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microwatt/execute1.vhdl

466 lines
13 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.decode_types.all;
use work.common.all;
use work.helpers.all;
use work.crhelpers.all;
use work.insn_helpers.all;
use work.ppc_fx_insns.all;
entity execute1 is
port (
clk : in std_logic;
-- asynchronous
flush_out : out std_ulogic;
e_in : in Decode2ToExecute1Type;
-- asynchronous
f_out : out Execute1ToFetch1Type;
e_out : out Execute1ToWritebackType;
icache_inval : out std_ulogic;
terminate_out : out std_ulogic
);
end entity execute1;
architecture behaviour of execute1 is
type reg_type is record
e : Execute1ToWritebackType;
end record;
signal r, rin : reg_type;
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
signal ctrl: ctrl_t := (others => (others => '0'));
signal ctrl_tmp: ctrl_t := (others => (others => '0'));
signal right_shift, rot_clear_left, rot_clear_right: std_ulogic;
signal rotator_result: std_ulogic_vector(63 downto 0);
signal rotator_carry: std_ulogic;
signal logical_result: std_ulogic_vector(63 downto 0);
signal countzero_result: std_ulogic_vector(63 downto 0);
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
procedure set_carry(e: inout Execute1ToWritebackType;
carry32 : in std_ulogic;
carry : in std_ulogic) is
begin
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
e.xerc.ca32 := carry32;
e.xerc.ca := carry;
e.write_xerc_enable := '1';
end;
procedure set_ov(e: inout Execute1ToWritebackType;
ov : in std_ulogic;
ov32 : in std_ulogic) is
begin
e.xerc.ov32 := ov32;
e.xerc.ov := ov;
if ov = '1' then
e.xerc.so := '1';
end if;
e.write_xerc_enable := '1';
end;
function calc_ov(msb_a : std_ulogic; msb_b: std_ulogic;
ca: std_ulogic; msb_r: std_ulogic) return std_ulogic is
begin
return (ca xor msb_r) and not (msb_a xor msb_b);
end;
function decode_input_carry(ic : carry_in_t;
xerc : xer_common_t) return std_ulogic is
begin
case ic is
when ZERO =>
return '0';
when CA =>
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
return xerc.ca;
when ONE =>
return '1';
end case;
end;
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
begin
rotator_0: entity work.rotator
port map (
rs => e_in.read_data3,
ra => e_in.read_data1,
shift => e_in.read_data2(6 downto 0),
insn => e_in.insn,
is_32bit => e_in.is_32bit,
right_shift => right_shift,
arith => e_in.is_signed,
clear_left => rot_clear_left,
clear_right => rot_clear_right,
result => rotator_result,
carry_out => rotator_carry
);
logical_0: entity work.logical
port map (
rs => e_in.read_data3,
rb => e_in.read_data2,
op => e_in.insn_type,
invert_in => e_in.invert_a,
invert_out => e_in.invert_out,
result => logical_result
);
countzero_0: entity work.zero_counter
port map (
rs => e_in.read_data3,
count_right => e_in.insn(10),
is_32bit => e_in.is_32bit,
result => countzero_result
);
execute1_0: process(clk)
begin
if rising_edge(clk) then
r <= rin;
ctrl <= ctrl_tmp;
end if;
end process;
execute1_1: process(all)
variable v : reg_type;
variable a_inv : std_ulogic_vector(63 downto 0);
variable result : std_ulogic_vector(63 downto 0);
variable newcrf : std_ulogic_vector(3 downto 0);
variable result_with_carry : std_ulogic_vector(64 downto 0);
variable result_en : std_ulogic;
variable crnum : crnum_t;
variable crbit : integer range 0 to 31;
variable scrnum : crnum_t;
variable lo, hi : integer;
variable sh, mb, me : std_ulogic_vector(5 downto 0);
variable sh32, mb32, me32 : std_ulogic_vector(4 downto 0);
variable bo, bi : std_ulogic_vector(4 downto 0);
variable bf, bfa : std_ulogic_vector(2 downto 0);
variable l : std_ulogic;
variable next_nia : std_ulogic_vector(63 downto 0);
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
variable carry_32, carry_64 : std_ulogic;
begin
result := (others => '0');
result_with_carry := (others => '0');
result_en := '0';
newcrf := (others => '0');
v := r;
v.e := Execute1ToWritebackInit;
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- XER forwarding. To avoid having to track XER hazards, we
-- use the previously latched value.
