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microwatt/core_debug.vhdl

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Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
use work.utils.all;
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
use work.common.all;
entity core_debug is
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
generic (
-- Length of log buffer
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
LOG_LENGTH : natural := 512
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
);
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
port (
clk : in std_logic;
rst : in std_logic;
dmi_addr : in std_ulogic_vector(3 downto 0);
dmi_din : in std_ulogic_vector(63 downto 0);
dmi_dout : out std_ulogic_vector(63 downto 0);
dmi_req : in std_ulogic;
dmi_wr : in std_ulogic;
dmi_ack : out std_ulogic;
-- Debug actions
core_stop : out std_ulogic;
core_rst : out std_ulogic;
icache_rst : out std_ulogic;
-- Core status inputs
terminate : in std_ulogic;
core_stopped : in std_ulogic;
nia : in std_ulogic_vector(63 downto 0);
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
msr : in std_ulogic_vector(63 downto 0);
-- GSPR register read port
dbg_gpr_req : out std_ulogic;
dbg_gpr_ack : in std_ulogic;
dbg_gpr_addr : out gspr_index_t;
dbg_gpr_data : in std_ulogic_vector(63 downto 0);
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- Core logging data
log_data : in std_ulogic_vector(255 downto 0);
log_read_addr : in std_ulogic_vector(31 downto 0);
log_read_data : out std_ulogic_vector(63 downto 0);
log_write_addr : out std_ulogic_vector(31 downto 0);
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
-- Misc
terminated_out : out std_ulogic
);
end core_debug;
architecture behave of core_debug is
-- DMI needs fixing... make a one clock pulse
signal dmi_req_1: std_ulogic;
-- CTRL register (direct actions, write 1 to act, read back 0)
-- bit 0 : Core stop
-- bit 1 : Core reset (doesn't clear stop)
-- bit 2 : Icache reset
-- bit 3 : Single step
-- bit 4 : Core start
constant DBG_CORE_CTRL : std_ulogic_vector(3 downto 0) := "0000";
constant DBG_CORE_CTRL_STOP : integer := 0;
constant DBG_CORE_CTRL_RESET : integer := 1;
constant DBG_CORE_CTRL_ICRESET : integer := 2;
constant DBG_CORE_CTRL_STEP : integer := 3;
constant DBG_CORE_CTRL_START : integer := 4;
-- STAT register (read only)
-- bit 0 : Core stopping (wait til bit 1 set)
-- bit 1 : Core stopped
-- bit 2 : Core terminated (clears with start or reset)
constant DBG_CORE_STAT : std_ulogic_vector(3 downto 0) := "0001";
constant DBG_CORE_STAT_STOPPING : integer := 0;
constant DBG_CORE_STAT_STOPPED : integer := 1;
constant DBG_CORE_STAT_TERM : integer := 2;
-- NIA register (read only for now)
constant DBG_CORE_NIA : std_ulogic_vector(3 downto 0) := "0010";
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- MSR (read only)
constant DBG_CORE_MSR : std_ulogic_vector(3 downto 0) := "0011";
-- GSPR register index
constant DBG_CORE_GSPR_INDEX : std_ulogic_vector(3 downto 0) := "0100";
-- GSPR register data
constant DBG_CORE_GSPR_DATA : std_ulogic_vector(3 downto 0) := "0101";
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- Log buffer address and data registers
constant DBG_CORE_LOG_ADDR : std_ulogic_vector(3 downto 0) := "0110";
constant DBG_CORE_LOG_DATA : std_ulogic_vector(3 downto 0) := "0111";
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
constant LOG_INDEX_BITS : natural := log2(LOG_LENGTH);
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
-- Some internal wires
signal stat_reg : std_ulogic_vector(63 downto 0);
-- Some internal latches
signal stopping : std_ulogic;
signal do_step : std_ulogic;
signal do_reset : std_ulogic;
signal do_icreset : std_ulogic;
signal terminated : std_ulogic;
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
signal do_gspr_rd : std_ulogic;
signal gspr_index : gspr_index_t;
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
signal log_dmi_addr : std_ulogic_vector(31 downto 0) := (others => '0');
