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[/] [neorv32/] [trunk/] [rtl/] [core/] [neorv32_cpu_control.vhd] - Blame information for rev 49

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1 2 zero_gravi 
-- #################################################################################################
2 
-- # << NEORV32 - CPU Control >>                                                                   #
3 
-- # ********************************************************************************************* #
4 31 zero_gravi 
-- # CPU operation is split into a fetch engine (responsible for fetching instruction data), an    #
5 
-- # issue engine (for recoding compressed instructions and for constructing 32-bit instruction    #
6 
-- # words) and an execute engine (responsible for actually executing the instructions), a trap    #
7 44 zero_gravi 
-- # handling controller and the RISC-V status and control register set (CSRs) including the       #
8 
-- # hardware performance monitor counters.                                                        #
9 2 zero_gravi 
-- # ********************************************************************************************* #
10 
-- # BSD 3-Clause License                                                                          #
11 
-- #                                                                                               #
12 42 zero_gravi 
-- # Copyright (c) 2021, Stephan Nolting. All rights reserved.                                     #
13 2 zero_gravi 
-- #                                                                                               #
14 
-- # Redistribution and use in source and binary forms, with or without modification, are          #
15 
-- # permitted provided that the following conditions are met:                                     #
16 
-- #                                                                                               #
17 
-- # 1. Redistributions of source code must retain the above copyright notice, this list of        #
18 
-- #    conditions and the following disclaimer.                                                   #
19 
-- #                                                                                               #
20 
-- # 2. Redistributions in binary form must reproduce the above copyright notice, this list of     #
21 
-- #    conditions and the following disclaimer in the documentation and/or other materials        #
22 
-- #    provided with the distribution.                                                            #
23 
-- #                                                                                               #
24 
-- # 3. Neither the name of the copyright holder nor the names of its contributors may be used to  #
25 
-- #    endorse or promote products derived from this software without specific prior written      #
26 
-- #    permission.                                                                                #
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-- #                                                                                               #
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-- # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS   #
29 
-- # OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF               #
30 
-- # MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE    #
31 
-- # COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,     #
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-- # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE #
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-- # GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED    #
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-- # AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING     #
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-- # NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED  #
36 
-- # OF THE POSSIBILITY OF SUCH DAMAGE.                                                            #
37 
-- # ********************************************************************************************* #
38 
-- # The NEORV32 Processor - https://github.com/stnolting/neorv32              (c) Stephan Nolting #
39 
-- #################################################################################################
40 
 
41 
library ieee;
42 
use ieee.std_logic_1164.all;
43 
use ieee.numeric_std.all;
44 
 
45 
library neorv32;
46 
use neorv32.neorv32_package.all;
47 
 
48 
entity neorv32_cpu_control is
49 
  generic (
50 
    -- General --
51 49 zero_gravi 
    HW_THREAD_ID                 : natural := 0;     -- hardware thread id (32-bit)
52 12 zero_gravi 
    CPU_BOOT_ADDR                : std_ulogic_vector(31 downto 0):= x"00000000"; -- cpu boot address
53 2 zero_gravi 
    -- RISC-V CPU Extensions --
54 39 zero_gravi 
    CPU_EXTENSION_RISCV_A        : boolean := false; -- implement atomic extension?
55 44 zero_gravi 
    CPU_EXTENSION_RISCV_B        : boolean := false; -- implement bit manipulation extensions?
56 12 zero_gravi 
    CPU_EXTENSION_RISCV_C        : boolean := false; -- implement compressed extension?
57 
    CPU_EXTENSION_RISCV_E        : boolean := false; -- implement embedded RF extension?
58 
    CPU_EXTENSION_RISCV_M        : boolean := false; -- implement muld/div extension?
59 15 zero_gravi 
    CPU_EXTENSION_RISCV_U        : boolean := false; -- implement user mode extension?
60 12 zero_gravi 
    CPU_EXTENSION_RISCV_Zicsr    : boolean := true;  -- implement CSR system?
61 49 zero_gravi 
    CPU_EXTENSION_RISCV_Zifencei : boolean := false; -- implement instruction stream sync.?
62 15 zero_gravi 
    -- Physical memory protection (PMP) --
63 42 zero_gravi 
    PMP_NUM_REGIONS              : natural := 0;       -- number of regions (0..64)
64 
    PMP_MIN_GRANULARITY          : natural := 64*1024; -- minimal region granularity in bytes, has to be a power of 2, min 8 bytes
65 
    -- Hardware Performance Monitors (HPM) --
66 47 zero_gravi 
    HPM_NUM_CNTS                 : natural := 0      -- number of implemented HPM counters (0..29)
67 2 zero_gravi 
  );
68 
  port (
69 
    -- global control --
70 
    clk_i         : in  std_ulogic; -- global clock, rising edge
71 
    rstn_i        : in  std_ulogic; -- global reset, low-active, async
72 
    ctrl_o        : out std_ulogic_vector(ctrl_width_c-1 downto 0); -- main control bus
73 
    -- status input --
74 
    alu_wait_i    : in  std_ulogic; -- wait for ALU
75 12 zero_gravi 
    bus_i_wait_i  : in  std_ulogic; -- wait for bus
76 
    bus_d_wait_i  : in  std_ulogic; -- wait for bus
77 2 zero_gravi 
    -- data input --
78 
    instr_i       : in  std_ulogic_vector(data_width_c-1 downto 0); -- instruction
79 
    cmp_i         : in  std_ulogic_vector(1 downto 0); -- comparator status
80 36 zero_gravi 
    alu_add_i     : in  std_ulogic_vector(data_width_c-1 downto 0); -- ALU address result
81 
    rs1_i         : in  std_ulogic_vector(data_width_c-1 downto 0); -- rf source 1
82 2 zero_gravi 
    -- data output --
83 
    imm_o         : out std_ulogic_vector(data_width_c-1 downto 0); -- immediate
84 6 zero_gravi 
    fetch_pc_o    : out std_ulogic_vector(data_width_c-1 downto 0); -- PC for instruction fetch
85 
    curr_pc_o     : out std_ulogic_vector(data_width_c-1 downto 0); -- current PC (corresponding to current instruction)
86 2 zero_gravi 
    csr_rdata_o   : out std_ulogic_vector(data_width_c-1 downto 0); -- CSR read data
87 14 zero_gravi 
    -- interrupts (risc-v compliant) --
88 
    msw_irq_i     : in  std_ulogic; -- machine software interrupt
89 
    mext_irq_i    : in  std_ulogic; -- machine external interrupt
90 2 zero_gravi 
    mtime_irq_i   : in  std_ulogic; -- machine timer interrupt
91 14 zero_gravi 
    -- fast interrupts (custom) --
92 48 zero_gravi 
    firq_i        : in  std_ulogic_vector(15 downto 0);
93 
    firq_ack_o    : out std_ulogic_vector(15 downto 0);
94 11 zero_gravi 
    -- system time input from MTIME --
95 
    time_i        : in  std_ulogic_vector(63 downto 0); -- current system time
96 15 zero_gravi 
    -- physical memory protection --
97 23 zero_gravi 
    pmp_addr_o    : out pmp_addr_if_t; -- addresses
98 
    pmp_ctrl_o    : out pmp_ctrl_if_t; -- configs
99 2 zero_gravi 
    -- bus access exceptions --
100 
    mar_i         : in  std_ulogic_vector(data_width_c-1 downto 0);  -- memory address register
101 
    ma_instr_i    : in  std_ulogic; -- misaligned instruction address
102 
    ma_load_i     : in  std_ulogic; -- misaligned load data address
103 
    ma_store_i    : in  std_ulogic; -- misaligned store data address
104 
    be_instr_i    : in  std_ulogic; -- bus error on instruction access
105 
    be_load_i     : in  std_ulogic; -- bus error on load data access
106 12 zero_gravi 
    be_store_i    : in  std_ulogic  -- bus error on store data access
107 2 zero_gravi 
  );
108 
end neorv32_cpu_control;
109 
 