--
-- If the XER was modified by a multiply or a divide, those are
-- single issue, we'll get the up to date value from decode2 from
-- the register file.
--
-- If it was modified by an instruction older than the previous
-- one in EX1, it will have also hit writeback and will be up
-- to date in decode2.
--
-- That leaves us with the case where it was updated by the previous
-- instruction in EX1. In that case, we can forward it back here.
--
-- This will break if we allow pipelining of multiply and divide,
-- but ideally, those should go via EX1 anyway and run as a state
-- machine from here.
--
-- One additional hazard to beware of is an XER:SO modifying instruction
-- in EX1 followed immediately by a store conditional. Due to our
-- writeback latency, the store will go down the LSU with the previous
-- XER value, thus the stcx. will set CR0:SO using an obsolete SO value.
--
-- We will need to handle that if we ever make stcx. not single issue
--
-- We always pass a valid XER value downto writeback even when
-- we aren't updating it, in order for XER:SO -> CR0:SO transfer
-- to work for RC instructions.
--
if r.e.write_xerc_enable = '1' then
v.e.xerc := r.e.xerc;
else
v.e.xerc := e_in.xerc;
end if;
ctrl_tmp <= ctrl;
-- FIXME: run at 512MHz not core freq
ctrl_tmp.tb <= std_ulogic_vector(unsigned(ctrl.tb) + 1);
terminate_out <= '0';
icache_inval <= '0';
f_out <= Execute1ToFetch1TypeInit;
-- Next insn adder used in a couple of places
next_nia := std_ulogic_vector(unsigned(e_in.nia) + 4);
-- rotator control signals
right_shift <= '1' when e_in.insn_type = OP_SHR else '0';
rot_clear_left <= '1' when e_in.insn_type = OP_RLC or e_in.insn_type = OP_RLCL else '0';
rot_clear_right <= '1' when e_in.insn_type = OP_RLC or e_in.insn_type = OP_RLCR else '0';
if e_in.valid = '1' then
v.e.valid := '1';
v.e.write_reg := e_in.write_reg;
v.e.write_len := x"8";
v.e.sign_extend := '0';
case_0: case e_in.insn_type is
when OP_ILLEGAL =>
terminate_out <= '1';
report "illegal";
when OP_NOP =>
-- Do nothing
when OP_ADD =>
if e_in.invert_a = '0' then
a_inv := e_in.read_data1;
else
a_inv := not e_in.read_data1;
end if;
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
result_with_carry := ppc_adde(a_inv, e_in.read_data2,
decode_input_carry(e_in.input_carry, v.e.xerc));
result := result_with_carry(63 downto 0);
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
carry_32 := result(32) xor a_inv(32) xor e_in.read_data2(32);
carry_64 := result_with_carry(64);
if e_in.output_carry = '1' then
set_carry(v.e, carry_32, carry_64);
end if;
if e_in.oe = '1' then
set_ov(v.e,
calc_ov(a_inv(63), e_in.read_data2(63), carry_64, result_with_carry(63)),
calc_ov(a_inv(31), e_in.read_data2(31), carry_32, result_with_carry(31)));
end if;
result_en := '1';
when OP_AND | OP_OR | OP_XOR =>
result := logical_result;
result_en := '1';
when OP_B =>
f_out.redirect <= '1';
if (insn_aa(e_in.insn)) then
f_out.redirect_nia <= std_ulogic_vector(signed(e_in.read_data2));
else
f_out.redirect_nia <= std_ulogic_vector(signed(e_in.nia) + signed(e_in.read_data2));
end if;
when OP_BC =>
bo := insn_bo(e_in.insn);
bi := insn_bi(e_in.insn);
if bo(4-2) = '0' then
ctrl_tmp.ctr <= std_ulogic_vector(unsigned(ctrl.ctr) - 1);
end if;
if ppc_bc_taken(bo, bi, e_in.cr, ctrl.ctr) = 1 then
f_out.redirect <= '1';