signal log_dmi_data : std_ulogic_vector(63 downto 0) := (others => '0');
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
signal do_dmi_log_rd : std_ulogic;
signal dmi_read_log_data : std_ulogic;
signal dmi_read_log_data_1 : std_ulogic;
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
begin
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
-- Single cycle register accesses on DMI except for GSPR data
dmi_ack <= dmi_req when dmi_addr /= DBG_CORE_GSPR_DATA
else dbg_gpr_ack;
dbg_gpr_req <= dmi_req when dmi_addr = DBG_CORE_GSPR_DATA
else '0';
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
-- Status register read composition
stat_reg <= (2 => terminated,
1 => core_stopped,
0 => stopping,
others => '0');
-- DMI read data mux
with dmi_addr select dmi_dout <=
stat_reg when DBG_CORE_STAT,
nia when DBG_CORE_NIA,
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
msr when DBG_CORE_MSR,
dbg_gpr_data when DBG_CORE_GSPR_DATA,
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
log_write_addr & log_dmi_addr when DBG_CORE_LOG_ADDR,
log_dmi_data when DBG_CORE_LOG_DATA,
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
(others => '0') when others;
-- DMI writes
reg_write: process(clk)
begin
if rising_edge(clk) then
fetch/icache: Fit icache in BRAM The goal is to have the icache fit in BRAM by latching the output into a register. In order to avoid timing issues , we need to give the BRAM a full cycle on reads, and thus we souce the BRAM address directly from fetch1 latched NIA. (Note: This will be problematic if/when we want to hash the address, we'll probably be better off having fetch1 latch a fully hashed address along with the normal one, so the icache can use the former to address the BRAM and pass the latter along) One difficulty is that we cannot really stall the icache without adding more combo logic that would break the "one full cycle" BRAM model. This means that on stalls from decode, by the time we stall fetch1, it has already gone to the next address, which the icache is already latching. We work around this by having a "stash" buffer in fetch2 that will stash away the icache output on a stall, and override the output of the icache with the content of the stash buffer when unstalling. This requires a rewrite of the stop/step debug logic as well. We now do most of the hard work in fetch1 which makes more sense. Note: Vivado is still not inferring an built-in output register for the BRAMs. I don't want to add another cycle... I don't fully understand why it wouldn't be able to treat current_row as such but clearly it won't. At least the timing seems good enough now for 100Mhz, possibly more. Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org>
5 years ago
-- Reset the 1-cycle "do" signals
do_step <= '0';
do_reset <= '0';
do_icreset <= '0';
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
do_dmi_log_rd <= '0';
fetch/icache: Fit icache in BRAM The goal is to have the icache fit in BRAM by latching the output into a register. In order to avoid timing issues , we need to give the BRAM a full cycle on reads, and thus we souce the BRAM address directly from fetch1 latched NIA. (Note: This will be problematic if/when we want to hash the address, we'll probably be better off having fetch1 latch a fully hashed address along with the normal one, so the icache can use the former to address the BRAM and pass the latter along) One difficulty is that we cannot really stall the icache without adding more combo logic that would break the "one full cycle" BRAM model. This means that on stalls from decode, by the time we stall fetch1, it has already gone to the next address, which the icache is already latching. We work around this by having a "stash" buffer in fetch2 that will stash away the icache output on a stall, and override the output of the icache with the content of the stash buffer when unstalling. This requires a rewrite of the stop/step debug logic as well. We now do most of the hard work in fetch1 which makes more sense. Note: Vivado is still not inferring an built-in output register for the BRAMs. I don't want to add another cycle... I don't fully understand why it wouldn't be able to treat current_row as such but clearly it won't. At least the timing seems good enough now for 100Mhz, possibly more. Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org>