110 
architecture neorv32_cpu_control_rtl of neorv32_cpu_control is
111 
 
112 6 zero_gravi 
  -- instruction fetch enginge --
113 31 zero_gravi 
  type fetch_engine_state_t is (IFETCH_RESET, IFETCH_REQUEST, IFETCH_ISSUE);
114 6 zero_gravi 
  type fetch_engine_t is record
115 31 zero_gravi 
    state       : fetch_engine_state_t;
116 
    state_nxt   : fetch_engine_state_t;
117 42 zero_gravi 
    state_prev  : fetch_engine_state_t;
118 31 zero_gravi 
    pc          : std_ulogic_vector(data_width_c-1 downto 0);
119 
    pc_nxt      : std_ulogic_vector(data_width_c-1 downto 0);
120 
    reset       : std_ulogic;
121 
    bus_err_ack : std_ulogic;
122 6 zero_gravi 
  end record;
123 
  signal fetch_engine : fetch_engine_t;
124 2 zero_gravi 
 
125 32 zero_gravi 
  -- instrucion prefetch buffer (IPB, real FIFO) --
126 31 zero_gravi 
  type ipb_data_fifo_t is array (0 to ipb_entries_c-1) of std_ulogic_vector(2+31 downto 0);
127 6 zero_gravi 
  type ipb_t is record
128 31 zero_gravi 
    wdata : std_ulogic_vector(2+31 downto 0); -- write status (bus_error, align_error) + 32-bit instruction data
129 
    we    : std_ulogic; -- trigger write
130 
    free  : std_ulogic; -- free entry available?
131 
    clear : std_ulogic; -- clear all entries
132 20 zero_gravi 
    --
133 31 zero_gravi 
    rdata : std_ulogic_vector(2+31 downto 0); -- read data: status (bus_error, align_error) + 32-bit instruction data
134 
    re    : std_ulogic; -- read enable
135 
    avail : std_ulogic; -- data available?
136 20 zero_gravi 
    --
137 31 zero_gravi 
    w_pnt : std_ulogic_vector(index_size_f(ipb_entries_c) downto 0); -- write pointer
138 
    r_pnt : std_ulogic_vector(index_size_f(ipb_entries_c) downto 0); -- read pointer
139 34 zero_gravi 
    match : std_ulogic;
140 31 zero_gravi 
    empty : std_ulogic;
141 
    full  : std_ulogic;
142 20 zero_gravi 
    --
143 31 zero_gravi 
    data  : ipb_data_fifo_t; -- fifo memory
144 6 zero_gravi 
  end record;
145 
  signal ipb : ipb_t;
146 2 zero_gravi 
 
147 31 zero_gravi 
  -- pre-decoder --
148 
  signal ci_instr16 : std_ulogic_vector(15 downto 0);
149 
  signal ci_instr32 : std_ulogic_vector(31 downto 0);
150 
  signal ci_illegal : std_ulogic;
151 
 
152 
  -- instruction issue enginge --
153 
  type issue_engine_state_t is (ISSUE_ACTIVE, ISSUE_REALIGN);
154 
  type issue_engine_t is record
155 
    state     : issue_engine_state_t;
156 
    state_nxt : issue_engine_state_t;
157 
    align     : std_ulogic;
158 
    align_nxt : std_ulogic;
159 
    buf       : std_ulogic_vector(2+15 downto 0);
160 
    buf_nxt   : std_ulogic_vector(2+15 downto 0);
161 
  end record;
162 
  signal issue_engine : issue_engine_t;
163 
 
164 37 zero_gravi 
  -- instruction issue interface --
165 
  type cmd_issue_t is record
166 
    data  : std_ulogic_vector(35 downto 0); -- 4-bit status + 32-bit instruction
167 
    valid : std_ulogic; -- data word is valid when set
168 31 zero_gravi 
  end record;
169 37 zero_gravi 
  signal cmd_issue : cmd_issue_t;
170 31 zero_gravi 
 
171 44 zero_gravi 
  -- instruction decoding helper logic --
172 
  type decode_aux_t is record
173 
    alu_immediate   : std_ulogic;
174 
    rs1_is_r0       : std_ulogic;
175 
    is_atomic_lr    : std_ulogic;
176 
    is_atomic_sc    : std_ulogic;
177 
    is_bitmanip_imm : std_ulogic;
178 
    is_bitmanip_reg : std_ulogic;
179 49 zero_gravi 
    sys_env_cmd     : std_ulogic_vector(11 downto 0);
180 44 zero_gravi 
  end record;
181 
  signal decode_aux : decode_aux_t;
182 
 
183 6 zero_gravi 
  -- instruction execution engine --
184 49 zero_gravi 
  type execute_engine_state_t is (SYS_WAIT, DISPATCH, TRAP_ENTER, TRAP_EXIT, TRAP_EXECUTE, EXECUTE, ALU_WAIT,
185 
                                  BRANCH, FENCE_OP,LOADSTORE_0, LOADSTORE_1, LOADSTORE_2, SYS_ENV, CSR_ACCESS);
186 6 zero_gravi 
  type execute_engine_t is record
187 
    state        : execute_engine_state_t;
188 
    state_nxt    : execute_engine_state_t;
189 42 zero_gravi 
    state_prev   : execute_engine_state_t;
190 39 zero_gravi 
    --
191 6 zero_gravi 
    i_reg        : std_ulogic_vector(31 downto 0);
192 
    i_reg_nxt    : std_ulogic_vector(31 downto 0);
193 33 zero_gravi 
    i_reg_last   : std_ulogic_vector(31 downto 0); -- last executed instruction
194 39 zero_gravi 
    --
195 6 zero_gravi 
    is_ci        : std_ulogic; -- current instruction is de-compressed instruction
196 
    is_ci_nxt    : std_ulogic;
197 29 zero_gravi 
    is_cp_op     : std_ulogic; -- current instruction is a co-processor operation
198 
    is_cp_op_nxt : std_ulogic;
199 39 zero_gravi 
    --
200 6 zero_gravi 
    branch_taken : std_ulogic; -- branch condition fullfilled
201 
    pc           : std_ulogic_vector(data_width_c-1 downto 0); -- actual PC, corresponding to current executed instruction
202 49 zero_gravi 
    pc_mux_sel   : std_ulogic; -- source select for PC update
203 39 zero_gravi 
    pc_we        : std_ulogic; -- PC update enabled
204 6 zero_gravi 
    next_pc      : std_ulogic_vector(data_width_c-1 downto 0); -- next PC, corresponding to next instruction to be executed
205 49 zero_gravi 
    next_pc_inc  : std_ulogic_vector(data_width_c-1 downto 0); -- increment to get next PC
206 6 zero_gravi 
    last_pc      : std_ulogic_vector(data_width_c-1 downto 0); -- PC of last executed instruction
207 39 zero_gravi 
    --
208 11 zero_gravi 
    sleep        : std_ulogic; -- CPU in sleep mode
209 39 zero_gravi 
    sleep_nxt    : std_ulogic;
210 49 zero_gravi 
    branched     : std_ulogic; -- instruction fetch was reset
211 
    branched_nxt : std_ulogic;
212 6 zero_gravi 
  end record;
213 
  signal execute_engine : execute_engine_t;
214 2 zero_gravi 
 