if (insn_aa(e_in.insn)) then
f_out.redirect_nia <= std_ulogic_vector(signed(e_in.read_data2));
else
f_out.redirect_nia <= std_ulogic_vector(signed(e_in.nia) + signed(e_in.read_data2));
end if;
end if;
when OP_BCREG =>
-- bits 10 and 6 distinguish between bclr, bcctr and bctar
bo := insn_bo(e_in.insn);
bi := insn_bi(e_in.insn);
if bo(4-2) = '0' and e_in.insn(10) = '0' then
ctrl_tmp.ctr <= std_ulogic_vector(unsigned(ctrl.ctr) - 1);
end if;
if ppc_bc_taken(bo, bi, e_in.cr, ctrl.ctr) = 1 then
f_out.redirect <= '1';
if e_in.insn(10) = '0' then
f_out.redirect_nia <= ctrl.lr(63 downto 2) & "00";
else
f_out.redirect_nia <= ctrl.ctr(63 downto 2) & "00";
end if;
end if;
when OP_CMPB =>
result := ppc_cmpb(e_in.read_data3, e_in.read_data2);
result_en := '1';
when OP_CMP =>
bf := insn_bf(e_in.insn);
l := insn_l(e_in.insn);
v.e.write_cr_enable := '1';
crnum := to_integer(unsigned(bf));
v.e.write_cr_mask := num_to_fxm(crnum);
for i in 0 to 7 loop
lo := i*4;
hi := lo + 3;
v.e.write_cr_data(hi downto lo) := ppc_cmp(l, e_in.read_data1, e_in.read_data2, v.e.xerc.so);
end loop;
when OP_CMPL =>
bf := insn_bf(e_in.insn);
l := insn_l(e_in.insn);
v.e.write_cr_enable := '1';
crnum := to_integer(unsigned(bf));
v.e.write_cr_mask := num_to_fxm(crnum);
for i in 0 to 7 loop
lo := i*4;
hi := lo + 3;
v.e.write_cr_data(hi downto lo) := ppc_cmpl(l, e_in.read_data1, e_in.read_data2, v.e.xerc.so);
end loop;
when OP_CNTZ =>
result := countzero_result;
result_en := '1';
when OP_EXTS =>
v.e.write_len := e_in.data_len;
v.e.sign_extend := '1';
result := e_in.read_data3;
result_en := '1';
when OP_ISEL =>
crbit := to_integer(unsigned(insn_bc(e_in.insn)));
if e_in.cr(31-crbit) = '1' then
result := e_in.read_data1;
else
result := e_in.read_data2;
end if;
result_en := '1';
when OP_MCRF =>
bf := insn_bf(e_in.insn);
bfa := insn_bfa(e_in.insn);
v.e.write_cr_enable := '1';
crnum := to_integer(unsigned(bf));
scrnum := to_integer(unsigned(bfa));
v.e.write_cr_mask := num_to_fxm(crnum);
for i in 0 to 7 loop
lo := (7-i)*4;
hi := lo + 3;
if i = scrnum then
newcrf := e_in.cr(hi downto lo);
end if;
end loop;
for i in 0 to 7 loop
lo := i*4;
hi := lo + 3;
v.e.write_cr_data(hi downto lo) := newcrf;
end loop;
when OP_MFSPR =>
case decode_spr_num(e_in.insn) is
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
when SPR_XER =>
result := ( 63-32 => v.e.xerc.so,
63-33 => v.e.xerc.ov,
63-34 => v.e.xerc.ca,
63-44 => v.e.xerc.ov32,
63-45 => v.e.xerc.ca32,
others => '0');
when SPR_CTR =>
result := ctrl.ctr;
when SPR_LR =>
result := ctrl.lr;
when SPR_TB =>
result := ctrl.tb;
when others =>
result := (others => '0');
end case;
result_en := '1';
when OP_MFCR =>
if e_in.insn(20) = '0' then
-- mfcr
result := x"00000000" & e_in.cr;
else
-- mfocrf
crnum := fxm_to_num(insn_fxm(e_in.insn));
result := (others => '0');
for i in 0 to 7 loop
lo := (7-i)*4;
hi := lo + 3;
if crnum = i then
result(hi downto lo) := e_in.cr(hi downto lo);
end if;
end loop;
end if;
result_en := '1';
when OP_MTCRF =>
v.e.write_cr_enable := '1';
if e_in.insn(20) = '0' then
-- mtcrf
v.e.write_cr_mask := insn_fxm(e_in.insn);
else
-- mtocrf: We require one hot priority encoding here
crnum := fxm_to_num(insn_fxm(e_in.insn));
v.e.write_cr_mask := num_to_fxm(crnum);
end if;
v.e.write_cr_data := e_in.read_data3(31 downto 0);
when OP_MTSPR =>
case decode_spr_num(e_in.insn) is