5 years ago
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
if (rst) then
stopping <= '0';
terminated <= '0';
else
-- Edge detect on dmi_req for 1-shot pulses
dmi_req_1 <= dmi_req;
if dmi_req = '1' and dmi_req_1 = '0' then
if dmi_wr = '1' then
report("DMI write to " & to_hstring(dmi_addr));
-- Control register actions
if dmi_addr = DBG_CORE_CTRL then
if dmi_din(DBG_CORE_CTRL_RESET) = '1' then
do_reset <= '1';
terminated <= '0';
end if;
if dmi_din(DBG_CORE_CTRL_STOP) = '1' then
stopping <= '1';
end if;
if dmi_din(DBG_CORE_CTRL_STEP) = '1' then
do_step <= '1';
terminated <= '0';
end if;
if dmi_din(DBG_CORE_CTRL_ICRESET) = '1' then
do_icreset <= '1';
end if;
if dmi_din(DBG_CORE_CTRL_START) = '1' then
stopping <= '0';
terminated <= '0';
end if;
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
elsif dmi_addr = DBG_CORE_GSPR_INDEX then
gspr_index <= dmi_din(gspr_index_t'left downto 0);
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
elsif dmi_addr = DBG_CORE_LOG_ADDR then
log_dmi_addr <= dmi_din(31 downto 0);
do_dmi_log_rd <= '1';
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
end if;
else
report("DMI read from " & to_string(dmi_addr));
end if;
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
elsif dmi_read_log_data = '0' and dmi_read_log_data_1 = '1' then
-- Increment log_dmi_addr after the end of a read from DBG_CORE_LOG_DATA
log_dmi_addr(LOG_INDEX_BITS + 1 downto 0) <=
std_ulogic_vector(unsigned(log_dmi_addr(LOG_INDEX_BITS+1 downto 0)) + 1);
do_dmi_log_rd <= '1';
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
end if;
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
dmi_read_log_data_1 <= dmi_read_log_data;
if dmi_req = '1' and dmi_addr = DBG_CORE_LOG_DATA then
dmi_read_log_data <= '1';
else
dmi_read_log_data <= '0';
end if;
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
-- Set core stop on terminate. We'll be stopping some time *after*
-- the offending instruction, at least until we can do back flushes
-- that preserve NIA which we can't just yet.
if terminate = '1' then
stopping <= '1';
terminated <= '1';
end if;
end if;
end if;
end process;
debug: Provide a way to examine GPRs, fast SPRs and MSR This provides commands on the debug interface to read the value of the MSR or any of the 64 GSPR register file entries. The GSPR values are read using the B port of the register file in a cycle when decode2 is not using it. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
dbg_gpr_addr <= gspr_index;
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
-- Core control signals generated by the debug module
core_stop <= stopping and not do_step;
core_rst <= do_reset;
icache_rst <= do_icreset;
terminated_out <= terminated;
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
-- Logging RAM
maybe_log: if LOG_LENGTH > 0 generate
subtype log_ptr_t is unsigned(LOG_INDEX_BITS - 1 downto 0);
type log_array_t is array(0 to LOG_LENGTH - 1) of std_ulogic_vector(255 downto 0);
signal log_array : log_array_t;
signal log_rd_ptr : log_ptr_t;
signal log_wr_ptr : log_ptr_t;
signal log_toggle : std_ulogic;
signal log_wr_enable : std_ulogic;
signal log_rd_ptr_latched : log_ptr_t;
signal log_rd : std_ulogic_vector(255 downto 0);
signal log_dmi_reading : std_ulogic;
signal log_dmi_read_done : std_ulogic;
function select_dword(data : std_ulogic_vector(255 downto 0);
addr : std_ulogic_vector(31 downto 0)) return std_ulogic_vector is
variable firstbit : integer;
begin
firstbit := to_integer(unsigned(addr(1 downto 0))) * 64;
return data(firstbit + 63 downto firstbit);
end;
attribute ram_style : string;
attribute ram_style of log_array : signal is "block";