215 6 zero_gravi 
  -- trap controller --
216 
  type trap_ctrl_t is record
217 
    exc_buf       : std_ulogic_vector(exception_width_c-1 downto 0);
218 
    exc_fire      : std_ulogic; -- set if there is a valid source in the exception buffer
219 
    irq_buf       : std_ulogic_vector(interrupt_width_c-1 downto 0);
220 48 zero_gravi 
    firq_sync     : std_ulogic_vector(15 downto 0);
221 6 zero_gravi 
    irq_fire      : std_ulogic; -- set if there is a valid source in the interrupt buffer
222 
    exc_ack       : std_ulogic; -- acknowledge all exceptions
223 
    irq_ack       : std_ulogic_vector(interrupt_width_c-1 downto 0); -- acknowledge specific interrupt
224 
    irq_ack_nxt   : std_ulogic_vector(interrupt_width_c-1 downto 0);
225 40 zero_gravi 
    cause         : std_ulogic_vector(5 downto 0); -- trap ID for mcause CSR
226 14 zero_gravi 
    cause_nxt     : std_ulogic_vector(5 downto 0);
227 6 zero_gravi 
    --
228 
    env_start     : std_ulogic; -- start trap handler env
229 
    env_start_ack : std_ulogic; -- start of trap handler acknowledged
230 
    env_end       : std_ulogic; -- end trap handler env
231 
    --
232 
    instr_be      : std_ulogic; -- instruction fetch bus error
233 
    instr_ma      : std_ulogic; -- instruction fetch misaligned address
234 
    instr_il      : std_ulogic; -- illegal instruction
235 
    env_call      : std_ulogic;
236 
    break_point   : std_ulogic;
237 
  end record;
238 
  signal trap_ctrl : trap_ctrl_t;
239 39 zero_gravi 
 
240 
  -- atomic operations controller --
241 
  type atomic_ctrl_t is record
242 
    env_start  : std_ulogic; -- begin atomic operations
243 
    env_end    : std_ulogic; -- end atomic operations
244 
    env_end_ff : std_ulogic; -- end atomic operations dealyed
245 
    env_abort  : std_ulogic; -- atomic operations abort (results in failure)
246 
    lock       : std_ulogic; -- lock status
247 
  end record;
248 
  signal atomic_ctrl : atomic_ctrl_t;
249 6 zero_gravi 
 
250 40 zero_gravi 
  -- CPU main control bus --
251 6 zero_gravi 
  signal ctrl_nxt, ctrl : std_ulogic_vector(ctrl_width_c-1 downto 0);
252 2 zero_gravi 
 
253 40 zero_gravi 
  -- fast instruction fetch access --
254 6 zero_gravi 
  signal bus_fast_ir : std_ulogic;
255 2 zero_gravi 
 
256 6 zero_gravi 
  -- RISC-V control and status registers (CSRs) --
257 42 zero_gravi 
  type pmp_ctrl_t     is array (0 to PMP_NUM_REGIONS-1) of std_ulogic_vector(7 downto 0);
258 
  type pmp_addr_t     is array (0 to PMP_NUM_REGIONS-1) of std_ulogic_vector(data_width_c-1 downto 0);
259 
  type pmp_ctrl_rd_t  is array (0 to 63) of std_ulogic_vector(7 downto 0);
260 
  type pmp_addr_rd_t  is array (0 to 63) of std_ulogic_vector(data_width_c-1 downto 0);
261 
  type mhpmevent_t    is array (0 to HPM_NUM_CNTS-1) of std_ulogic_vector(hpmcnt_event_size_c-1 downto 0);
262 
  type mhpmcnt_t      is array (0 to HPM_NUM_CNTS-1) of std_ulogic_vector(32 downto 0);
263 
  type mhpmcnth_t     is array (0 to HPM_NUM_CNTS-1) of std_ulogic_vector(31 downto 0);
264 
  type mhpmevent_rd_t is array (0 to 29) of std_ulogic_vector(hpmcnt_event_size_c-1 downto 0);
265 
  type mhpmcnt_rd_t   is array (0 to 29) of std_ulogic_vector(32 downto 0);
266 
  type mhpmcnth_rd_t  is array (0 to 29) of std_ulogic_vector(31 downto 0);
267 6 zero_gravi 
  type csr_t is record
268 42 zero_gravi 
    addr              : std_ulogic_vector(11 downto 0); -- csr address
269 
    we                : std_ulogic; -- csr write enable
270 
    we_nxt            : std_ulogic;
271 
    re                : std_ulogic; -- csr read enable
272 
    re_nxt            : std_ulogic;
273 
    wdata             : std_ulogic_vector(data_width_c-1 downto 0); -- csr write data
274 
    rdata             : std_ulogic_vector(data_width_c-1 downto 0); -- csr read data
275 29 zero_gravi 
    --
276 42 zero_gravi 
    mstatus_mie       : std_ulogic; -- mstatus.MIE: global IRQ enable (R/W)
277 
    mstatus_mpie      : std_ulogic; -- mstatus.MPIE: previous global IRQ enable (R/W)
278 
    mstatus_mpp       : std_ulogic_vector(1 downto 0); -- mstatus.MPP: machine previous privilege mode
279 29 zero_gravi 
    --
280 42 zero_gravi 
    mie_msie          : std_ulogic; -- mie.MSIE: machine software interrupt enable (R/W)
281 
    mie_meie          : std_ulogic; -- mie.MEIE: machine external interrupt enable (R/W)
282 
    mie_mtie          : std_ulogic; -- mie.MEIE: machine timer interrupt enable (R/W)
283 48 zero_gravi 
    mie_firqe         : std_ulogic_vector(15 downto 0); -- mie.firq*e: fast interrupt enabled (R/W)
284 29 zero_gravi 
    --
285 42 zero_gravi 
    mcounteren_cy     : std_ulogic; -- mcounteren.cy: allow cycle[h] access from user-mode
286 
    mcounteren_tm     : std_ulogic; -- mcounteren.tm: allow time[h] access from user-mode
287 
    mcounteren_ir     : std_ulogic; -- mcounteren.ir: allow instret[h] access from user-mode
288 
    mcounteren_hpm    : std_ulogic_vector(HPM_NUM_CNTS-1 downto 0); -- mcounteren.hpmx: allow mhpmcounterx[h] access from user-mode
289 29 zero_gravi 
    --
290 42 zero_gravi 
    mcountinhibit_cy  : std_ulogic; -- mcounterinhibit.cy: enable auto-increment for [m]cycle[h]
291 
    mcountinhibit_ir  : std_ulogic; -- mcounterinhibit.ir: enable auto-increment for [m]instret[h]
292 
    mcountinhibit_hpm : std_ulogic_vector(HPM_NUM_CNTS-1 downto 0); -- mcounterinhibit.hpm3: enable auto-increment for mhpmcounterx[h]
293 40 zero_gravi 
    --
294 42 zero_gravi 
    mip_status        : std_ulogic_vector(interrupt_width_c-1  downto 0); -- current buffered IRQs
295 
    mip_clear         : std_ulogic_vector(interrupt_width_c-1  downto 0); -- set bits clear the according buffered IRQ
296 41 zero_gravi 
    --
297 42 zero_gravi 
    privilege         : std_ulogic_vector(1 downto 0); -- hart's current privilege mode
298 
    priv_m_mode       : std_ulogic; -- CPU in M-mode
299 
    priv_u_mode       : std_ulogic; -- CPU in u-mode
300 41 zero_gravi 
    --
301 42 zero_gravi 
    mepc              : std_ulogic_vector(data_width_c-1 downto 0); -- mepc: machine exception pc (R/W)
302 49 zero_gravi 
    mcause            : std_ulogic_vector(5 downto 0); -- mcause: machine trap cause (R/W)
303 42 zero_gravi 
    mtvec             : std_ulogic_vector(data_width_c-1 downto 0); -- mtvec: machine trap-handler base address (R/W), bit 1:0 == 00
304 49 zero_gravi 
    mtval             : std_ulogic_vector(data_width_c-1 downto 0); -- mtval: machine bad address or instruction (R/W)
305 42 zero_gravi 
    --
306 
    mhpmevent         : mhpmevent_t; -- mhpmevent*: machine performance-monitoring event selector (R/W)
307 
    mhpmevent_rd      : mhpmevent_rd_t; -- mhpmevent*: actual read data
308 
    --
309 
    mscratch          : std_ulogic_vector(data_width_c-1 downto 0); -- mscratch: scratch register (R/W)
310 
    mcycle            : std_ulogic_vector(32 downto 0); -- mcycle (R/W), plus carry bit
311 
    minstret          : std_ulogic_vector(32 downto 0); -- minstret (R/W), plus carry bit
312 
    --
313 
    mcycleh           : std_ulogic_vector(31 downto 0); -- mcycleh (R/W)
314 
    minstreth         : std_ulogic_vector(31 downto 0); -- minstreth (R/W)
315 
    --
316 
    mhpmcounter       : mhpmcnt_t; -- mhpmcounter* (R/W), plus carry bit
317 
    mhpmcounterh      : mhpmcnth_t; -- mhpmcounter*h (R/W)
318 
    mhpmcounter_rd    : mhpmcnt_rd_t; -- mhpmcounter* (R/W): actual read data
319 
    mhpmcounterh_rd   : mhpmcnth_rd_t; -- mhpmcounter*h (R/W): actual read data
320 
    --
321 
    pmpcfg            : pmp_ctrl_t; -- physical memory protection - configuration registers
322 
    pmpcfg_rd         : pmp_ctrl_rd_t; -- physical memory protection - actual read data
323 
    pmpaddr           : pmp_addr_t; -- physical memory protection - address registers
324 
    pmpaddr_rd        : pmp_addr_rd_t; -- physical memory protection - actual read data
325 6 zero_gravi 
  end record;
326 
  signal csr : csr_t;
327 2 zero_gravi 
 
