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Implement data storage interrupts

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This adds a path from loadstore1 back to execute1 for reporting
errors, and machinery in execute1 for generating data storage
interrupts at vector 0x300.

If dcache is given two requests in successive cycles and the
first encounters an error (e.g. a TLB miss), it will now cancel
the second request.

Loadstore1 now responds to errors reported by dcache by sending
an exception signal to execute1 and returning to the idle state.
Execute1 then writes SRR0 and SRR1 and jumps to the 0x300 Data
Storage Interrupt vector.  DAR and DSISR are held in loadstore1.

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
jtag-port
Paul Mackerras 5 years ago
parent 750b3a8e28
commit 42d0fcc511
5 changed files with 81 additions and 22 deletions
Show Stats Download Patch File Download Diff File

4
common.vhdl
Unescape Escape View File

@ -238,6 +238,10 @@ package common is
reserve => '0', rc => '0', virt_mode => '0',
spr_num => 0, others => (others => '0'));

type Loadstore1ToExecute1Type is record
exception : std_ulogic;
end record;

type Loadstore1ToDcacheType is record
valid : std_ulogic;
load : std_ulogic; -- is this a load

3
core.vhdl
Unescape Escape View File

@ -63,6 +63,7 @@ architecture behave of core is

-- load store signals
signal execute1_to_loadstore1: Execute1ToLoadstore1Type;
signal loadstore1_to_execute1: Loadstore1ToExecute1Type;
signal loadstore1_to_writeback: Loadstore1ToWritebackType;

-- dcache signals
@ -251,6 +252,7 @@ begin
stall_out => ex1_stall_out,
e_in => decode2_to_execute1,
i_in => xics_in,
l_in => loadstore1_to_execute1,
l_out => execute1_to_loadstore1,
f_out => execute1_to_fetch1,
e_out => execute1_to_writeback,
@ -264,6 +266,7 @@ begin
clk => clk,
rst => core_rst,
l_in => execute1_to_loadstore1,
e_out => loadstore1_to_execute1,
l_out => loadstore1_to_writeback,
d_out => loadstore1_to_dcache,
d_in => dcache_to_loadstore1,

15
dcache.vhdl
Unescape Escape View File

@ -147,6 +147,7 @@ architecture rtl of dcache is
attribute ram_style of dtlb_ptes : signal is "distributed";

signal r0 : Loadstore1ToDcacheType;
signal r0_valid : std_ulogic;

-- Type of operation on a "valid" input
type op_t is (OP_NONE,
@ -406,6 +407,10 @@ begin
end if;
end process;

-- Hold off the request in r0 when stalling,
-- and cancel it if we get an error in a previous request.
r0_valid <= r0.valid and not stall_out and not r1.error_done;

-- TLB
-- Operates in the second cycle on the request latched in r0.
-- TLB updates write the entry at the end of the second cycle.
@ -478,7 +483,7 @@ begin
hit := '1';
end if;
end loop;
tlb_hit <= hit and r0.valid;
tlb_hit <= hit and r0_valid;
tlb_hit_way <= hitway;
pte <= read_tlb_pte(hitway, tlb_pte_way);
valid_ra <= tlb_hit or not r0.virt_mode;
@ -503,7 +508,7 @@ begin
tlbie := '0';
tlbia := '0';
tlbwe := '0';
if r0.valid = '1' and stall_out = '0' and r0.tlbie = '1' then
if r0_valid = '1' and r0.tlbie = '1' then
if r0.addr(11 downto 10) /= "00" then
tlbia := '1';
elsif r0.addr(9) = '1' then
@ -596,7 +601,7 @@ begin
req_tag <= get_tag(ra);

-- Only do anything if not being stalled by stage 1
go := r0.valid and not stall_out and not r0.tlbie;
go := r0_valid and not r0.tlbie;

-- Calculate address of beginning of cache line, will be
-- used for cache miss processing if needed
@ -697,7 +702,7 @@ begin
cancel_store <= '0';
set_rsrv <= '0';
clear_rsrv <= '0';
if stall_out = '0' and r0.valid = '1' and r0.reserve = '1' then
if r0_valid = '1' and r0.reserve = '1' then
-- XXX generate alignment interrupt if address is not aligned
-- XXX or if r0.nc = '1'
if r0.load = '1' then
@ -920,7 +925,7 @@ begin
end if;

-- complete tlbies in the third cycle
r1.tlbie_done <= r0.valid and r0.tlbie and not stall_out;
r1.tlbie_done <= r0_valid and r0.tlbie;
end if;
end process;


20
execute1.vhdl
Unescape Escape View File

@ -23,6 +23,7 @@ entity execute1 is
stall_out : out std_ulogic;

e_in : in Decode2ToExecute1Type;
l_in : in Loadstore1ToExecute1Type;

i_in : in XicsToExecute1Type;