attribute ram_decomp : string;
attribute ram_decomp of log_array : signal is "power";
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
begin
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
-- Use MSB of read addresses to stop the logging
log_wr_enable <= not (log_read_addr(31) or log_dmi_addr(31));
log_ram: process(clk)
begin
if rising_edge(clk) then
if log_wr_enable = '1' then
log_array(to_integer(log_wr_ptr)) <= log_data;
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
end if;
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
log_rd <= log_array(to_integer(log_rd_ptr_latched));
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
end if;
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
end process;
log_buffer: process(clk)
variable b : integer;
variable data : std_ulogic_vector(255 downto 0);
begin
if rising_edge(clk) then
if rst = '1' then
log_wr_ptr <= (others => '0');
log_toggle <= '0';
elsif log_wr_enable = '1' then
if log_wr_ptr = to_unsigned(LOG_LENGTH - 1, LOG_INDEX_BITS) then
log_toggle <= not log_toggle;
end if;
log_wr_ptr <= log_wr_ptr + 1;
end if;
if do_dmi_log_rd = '1' then
log_rd_ptr_latched <= unsigned(log_dmi_addr(LOG_INDEX_BITS + 1 downto 2));
else
log_rd_ptr_latched <= unsigned(log_read_addr(LOG_INDEX_BITS + 1 downto 2));
end if;
if log_dmi_read_done = '1' then
log_dmi_data <= select_dword(log_rd, log_dmi_addr);
else
log_read_data <= select_dword(log_rd, log_read_addr);
end if;
log_dmi_read_done <= log_dmi_reading;
log_dmi_reading <= do_dmi_log_rd;
Add core logging This logs 256 bits of data per cycle to a ring buffer in BRAM. The data collected can be read out through 2 new SPRs or through the debug interface. The new SPRs are LOG_ADDR (724) and LOG_DATA (725). LOG_ADDR contains the buffer write pointer in the upper 32 bits (in units of entries, i.e. 32 bytes) and the read pointer in the lower 32 bits (in units of doublewords, i.e. 8 bytes). Reading LOG_DATA gives the doubleword from the buffer at the read pointer and increments the read pointer. Setting bit 31 of LOG_ADDR inhibits the trace log system from writing to the log buffer, so the contents are stable and can be read. There are two new debug addresses which function similarly to the LOG_ADDR and LOG_DATA SPRs. The log is frozen while either or both of the LOG_ADDR SPR bit 31 or the debug LOG_ADDR register bit 31 are set. The buffer defaults to 2048 entries, i.e. 64kB. The size is set by the LOG_LENGTH generic on the core_debug module. Software can determine the length of the buffer because the length is ORed into the buffer write pointer in the upper 32 bits of LOG_ADDR. Hence the length of the buffer can be calculated as 1 << (31 - clz(LOG_ADDR)). There is a program to format the log entries in a somewhat readable fashion in scripts/fmt_log/fmt_log.c. The log_entry struct in that file describes the layout of the bits in the log entries. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
5 years ago
end if;
Make LOG_LENGTH configurable per FPGA variant This plumbs the LOG_LENGTH parameter (which controls how many entries the core log RAM has) up to the top level so that it can be set on the fusesoc command line and have different default values on different FPGAs. It now defaults to 512 entries generally and on the Artix-7 35 parts, and 2048 on the larger Artix-7 FPGAs. It can be set to 0 if desired. Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
4 years ago
end process;
log_write_addr(LOG_INDEX_BITS - 1 downto 0) <= std_ulogic_vector(log_wr_ptr);
log_write_addr(LOG_INDEX_BITS) <= '1';
log_write_addr(31 downto LOG_INDEX_BITS + 1) <= (others => '0');
end generate;
no_log: if LOG_LENGTH = 0 generate
begin
log_read_data <= (others => '0');
log_write_addr <= x"00000001";
end generate;
Add core debug module This module adds some simple core controls: reset, stop, start, step along with icache clear and reading the NIA and core status bits Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org
5 years ago
end behave;