328 42 zero_gravi 
  -- counter low-to-high-word carry --
329 
  signal mcycle_msb      : std_ulogic;
330 
  signal minstret_msb    : std_ulogic;
331 
  signal mhpmcounter_msb : std_ulogic_vector(HPM_NUM_CNTS-1 downto 0);
332 2 zero_gravi 
 
333 42 zero_gravi 
  -- (hpm) counter events --
334 
  signal cnt_event, cnt_event_nxt : std_ulogic_vector(hpmcnt_event_size_c-1 downto 0);
335 
  signal hpmcnt_trigger           : std_ulogic_vector(HPM_NUM_CNTS-1 downto 0);
336 
 
337 6 zero_gravi 
  -- illegal instruction check --
338 36 zero_gravi 
  signal illegal_opcode_lsbs : std_ulogic; -- if opcode != rv32
339 2 zero_gravi 
  signal illegal_instruction : std_ulogic;
340 
  signal illegal_register    : std_ulogic; -- only for E-extension
341 
  signal illegal_compressed  : std_ulogic; -- only fir C-extension
342 
 
343 15 zero_gravi 
  -- access (privilege) check --
344 
  signal csr_acc_valid : std_ulogic; -- valid CSR access (implemented and valid access rights)
345 
 
346 2 zero_gravi 
begin
347 
 
348 6 zero_gravi 
-- ****************************************************************************************************************************
349 31 zero_gravi 
-- Instruction Fetch (always fetches aligned 32-bit chunks of data)
350 6 zero_gravi 
-- ****************************************************************************************************************************
351 
 
352 
  -- Fetch Engine FSM Sync ------------------------------------------------------------------
353 
  -- -------------------------------------------------------------------------------------------
354 31 zero_gravi 
  fetch_engine_fsm_sync: process(rstn_i, clk_i)
355 6 zero_gravi 
  begin
356 
    if (rstn_i = '0') then
357 42 zero_gravi 
      fetch_engine.state      <= IFETCH_RESET;
358 
      fetch_engine.state_prev <= IFETCH_RESET;
359 
      fetch_engine.pc         <= (others => '0');
360 6 zero_gravi 
    elsif rising_edge(clk_i) then
361 
      if (fetch_engine.reset = '1') then
362 
        fetch_engine.state <= IFETCH_RESET;
363 
      else
364 
        fetch_engine.state <= fetch_engine.state_nxt;
365 
      end if;
366 42 zero_gravi 
      fetch_engine.state_prev <= fetch_engine.state;
367 
      fetch_engine.pc         <= fetch_engine.pc_nxt;
368 6 zero_gravi 
    end if;
369 
  end process fetch_engine_fsm_sync;
370 
 
371 12 zero_gravi 
  -- PC output --
372 31 zero_gravi 
  fetch_pc_o <= fetch_engine.pc(data_width_c-1 downto 1) & '0'; -- half-word aligned
373 6 zero_gravi 
 
374 12 zero_gravi 
 
375 6 zero_gravi 
  -- Fetch Engine FSM Comb ------------------------------------------------------------------
376 
  -- -------------------------------------------------------------------------------------------
377 31 zero_gravi 
  fetch_engine_fsm_comb: process(fetch_engine, execute_engine, ipb, instr_i, bus_i_wait_i, be_instr_i, ma_instr_i)
378 6 zero_gravi 
  begin
379 
    -- arbiter defaults --
380 31 zero_gravi 
    bus_fast_ir              <= '0';
381 
    fetch_engine.state_nxt   <= fetch_engine.state;
382 
    fetch_engine.pc_nxt      <= fetch_engine.pc;
383 
    fetch_engine.bus_err_ack <= '0';
384 6 zero_gravi 
 
385 
    -- instruction prefetch buffer interface --
386 
    ipb.we    <= '0';
387 31 zero_gravi 
    ipb.wdata <= be_instr_i & ma_instr_i & instr_i(31 downto 0); -- store exception info and instruction word
388 6 zero_gravi 
    ipb.clear <= '0';
389 
 
390 
    -- state machine --
391 
    case fetch_engine.state is
392 
 
393 49 zero_gravi 
      when IFETCH_RESET => -- reset engine and prefetch buffer, get application PC
394 6 zero_gravi 
      -- ------------------------------------------------------------
395 31 zero_gravi 
        fetch_engine.bus_err_ack <= '1'; -- acknowledge any instruction bus errors, the execute engine has to take care of them / terminate current transfer
396 
        fetch_engine.pc_nxt      <= execute_engine.pc(data_width_c-1 downto 1) & '0'; -- initialize with "real" application PC
397 
        ipb.clear                <= '1'; -- clear prefetch buffer
398 
        fetch_engine.state_nxt   <= IFETCH_REQUEST;
399 6 zero_gravi 
 
400 31 zero_gravi 
      when IFETCH_REQUEST => -- output current PC to bus system and request 32-bit (aligned!) instruction data
401 6 zero_gravi 
      -- ------------------------------------------------------------
402 31 zero_gravi 
        if (ipb.free = '1') then -- free entry in buffer?
403 
          bus_fast_ir            <= '1'; -- fast instruction fetch request
404 
          fetch_engine.state_nxt <= IFETCH_ISSUE;
405 
        end if;
406 6 zero_gravi 
 
