwif_out.external_rf.req_is_wr),
.addr(hwif_out.external_rf.addr),
.wr_data(hwif_out.external_rf.wr_data),
.wr_biten(hwif_out.external_rf.wr_biten),
.rd_ack(hwif_in.external_rf.rd_ack),
.rd_data(hwif_in.external_rf.rd_data),
.wr_ack(hwif_in.external_rf.wr_ack)
);
assign hwif_in.mem_w.rd_ack = '0;
assign hwif_in.mem_w.rd_data = '0;
{%- endblock %}
@@ -102,7 +79,7 @@ logic expected_rd_err;
logic bad_addr_expected_err;
logic bad_rw_expected_wr_err;
logic bad_rw_expected_rd_err;
logic [5:0] addr;
logic [7:0] addr;
{% sv_line_anchor %}
##1;
@@ -139,53 +116,29 @@ logic [5:0] addr;
cpuif.write(addr, 81, .expects_err(expected_wr_err));
cpuif.assert_read(addr, 80, .expects_err(expected_rd_err));
// r_w - sw=w; hw=r; // Storage element
// r_wo - sw=w; hw=r; // Storage element
addr = 'h8;
expected_rd_err = bad_rw_expected_rd_err;
expected_wr_err = 'h0;
cpuif.assert_read(addr, 0, .expects_err(expected_rd_err));
assert(cb.hwif_out.r_w.f.value == 100);
assert(cb.hwif_out.r_wo.f.value == 100);
cpuif.write(addr, 101, .expects_err(expected_wr_err));
cpuif.assert_read(addr, 0, .expects_err(expected_rd_err));
assert(cb.hwif_out.r_w.f.value == 101);
// External registers
// er_rw - sw=rw; hw=na; // Storage element
addr = 'hC;
expected_rd_err = 'h0;
expected_wr_err = 'h0;
ext_reg_inst.value = 'h8C;
cpuif.assert_read(addr, 'h8C, .expects_err(expected_rd_err));
cpuif.write(addr, 'h8D, .expects_err(expected_wr_err));
cpuif.assert_read(addr, 'h8D, .expects_err(expected_rd_err));
// er_r - sw=r; hw=na; // Wire/Bus - constant value
addr = 'h10;
expected_rd_err = 'h0;
expected_wr_err = bad_rw_expected_wr_err;
ro_reg_inst.value = 'hB4;
cpuif.assert_read(addr, 'hB4, .expects_err(expected_rd_err));
cpuif.write(addr, 'hB5, .expects_err(expected_wr_err));
cpuif.assert_read(addr, 'hB4, .expects_err(expected_rd_err));
// er_w - sw=w; hw=r; // Storage element
addr = 'h14;
expected_rd_err = bad_rw_expected_rd_err;
expected_wr_err = 'h0;
wo_reg_inst.value = 'hC8;
cpuif.assert_read(addr, 0, .expects_err(expected_rd_err));
assert(wo_reg_inst.value == 'hC8);
cpuif.write(addr, 'hC9, .expects_err(expected_wr_err));
cpuif.assert_read(addr, 0, .expects_err(expected_rd_err));
assert(wo_reg_inst.value == 'hC9);
assert(cb.hwif_out.r_wo.f.value == 101);
// Reading/writing from/to non existing register
addr = 'h18;
cpuif.assert_read(addr, 0, .expects_err(bad_addr_expected_err));
cpuif.write(addr, 'h8C, .expects_err(bad_addr_expected_err));
// Reading/writing from/to combined read AND write only register
addr = 'h1C;
expected_rd_err = 'h0;
expected_wr_err = 'h0;
cpuif.assert_read(addr, 200, .expects_err(expected_rd_err));
cpuif.write(addr, 'h8C, .expects_err(expected_wr_err));
// External memories
// mem_rw - sw=rw;
addr = 'h20;
@@ -218,4 +171,11 @@ logic [5:0] addr;
cpuif.assert_read(addr, 0, .expects_err(expected_rd_err));
assert(mem_wo_inst.mem[0] == 'hC9);
// External rf;
addr = 'h40;
expected_rd_err = 'h0;
expected_wr_err = 'h0;
cpuif.assert_read(addr, 'h0, .expects_err(expected_rd_err));
cpuif.write(addr, 'hD0, .expects_err(expected_wr_err));
cpuif.assert_read(addr, 'hD0, .expects_err(expected_rd_err));
{% endblock %}