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
when SPR_XER =>
v.e.xerc.so := e_in.read_data3(63-32);
v.e.xerc.ov := e_in.read_data3(63-33);
v.e.xerc.ca := e_in.read_data3(63-34);
v.e.xerc.ov32 := e_in.read_data3(63-44);
v.e.xerc.ca32 := e_in.read_data3(63-45);
v.e.write_xerc_enable := '1';
when SPR_CTR =>
ctrl_tmp.ctr <= e_in.read_data3;
when SPR_LR =>
ctrl_tmp.lr <= e_in.read_data3;
when others =>
end case;
when OP_POPCNTB =>
result := ppc_popcntb(e_in.read_data3);
result_en := '1';
when OP_POPCNTW =>
result := ppc_popcntw(e_in.read_data3);
result_en := '1';
when OP_POPCNTD =>
result := ppc_popcntd(e_in.read_data3);
result_en := '1';
when OP_PRTYD =>
result := ppc_prtyd(e_in.read_data3);
result_en := '1';
when OP_PRTYW =>
result := ppc_prtyw(e_in.read_data3);
result_en := '1';
when OP_RLC | OP_RLCL | OP_RLCR | OP_SHL | OP_SHR =>
result := rotator_result;
if e_in.output_carry = '1' then
Add basic XER support The carry is currently internal to execute1. We don't handle any of the other XER fields. This creates type called "xer_common_t" that contains the commonly used XER bits (CA, CA32, SO, OV, OV32). The value is stored in the CR file (though it could be a separate module). The rest of the bits will be implemented as a separate SPR and the two parts reconciled in mfspr/mtspr in latter commits. We always read XER in decode2 (there is little point not to) and send it down all pipeline branches as it will be needed in writeback for all type of instructions when CR0:SO needs to be updated (such forms exist for all pipeline branches even if we don't yet implement them). To avoid having to track XER hazards, we forward it back in EX1. This assumes that other pipeline branches that can modify it (mult and div) are running single issue for now. One additional hazard to beware of is an XER:SO modifying instruction in EX1 followed immediately by a store conditional. Due to our writeback latency, the store will go down the LSU with the previous XER value, thus the stcx. will set CR0:SO using an obsolete SO value. I doubt there exist any code relying on this behaviour being correct but we should account for it regardless, possibly by ensuring that stcx. remain single issue initially, or later by adding some minimal tracking or moving the LSU into the same pipeline as execute. Missing some obscure XER affecting instructions like addex or mcrxrx. [paulus@ozlabs.org - fix CA32 and OV32 for OP_ADD, fix order of arguments to set_ov] Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
set_carry(v.e, rotator_carry, rotator_carry);
end if;
result_en := '1';
when OP_SIM_CONFIG =>
-- bit 0 was used to select the microwatt console, which
-- we no longer support.
result := x"0000000000000000";
result_en := '1';
when OP_TDI =>
-- Keep our test cases happy for now, ignore trap instructions
report "OP_TDI FIXME";
when OP_ISYNC =>
f_out.redirect <= '1';
f_out.redirect_nia <= next_nia;
when OP_ICBI =>
icache_inval <= '1';
when others =>
terminate_out <= '1';
report "illegal";
end case;
if e_in.lr = '1' then
ctrl_tmp.lr <= next_nia;
end if;
end if;
v.e.write_data := result;
v.e.write_enable := result_en;
v.e.rc := e_in.rc;
-- Update registers
rin <= v;
-- update outputs
--f_out <= r.f;
e_out <= r.e;
flush_out <= f_out.redirect;
end process;
end architecture behaviour;