407 31 zero_gravi 
      when IFETCH_ISSUE => -- store instruction data to prefetch buffer
408 6 zero_gravi 
      -- ------------------------------------------------------------
409 41 zero_gravi 
        fetch_engine.bus_err_ack <= be_instr_i or ma_instr_i; -- ACK bus/alignment errors
410 12 zero_gravi 
        if (bus_i_wait_i = '0') or (be_instr_i = '1') or (ma_instr_i = '1') then -- wait for bus response
411 39 zero_gravi 
          fetch_engine.pc_nxt    <= std_ulogic_vector(unsigned(fetch_engine.pc) + 4);
412 
          ipb.we                 <= '1';
413 
          fetch_engine.state_nxt <= IFETCH_REQUEST;
414 6 zero_gravi 
        end if;
415 11 zero_gravi 
 
416 6 zero_gravi 
      when others => -- undefined
417 
      -- ------------------------------------------------------------
418 
        fetch_engine.state_nxt <= IFETCH_RESET;
419 
 
420 
    end case;
421 
  end process fetch_engine_fsm_comb;
422 
 
423 
 
424 
-- ****************************************************************************************************************************
425 
-- Instruction Prefetch Buffer
426 
-- ****************************************************************************************************************************
427 
 
428 
 
429 20 zero_gravi 
  -- Instruction Prefetch Buffer (FIFO) -----------------------------------------------------
430 6 zero_gravi 
  -- -------------------------------------------------------------------------------------------
431 36 zero_gravi 
  instr_prefetch_buffer: process(clk_i)
432 6 zero_gravi 
  begin
433 36 zero_gravi 
    if rising_edge(clk_i) then
434 20 zero_gravi 
      -- write port --
435 6 zero_gravi 
      if (ipb.clear = '1') then
436 20 zero_gravi 
        ipb.w_pnt <= (others => '0');
437 6 zero_gravi 
      elsif (ipb.we = '1') then
438 20 zero_gravi 
        ipb.w_pnt <= std_ulogic_vector(unsigned(ipb.w_pnt) + 1);
439 
      end if;
440 37 zero_gravi 
      if (ipb.we = '1') then -- write data
441 36 zero_gravi 
        ipb.data(to_integer(unsigned(ipb.w_pnt(ipb.w_pnt'left-1 downto 0)))) <= ipb.wdata;
442 
      end if;
443 
      -- read port --
444 20 zero_gravi 
      if (ipb.clear = '1') then
445 
        ipb.r_pnt <= (others => '0');
446 6 zero_gravi 
      elsif (ipb.re = '1') then
447 20 zero_gravi 
        ipb.r_pnt <= std_ulogic_vector(unsigned(ipb.r_pnt) + 1);
448 6 zero_gravi 
      end if;
449 20 zero_gravi 
    end if;
450 36 zero_gravi 
  end process instr_prefetch_buffer;
451 20 zero_gravi 
 
452 
  -- async read --
453 31 zero_gravi 
  ipb.rdata <= ipb.data(to_integer(unsigned(ipb.r_pnt(ipb.r_pnt'left-1 downto 0))));
454 20 zero_gravi 
 
455 6 zero_gravi 
  -- status --
456 40 zero_gravi 
  ipb.match <= '1' when (ipb.r_pnt(ipb.r_pnt'left-1 downto 0) = ipb.w_pnt(ipb.w_pnt'left-1 downto 0))  else '0';
457 34 zero_gravi 
  ipb.full  <= '1' when (ipb.r_pnt(ipb.r_pnt'left) /= ipb.w_pnt(ipb.w_pnt'left)) and (ipb.match = '1') else '0';
458 
  ipb.empty <= '1' when (ipb.r_pnt(ipb.r_pnt'left)  = ipb.w_pnt(ipb.w_pnt'left)) and (ipb.match = '1') else '0';
459 20 zero_gravi 
  ipb.free  <= not ipb.full;
460 
  ipb.avail <= not ipb.empty;
461 6 zero_gravi 
 
462 
 
463 
-- ****************************************************************************************************************************
464 31 zero_gravi 
-- Instruction Issue (recoding of compressed instructions and 32-bit instruction word construction)
465 
-- ****************************************************************************************************************************
466 
 
467 
 
468 
  -- Issue Engine FSM Sync ------------------------------------------------------------------
469 
  -- -------------------------------------------------------------------------------------------
470 
  issue_engine_fsm_sync: process(rstn_i, clk_i)
471 
  begin
472 
    if (rstn_i = '0') then
473 
      issue_engine.state <= ISSUE_ACTIVE;
474 40 zero_gravi 
      issue_engine.align <= CPU_BOOT_ADDR(1); -- 32- or 16-bit boundary
475 31 zero_gravi 
      issue_engine.buf   <= (others => '0');
476 
    elsif rising_edge(clk_i) then
477 
      if (ipb.clear = '1') then
478 
        if (CPU_EXTENSION_RISCV_C = true) then
479 
          if (execute_engine.pc(1) = '1') then -- branch to unaligned address?
480 
            issue_engine.state <= ISSUE_REALIGN;
481 
            issue_engine.align <= '1'; -- aligned on 16-bit boundary
482 
          else
483 
            issue_engine.state <= issue_engine.state_nxt;
484 
            issue_engine.align <= '0'; -- aligned on 32-bit boundary
485 
          end if;
486 
        else
487 
          issue_engine.state <= issue_engine.state_nxt;
488 
          issue_engine.align <= '0'; -- always aligned on 32-bit boundaries
489 
        end if;
490 
      else
491 
        issue_engine.state <= issue_engine.state_nxt;
492 
        issue_engine.align <= issue_engine.align_nxt;
493 
      end if;
494 
      issue_engine.buf <= issue_engine.buf_nxt;
495 
    end if;
496 
  end process issue_engine_fsm_sync;
497 
 
498 
 
499 
  -- Issue Engine FSM Comb ------------------------------------------------------------------
500 
  -- -------------------------------------------------------------------------------------------
501 37 zero_gravi 
  issue_engine_fsm_comb: process(issue_engine, ipb, execute_engine, ci_illegal, ci_instr32)
502 31 zero_gravi 
  begin
503 
    -- arbiter defaults --
504 
    issue_engine.state_nxt <= issue_engine.state;
505 
    issue_engine.align_nxt <= issue_engine.align;
506 
    issue_engine.buf_nxt   <= issue_engine.buf;
507 
 
508 
    -- instruction prefetch buffer interface defaults --
509 
    ipb.re <= '0';
510 
 
511 37 zero_gravi 
    -- instruction issue interface defaults --
512 
    -- cmd_issue.data = <illegal_compressed_instruction> & <bus_error & alignment_error> & <is_compressed_instrucion> & <32-bit_instruction_word>
513 
    cmd_issue.data  <= '0' & ipb.rdata(33 downto 32) & '0' & ipb.rdata(31 downto 0);
514 
    cmd_issue.valid <= '0';
515 31 zero_gravi 
 
516 
    -- state machine --
517 
    case issue_engine.state is
518 
 
519 
      when ISSUE_ACTIVE => -- issue instruction if available
520 
      -- ------------------------------------------------------------
521 
        if (ipb.avail = '1') then -- instructions available?
522 
 