@ -51,6 +52,7 @@ architecture behaviour of execute1 is
slow_op_rc : std_ulogic;
slow_op_oe : std_ulogic;
slow_op_xerc : xer_common_t;
ldst_nia : std_ulogic_vector(63 downto 0);
end record;
constant reg_type_init : reg_type :=
(e => Execute1ToWritebackInit, lr_update => '0',
@ -446,9 +448,9 @@ begin
v.e.exc_write_reg := fast_spr_num(SPR_SRR0);
v.e.exc_write_data := e_in.nia;

if ctrl.irq_state = WRITE_SRR1 then
v.e.exc_write_reg := fast_spr_num(SPR_SRR1);
v.e.exc_write_data := ctrl.srr1;
if ctrl.irq_state = WRITE_SRR1 then
v.e.exc_write_reg := fast_spr_num(SPR_SRR1);
v.e.exc_write_data := ctrl.srr1;
v.e.exc_write_enable := '1';
ctrl_tmp.msr(MSR_SF) <= '1';
ctrl_tmp.msr(MSR_EE) <= '0';
@ -899,6 +901,7 @@ begin

elsif e_in.valid = '1' then
-- instruction for other units, i.e. LDST
v.ldst_nia := e_in.nia;
v.e.valid := '0';
if e_in.unit = LDST then
lv.valid := '1';
@ -969,6 +972,17 @@ begin
v.e.write_data := result;
v.e.write_enable := result_en;

-- generate DSI for load/store exceptions
if l_in.exception = '1' then
ctrl_tmp.irq_nia <= std_logic_vector(to_unsigned(16#300#, 64));
ctrl_tmp.srr1 <= msr_copy(ctrl.msr);
v.e.exc_write_enable := '1';
v.e.exc_write_reg := fast_spr_num(SPR_SRR0);
v.e.exc_write_data := r.ldst_nia;
ctrl_tmp.irq_state <= WRITE_SRR1;
v.e.valid := '1'; -- complete the original load or store
end if;

-- Outputs to loadstore1 (async)
lv.op := e_in.insn_type;
lv.addr1 := a_in;

61
loadstore1.vhdl
Unescape Escape View File

@ -16,6 +16,7 @@ entity loadstore1 is
rst : in std_ulogic;

l_in : in Execute1ToLoadstore1Type;
e_out : out Loadstore1ToExecute1Type;
l_out : out Loadstore1ToWritebackType;

d_out : out Loadstore1ToDcacheType;
@ -142,6 +143,9 @@ begin
variable mfspr : std_ulogic;
variable sprn : std_ulogic_vector(9 downto 0);
variable sprval : std_ulogic_vector(63 downto 0);
variable exception : std_ulogic;
variable next_addr : std_ulogic_vector(63 downto 0);
variable dsisr : std_ulogic_vector(31 downto 0);
begin
v := r;
req := '0';
@ -151,6 +155,8 @@ begin
addr := lsu_sum;
mfspr := '0';
sprval := (others => '0'); -- avoid inferred latches
exception := '0';
dsisr := (others => '0');

write_enable := '0';
do_update := '0';
@ -204,6 +210,9 @@ begin
end case;
end loop;

-- compute (addr + 8) & ~7 for the second doubleword when unaligned
next_addr := std_ulogic_vector(unsigned(r.addr(63 downto 3)) + 1) & "000";

case r.state is
when IDLE =>
if l_in.valid = '1' then
@ -301,8 +310,7 @@ begin
end if;

when SECOND_REQ =>
-- compute (addr + 8) & ~7 for the second doubleword when unaligned
addr := std_ulogic_vector(unsigned(r.addr(63 downto 3)) + 1) & "000";
addr := next_addr;
byte_sel := r.second_bytes;
req := '1';
stall := '1';
@ -311,25 +319,43 @@ begin
when FIRST_ACK_WAIT =>
stall := '1';
if d_in.valid = '1' then
v.state := LAST_ACK_WAIT;
if r.load = '1' then
v.load_data := data_permuted;
if d_in.error = '1' then
-- dcache will discard the second request
exception := '1';
dsisr(30) := d_in.tlb_miss;
v.state := IDLE;
else
v.state := LAST_ACK_WAIT;
if r.load = '1' then
v.load_data := data_permuted;
end if;
end if;
end if;

when LAST_ACK_WAIT =>
stall := '1';
if d_in.valid = '1' then
write_enable := r.load;
if r.load = '1' and r.update = '1' then
-- loads with rA update need an extra cycle
v.state := LD_UPDATE;
else
-- stores write back rA update in this cycle
do_update := r.update;
stall := '0';
done := '1';
if d_in.error = '1' then
if two_dwords = '1' then
addr := next_addr;
else
addr := r.addr;
end if;
exception := '1';
dsisr(30) := d_in.tlb_miss;
v.state := IDLE;
else
write_enable := r.load;
if r.load = '1' and r.update = '1' then
-- loads with rA update need an extra cycle
v.state := LD_UPDATE;
else
-- stores write back rA update in this cycle
do_update := r.update;
stall := '0';
done := '1';
v.state := IDLE;
end if;
end if;
end if;

@ -372,6 +398,13 @@ begin
l_out.rc <= r.rc and done;
l_out.store_done <= d_in.store_done;

-- update exception info back to execute1
e_out.exception <= exception;
if exception = '1' then
v.dar := addr;
v.dsisr := dsisr;
end if;

stall_out <= stall;

-- Update registers

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