@ -235,7 +235,7 @@ architecture rtl of icache is
end;
end;
-- Return the cache row index (data memory) for an address
-- Return the cache row index (data memory) for an address
function get_row(addr: std_ulogic_vector) return row_t is
function get_row(addr: std_ulogic_vector(63 downto 0)) return row_t is
begin
begin
return to_integer(unsigned(addr(SET_SIZE_BITS - 1 downto ROW_OFF_BITS)));
return to_integer(unsigned(addr(SET_SIZE_BITS - 1 downto ROW_OFF_BITS)));
end;
end;
@ -249,9 +249,9 @@ architecture rtl of icache is
end;
end;
-- Returns whether this is the last row of a line
-- Returns whether this is the last row of a line
function is_last_row_addr(addr: wishbone_addr_type; last: row_in_line_t) return boolean is
function is_last_row_wb_addr(wb_addr: wishbone_addr_type; last: row_in_line_t) return boolean is
begin
begin
return unsigned(addr(LINE_OFF_BITS - ROW_OFF_BITS - 1 downto 0)) = last;
return unsigned(wb_addr(LINE_OFF_BITS - ROW_OFF_BITS - 1 downto 0)) = last;
end;
end;
-- Returns whether this is the last row of a line
-- Returns whether this is the last row of a line
@ -261,15 +261,15 @@ architecture rtl of icache is
end;
end;
-- Return the address of the next row in the current cache line
-- Return the address of the next row in the current cache line
function next_row_addr(addr: wishbone_addr_type)
function next_row_wb_addr(wb_addr: wishbone_addr_type)
return std_ulogic_vector is
return std_ulogic_vector is
variable row_idx : std_ulogic_vector(ROW_LINEBITS-1 downto 0);
variable row_idx : std_ulogic_vector(ROW_LINEBITS-1 downto 0);
variable result : wishbone_addr_type;
variable result : wishbone_addr_type;
begin
begin
-- Is there no simpler way in VHDL to generate that 3 bits adder ?
-- Is there no simpler way in VHDL to generate that 3 bits adder ?
row_idx := addr(ROW_LINEBITS - 1 downto 0);
row_idx := wb_addr(ROW_LINEBITS - 1 downto 0);
row_idx := std_ulogic_vector(unsigned(row_idx) + 1);
row_idx := std_ulogic_vector(unsigned(row_idx) + 1);
result := addr;
result := wb_addr;
result(ROW_LINEBITS - 1 downto 0) := row_idx;
result(ROW_LINEBITS - 1 downto 0) := row_idx;
return result;
return result;
end;
end;
@ -299,10 +299,9 @@ architecture rtl of icache is
end;
end;
-- Get the tag value from the address
-- Get the tag value from the address
function get_tag(addr: std_ulogic_vector(REAL_ADDR_BITS - 1 downto 0);
function get_tag(addr: real_addr_t; endian: std_ulogic) return cache_tag_t is
endian: std_ulogic) return cache_tag_t is
begin
begin
return endian & addr(REAL_ADDR_BITS - 1 downto SET_SIZE_BITS);
return endian & addr(addr'left downto SET_SIZE_BITS);
end;
end;
-- Read a tag from a tag memory row
-- Read a tag from a tag memory row
@ -655,8 +654,7 @@ begin
-- Detect snooped writes and decode address into index and tag
-- Detect snooped writes and decode address into index and tag
-- Since we never write, any write should be snooped
-- Since we never write, any write should be snooped
snoop_valid <= wb_snoop_in.cyc and wb_snoop_in.stb and wb_snoop_in.we;
snoop_valid <= wb_snoop_in.cyc and wb_snoop_in.stb and wb_snoop_in.we;
snoop_addr := (others => '0');
snoop_addr := addr_to_real(wb_to_addr(wb_snoop_in.adr));
snoop_addr(wb_snoop_in.adr'left + ROW_OFF_BITS downto ROW_OFF_BITS) := wb_snoop_in.adr;
snoop_index <= get_index(snoop_addr);
snoop_index <= get_index(snoop_addr);
snoop_cache_tags := cache_tags(get_index(snoop_addr));
snoop_cache_tags := cache_tags(get_index(snoop_addr));
snoop_tag := get_tag(snoop_addr, '0');
snoop_tag := get_tag(snoop_addr, '0');
@ -715,7 +713,7 @@ begin
-- Prep for first wishbone read. We calculate the address of
-- Prep for first wishbone read. We calculate the address of
-- the start of the cache line and start the WB cycle.
-- the start of the cache line and start the WB cycle.
--
--
r.wb.adr <= req_laddr(r.wb.adr'left + ROW_OFF_BITS downto ROW_OFF_BITS);
r.wb.adr <= addr_to_wb(req_laddr);
r.wb.cyc <= '1';
r.wb.cyc <= '1';
r.wb.stb <= '1';
r.wb.stb <= '1';
@ -747,12 +745,12 @@ begin
if wishbone_in.stall = '0' and r.wb.stb = '1' then
if wishbone_in.stall = '0' and r.wb.stb = '1' then
-- That was the last word ? We are done sending. Clear stb.
-- That was the last word ? We are done sending. Clear stb.
--
--
if is_last_row_addr(r.wb.adr, r.end_row_ix) then
if is_last_row_wb_addr(r.wb.adr, r.end_row_ix) then
r.wb.stb <= '0';
r.wb.stb <= '0';
end if;
end if;
-- Calculate the next row address
-- Calculate the next row address
r.wb.adr <= next_row_addr(r.wb.adr);
r.wb.adr <= next_row_wb_addr(r.wb.adr);
end if;
end if;
-- Abort reload if we get an invalidation
-- Abort reload if we get an invalidation
@ -783,7 +781,7 @@ begin
when STOP_RELOAD =>
when STOP_RELOAD =>
-- Wait for all outstanding requests to be satisfied, then
-- Wait for all outstanding requests to be satisfied, then
-- go to IDLE state.
-- go to IDLE state.
if get_row_of_line(r.store_row) = get_row_of_line(get_row(r.wb.adr)) then
if get_row_of_line(r.store_row) = get_row_of_line(get_row(wb_to_addr(r.wb.adr))) then
r.wb.cyc <= '0';
r.wb.cyc <= '0';
r.state <= IDLE;
r.state <= IDLE;
end if;
end if;