523 
          if (issue_engine.align = '0') or (CPU_EXTENSION_RISCV_C = false) then -- begin check in LOW instruction half-word
524 41 zero_gravi 
            if (execute_engine.state = DISPATCH) then -- ready to issue new command?
525 39 zero_gravi 
              cmd_issue.valid      <= '1';
526 31 zero_gravi 
              issue_engine.buf_nxt <= ipb.rdata(33 downto 32) & ipb.rdata(31 downto 16); -- store high half-word - we might need it for an unaligned uncompressed instruction
527 
              if (ipb.rdata(1 downto 0) = "11") or (CPU_EXTENSION_RISCV_C = false) then -- uncompressed and "aligned"
528 37 zero_gravi 
                ipb.re <= '1';
529 
                cmd_issue.data <= '0' & ipb.rdata(33 downto 32) & '0' & ipb.rdata(31 downto 0);
530 31 zero_gravi 
              else -- compressed
531 37 zero_gravi 
                ipb.re <= '1';
532 
                cmd_issue.data <= ci_illegal & ipb.rdata(33 downto 32) & '1' & ci_instr32;
533 31 zero_gravi 
                issue_engine.align_nxt <= '1';
534 
              end if;
535 
            end if;
536 
 
537 
          else -- begin check in HIGH instruction half-word
538 41 zero_gravi 
            if (execute_engine.state = DISPATCH) then -- ready to issue new command?
539 39 zero_gravi 
              cmd_issue.valid      <= '1';
540 31 zero_gravi 
              issue_engine.buf_nxt <= ipb.rdata(33 downto 32) & ipb.rdata(31 downto 16); -- store high half-word - we might need it for an unaligned uncompressed instruction
541 
              if (issue_engine.buf(1 downto 0) = "11") then -- uncompressed and "unaligned"
542 37 zero_gravi 
                ipb.re <= '1';
543 
                cmd_issue.data <= '0' & issue_engine.buf(17 downto 16) & '0' & (ipb.rdata(15 downto 0) & issue_engine.buf(15 downto 0));
544 31 zero_gravi 
              else -- compressed
545 36 zero_gravi 
                -- do not read from ipb here!
546 37 zero_gravi 
                cmd_issue.data <= ci_illegal & ipb.rdata(33 downto 32) & '1' & ci_instr32;
547 31 zero_gravi 
                issue_engine.align_nxt <= '0';
548 
              end if;
549 
            end if;
550 
          end if;
551 
        end if;
552 
 
553 
      when ISSUE_REALIGN => -- re-align input fifos after a branch to an unaligned address
554 
      -- ------------------------------------------------------------
555 
        issue_engine.buf_nxt <= ipb.rdata(33 downto 32) & ipb.rdata(31 downto 16);
556 
        if (ipb.avail = '1') then -- instructions available?
557 
          ipb.re <= '1';
558 
          issue_engine.state_nxt <= ISSUE_ACTIVE;
559 
        end if;
560 
 
561 
      when others => -- undefined
562 
      -- ------------------------------------------------------------
563 
        issue_engine.state_nxt <= ISSUE_ACTIVE;
564 
 
565 
    end case;
566 
  end process issue_engine_fsm_comb;
567 
 
568 41 zero_gravi 
  -- 16-bit instructions: half-word select --
569 31 zero_gravi 
  ci_instr16 <= ipb.rdata(15 downto 0) when (issue_engine.align = '0') else issue_engine.buf(15 downto 0);
570 
 
571 
 
572 
  -- Compressed Instructions Recoding -------------------------------------------------------
573 
  -- -------------------------------------------------------------------------------------------
574 
  neorv32_cpu_decompressor_inst_true:
575 
  if (CPU_EXTENSION_RISCV_C = true) generate
576 
    neorv32_cpu_decompressor_inst: neorv32_cpu_decompressor
577 
    port map (
578 
      -- instruction input --
579 
      ci_instr16_i => ci_instr16, -- compressed instruction input
580 
      -- instruction output --
581 
      ci_illegal_o => ci_illegal, -- is an illegal compressed instruction
582 
      ci_instr32_o => ci_instr32  -- 32-bit decompressed instruction
583 
    );
584 
  end generate;
585 
 
586 
  neorv32_cpu_decompressor_inst_false:
587 
  if (CPU_EXTENSION_RISCV_C = false) generate
588 
    ci_instr32 <= (others => '0');
589 
    ci_illegal <= '0';
590 
  end generate;
591 
 
592 
 
593 
-- ****************************************************************************************************************************
594 6 zero_gravi 
-- Instruction Execution
595 
-- ****************************************************************************************************************************
596 
 
597 
 
598 2 zero_gravi 
  -- Immediate Generator --------------------------------------------------------------------
599 
  -- -------------------------------------------------------------------------------------------
600 38 zero_gravi 
  imm_gen: process(execute_engine.i_reg, clk_i)
601 37 zero_gravi 
    variable opcode_v : std_ulogic_vector(6 downto 0);
602 2 zero_gravi 
  begin
603 38 zero_gravi 
    opcode_v := execute_engine.i_reg(instr_opcode_msb_c downto instr_opcode_lsb_c+2) & "11";
604 2 zero_gravi 
    if rising_edge(clk_i) then
605 49 zero_gravi 
      if (execute_engine.state = BRANCH) then -- next_PC as immediate for jump-and-link operations (=return address) via ALU.MOV_B
606 39 zero_gravi 
        imm_o <= execute_engine.next_pc;
607 49 zero_gravi 
      else -- "normal" immediate from instruction word
608 
        case opcode_v is -- save some bits here, the two LSBs are always "11" for rv32
609 39 zero_gravi 
          when opcode_store_c => -- S-immediate
610 
            imm_o(31 downto 11) <= (others => execute_engine.i_reg(31)); -- sign extension
611 
            imm_o(10 downto 05) <= execute_engine.i_reg(30 downto 25);
612 
            imm_o(04 downto 01) <= execute_engine.i_reg(11 downto 08);
613 
            imm_o(00)           <= execute_engine.i_reg(07);
614 
          when opcode_branch_c => -- B-immediate
615 
            imm_o(31 downto 12) <= (others => execute_engine.i_reg(31)); -- sign extension
616 
            imm_o(11)           <= execute_engine.i_reg(07);
617 
            imm_o(10 downto 05) <= execute_engine.i_reg(30 downto 25);
618 
            imm_o(04 downto 01) <= execute_engine.i_reg(11 downto 08);
619 
            imm_o(00)           <= '0';
620 
          when opcode_lui_c | opcode_auipc_c => -- U-immediate
621 
            imm_o(31 downto 20) <= execute_engine.i_reg(31 downto 20);
622 
            imm_o(19 downto 12) <= execute_engine.i_reg(19 downto 12);
623 
            imm_o(11 downto 00) <= (others => '0');
624 
          when opcode_jal_c => -- J-immediate
625 
            imm_o(31 downto 20) <= (others => execute_engine.i_reg(31)); -- sign extension
626 
            imm_o(19 downto 12) <= execute_engine.i_reg(19 downto 12);
627 
            imm_o(11)           <= execute_engine.i_reg(20);
628 
            imm_o(10 downto 05) <= execute_engine.i_reg(30 downto 25);
629 
            imm_o(04 downto 01) <= execute_engine.i_reg(24 downto 21);
630 
            imm_o(00)           <= '0';
631 
          when opcode_atomic_c => -- atomic memory access
632 40 zero_gravi 
            imm_o               <= (others => '0'); -- effective address is addr = reg + 0 = reg
633 39 zero_gravi 
          when others => -- I-immediate
634 
            imm_o(31 downto 11) <= (others => execute_engine.i_reg(31)); -- sign extension
635 
            imm_o(10 downto 05) <= execute_engine.i_reg(30 downto 25);
636 
            imm_o(04 downto 01) <= execute_engine.i_reg(24 downto 21);
637 
            imm_o(00)           <= execute_engine.i_reg(20);
638 
        end case;
639 
      end if;
640 2 zero_gravi 
    end if;
641 
  end process imm_gen;
642 
 
643 
 
644 
  -- Branch Condition Check -----------------------------------------------------------------
645 
  -- -------------------------------------------------------------------------------------------
646 6 zero_gravi 
  branch_check: process(execute_engine.i_reg, cmp_i)
647 2 zero_gravi 
  begin
648 6 zero_gravi 
    case execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) is
649 2 zero_gravi 
      when funct3_beq_c => -- branch if equal
650 47 zero_gravi 
        execute_engine.branch_taken <= cmp_i(cmp_equal_c);
651 2 zero_gravi 
      when funct3_bne_c => -- branch if not equal
652 47 zero_gravi 
        execute_engine.branch_taken <= not cmp_i(cmp_equal_c);
653 2 zero_gravi 
      when funct3_blt_c | funct3_bltu_c => -- branch if less (signed/unsigned)
654 47 zero_gravi 
        execute_engine.branch_taken <= cmp_i(cmp_less_c);
655 2 zero_gravi 
      when funct3_bge_c | funct3_bgeu_c => -- branch if greater or equal (signed/unsigned)
656 47 zero_gravi 
        execute_engine.branch_taken <= not cmp_i(cmp_less_c);
657 2 zero_gravi 
      when others => -- undefined
658 6 zero_gravi 
        execute_engine.branch_taken <= '0';
659 2 zero_gravi 
    end case;
660 
  end process branch_check;
661 
 
662 
 
663 6 zero_gravi 
  -- Execute Engine FSM Sync ----------------------------------------------------------------
664 2 zero_gravi 
  -- -------------------------------------------------------------------------------------------
665 12 zero_gravi 
  -- for registers that DO require a specific reset state --
666 6 zero_gravi 
  execute_engine_fsm_sync_rst: process(rstn_i, clk_i)
667 2 zero_gravi 
  begin
668 
    if (rstn_i = '0') then
669 49 zero_gravi 
      execute_engine.pc       <= CPU_BOOT_ADDR(data_width_c-1 downto 1) & '0';
670 
      execute_engine.state    <= SYS_WAIT;
671 
      execute_engine.sleep    <= '0';
672 
      execute_engine.branched <= '1'; -- reset is a branch from "somewhere"
673 2 zero_gravi 
    elsif rising_edge(clk_i) then
674 39 zero_gravi 
      -- PC update --
675 
      if (execute_engine.pc_we = '1') then
676 49 zero_gravi 
        if (execute_engine.pc_mux_sel = '0') then
677 
          execute_engine.pc <= execute_engine.next_pc(data_width_c-1 downto 1) & '0'; -- normal (linear) increment
678 
        else
679 
          execute_engine.pc <= alu_add_i(data_width_c-1 downto 1) & '0'; -- jump/taken_branch
680 
        end if;
681 39 zero_gravi 
      end if;
682 
      --
683 49 zero_gravi 
      execute_engine.state    <= execute_engine.state_nxt;
684 
      execute_engine.sleep    <= execute_engine.sleep_nxt;
685 
      execute_engine.branched <= execute_engine.branched_nxt;
686 2 zero_gravi 
    end if;
687 6 zero_gravi 
  end process execute_engine_fsm_sync_rst;
688 2 zero_gravi 
 
689 6 zero_gravi 
 
690 12 zero_gravi 
  -- for registers that do NOT require a specific reset state --
691 6 zero_gravi 
  execute_engine_fsm_sync: process(clk_i)
692 2 zero_gravi 
  begin
693 
    if rising_edge(clk_i) then
694 42 zero_gravi 
      execute_engine.state_prev <= execute_engine.state;
695 
      execute_engine.i_reg      <= execute_engine.i_reg_nxt;
696 
      execute_engine.is_ci      <= execute_engine.is_ci_nxt;
697 
      execute_engine.is_cp_op   <= execute_engine.is_cp_op_nxt;
698 49 zero_gravi 
      -- PC & IR of "last executed" instruction --
699 40 zero_gravi 
      if (execute_engine.state = EXECUTE) then
700 
        execute_engine.last_pc    <= execute_engine.pc;
701 39 zero_gravi 
        execute_engine.i_reg_last <= execute_engine.i_reg;
702 
      end if;
703 49 zero_gravi 
      -- next PC --
704 
      case execute_engine.state is
705 
        when TRAP_ENTER => execute_engine.next_pc <= csr.mtvec(data_width_c-1 downto 1) & '0'; -- trap enter
706 
        when TRAP_EXIT  => execute_engine.next_pc <= csr.mepc(data_width_c-1 downto 1) & '0'; -- trap exit
707 
        when EXECUTE    => execute_engine.next_pc <= std_ulogic_vector(unsigned(execute_engine.pc) + unsigned(execute_engine.next_pc_inc)); -- next linear PC
708 
        when others     => NULL;
709 
      end case;
710 39 zero_gravi 
      -- main control bus --
711 6 zero_gravi 
      ctrl <= ctrl_nxt;
712 2 zero_gravi 
    end if;
713 6 zero_gravi 
  end process execute_engine_fsm_sync;
714 2 zero_gravi 
 
715 49 zero_gravi 
  -- PC increment for next linear instruction (+2 for compressed instr., +4 otherwise) --
716 
  execute_engine.next_pc_inc <= x"00000004" when ((execute_engine.is_ci = '0') or (CPU_EXTENSION_RISCV_C = false)) else x"00000002";
717 41 zero_gravi 
 
718 20 zero_gravi 
  -- PC output --
719 39 zero_gravi 
  curr_pc_o <= execute_engine.pc(data_width_c-1 downto 1) & '0'; -- PC for ALU ops
720 6 zero_gravi 
 
721 49 zero_gravi 
  -- CSR access address --
722 
  csr.addr <= execute_engine.i_reg(instr_csr_id_msb_c downto instr_csr_id_lsb_c);
723 20 zero_gravi 
 
724 49 zero_gravi 
 
725 6 zero_gravi 
  -- CPU Control Bus Output -----------------------------------------------------------------
726 
  -- -------------------------------------------------------------------------------------------
727 40 zero_gravi 
  ctrl_output: process(ctrl, fetch_engine, trap_ctrl, atomic_ctrl, bus_fast_ir, execute_engine, csr)
728 2 zero_gravi 
  begin
729 36 zero_gravi 
    -- signals from execute engine --
730 2 zero_gravi 
    ctrl_o <= ctrl;
731 36 zero_gravi 
    -- current privilege level --
732 
    ctrl_o(ctrl_priv_lvl_msb_c downto ctrl_priv_lvl_lsb_c) <= csr.privilege;
733 
    -- register addresses --
734 40 zero_gravi 
    ctrl_o(ctrl_rf_rs1_adr4_c downto ctrl_rf_rs1_adr0_c) <= execute_engine.i_reg(instr_rs1_msb_c downto instr_rs1_lsb_c);
735 
    ctrl_o(ctrl_rf_rs2_adr4_c downto ctrl_rf_rs2_adr0_c) <= execute_engine.i_reg(instr_rs2_msb_c downto instr_rs2_lsb_c);
736 
    ctrl_o(ctrl_rf_rd_adr4_c  downto ctrl_rf_rd_adr0_c)  <= execute_engine.i_reg(instr_rd_msb_c  downto instr_rd_lsb_c);
737 12 zero_gravi 
    -- fast bus access requests --
738 36 zero_gravi 
    ctrl_o(ctrl_bus_if_c) <= bus_fast_ir;
739 12 zero_gravi 
    -- bus error control --
740 47 zero_gravi 
    ctrl_o(ctrl_bus_ierr_ack_c) <= fetch_engine.bus_err_ack; -- instruction fetch bus access error ACK
741 
    ctrl_o(ctrl_bus_derr_ack_c) <= trap_ctrl.env_start_ack; -- data access bus error access ACK
742 
    -- memory access size / sign --
743 
    ctrl_o(ctrl_bus_unsigned_c) <= execute_engine.i_reg(instr_funct3_msb_c); -- unsigned LOAD (LBU, LHU)
744 
    ctrl_o(ctrl_bus_size_msb_c downto ctrl_bus_size_lsb_c) <= execute_engine.i_reg(instr_funct3_lsb_c+1 downto instr_funct3_lsb_c); -- mem transfer size
745 
    -- alu.shifter --
746 
    ctrl_o(ctrl_alu_shift_dir_c) <= execute_engine.i_reg(instr_funct3_msb_c); -- shift direction (left/right)
747 
    ctrl_o(ctrl_alu_shift_ar_c)  <= execute_engine.i_reg(30); -- is arithmetic shift
748 36 zero_gravi 
    -- instruction's function blocks (for co-processors) --
749 44 zero_gravi 
    ctrl_o(ctrl_ir_opcode7_6_c  downto ctrl_ir_opcode7_0_c) <= execute_engine.i_reg(instr_opcode_msb_c  downto instr_opcode_lsb_c);
750 36 zero_gravi 
    ctrl_o(ctrl_ir_funct12_11_c downto ctrl_ir_funct12_0_c) <= execute_engine.i_reg(instr_funct12_msb_c downto instr_funct12_lsb_c);
751 
    ctrl_o(ctrl_ir_funct3_2_c   downto ctrl_ir_funct3_0_c)  <= execute_engine.i_reg(instr_funct3_msb_c  downto instr_funct3_lsb_c);
752 47 zero_gravi 
    -- locked bus operation (for atomic memory operations) --
753 39 zero_gravi 
    ctrl_o(ctrl_bus_lock_c) <= atomic_ctrl.lock; -- (bus) lock status
754 47 zero_gravi 
    -- cpu status --
755 
    ctrl_o(ctrl_sleep_c) <= execute_engine.sleep; -- cpu is in sleep mode
756 6 zero_gravi 
  end process ctrl_output;
757 2 zero_gravi 
 
758 
 
759 44 zero_gravi 
  -- Decoding Helper Logic ------------------------------------------------------------------
760 
  -- -------------------------------------------------------------------------------------------
761 
  decode_helper: process(execute_engine)
762 49 zero_gravi 
    variable sys_env_cmd_mask_v : std_ulogic_vector(11 downto 0);
763 44 zero_gravi 
  begin
764 
    -- defaults --
765 
    decode_aux.alu_immediate   <= '0';
766 
    decode_aux.rs1_is_r0       <= '0';
767 
    decode_aux.is_atomic_lr    <= '0';
768 
    decode_aux.is_atomic_sc    <= '0';
769 
    decode_aux.is_bitmanip_imm <= '0';
770 
    decode_aux.is_bitmanip_reg <= '0';
771 
 
772 
    -- is immediate ALU operation? --
773 
    decode_aux.alu_immediate <= not execute_engine.i_reg(instr_opcode_msb_c-1);
774 
 
775 
    -- is rs1 == r0? --
776 
    decode_aux.rs1_is_r0 <= not or_all_f(execute_engine.i_reg(instr_rs1_msb_c downto instr_rs1_lsb_c));
777 
 
778 
    -- is atomic load-reservate/store-conditional? --
779 
    if (CPU_EXTENSION_RISCV_A = true) and (execute_engine.i_reg(instr_opcode_lsb_c+2) = '1') then -- valid atomic sub-opcode
780 
      decode_aux.is_atomic_lr <= not execute_engine.i_reg(instr_funct5_lsb_c);
781 
      decode_aux.is_atomic_sc <=     execute_engine.i_reg(instr_funct5_lsb_c);
782 
    end if;
783 
 
784 
    -- is BITMANIP.Zbb instruction? --
785 
    -- pretty complex as we have to extract this from the ALU/ALUI instruction space --
786 
    -- immediate operation --
787 
    if ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0110000") and (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "001") and
788 
         (
789 
          (execute_engine.i_reg(instr_funct12_lsb_c+4 downto instr_funct12_lsb_c) = "00000") or -- CLZ
790 
          (execute_engine.i_reg(instr_funct12_lsb_c+4 downto instr_funct12_lsb_c) = "00001") or -- CTZ
791 
          (execute_engine.i_reg(instr_funct12_lsb_c+4 downto instr_funct12_lsb_c) = "00010") or -- PCNT
792 
          (execute_engine.i_reg(instr_funct12_lsb_c+4 downto instr_funct12_lsb_c) = "00100") or -- SEXT.B
793 
          (execute_engine.i_reg(instr_funct12_lsb_c+4 downto instr_funct12_lsb_c) = "00101")    -- SEXT.H
794 
         )
795 
       ) or
796 
       ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c+2) = "01100") and (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "101")) or -- RORI
797 
       ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c+2) = "00101") and (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "101") and (execute_engine.i_reg(instr_imm12_lsb_c+6 downto instr_imm12_lsb_c) = "0000111")) or -- GORCI.b 7 (orc.b)
798 
       ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c+2) = "01101") and (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "101") and (execute_engine.i_reg(instr_imm12_lsb_c+6 downto instr_imm12_lsb_c) = "0011000")) then -- GREVI.-8 (rev8)
799 49 zero_gravi 
      decode_aux.is_bitmanip_imm <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_B);
800 44 zero_gravi 
    end if;
801 
    -- register operation --
802 
    if ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0110000") and (execute_engine.i_reg(instr_funct3_msb_c-1 downto instr_funct3_lsb_c) = "01")) or -- ROR / ROL
803 
       ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0000101") and (execute_engine.i_reg(instr_funct3_msb_c) = '1')) or -- MIN[U] / MAX[U]
804 
       ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0000100") and (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "100")) or -- PACK
805 
       ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0100000") and
806 
        (
807 
         (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "111") or -- ANDN
808 
         (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "110") or -- ORN
809 
         (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "100")    -- XORN
810 
         )
811 
        ) then
812 49 zero_gravi 
      decode_aux.is_bitmanip_reg <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_B);
813 44 zero_gravi 
    end if;
814 49 zero_gravi 
    -- system/environment instructions --
815 
    sys_env_cmd_mask_v := funct12_ecall_c or funct12_ebreak_c or funct12_mret_c or funct12_wfi_c; -- sum-up set bits
816 
    decode_aux.sys_env_cmd(11 downto 0) <= execute_engine.i_reg(instr_funct12_msb_c downto instr_funct12_lsb_c) and sys_env_cmd_mask_v; -- set unsued bits to always-zero
817 44 zero_gravi 
  end process decode_helper;
818 
 
819 
 
820 6 zero_gravi 
  -- Execute Engine FSM Comb ----------------------------------------------------------------
821 
  -- -------------------------------------------------------------------------------------------
822 44 zero_gravi 
  execute_engine_fsm_comb: process(execute_engine, decode_aux, fetch_engine, cmd_issue, trap_ctrl, csr, ctrl, csr_acc_valid,
823 39 zero_gravi 
                                   alu_wait_i, bus_d_wait_i, ma_load_i, be_load_i, ma_store_i, be_store_i)
824 44 zero_gravi 
    variable opcode_v : std_ulogic_vector(6 downto 0);
825 2 zero_gravi 
  begin
826 
    -- arbiter defaults --
827 29 zero_gravi 
    execute_engine.state_nxt    <= execute_engine.state;
828 
    execute_engine.i_reg_nxt    <= execute_engine.i_reg;
829 
    execute_engine.is_cp_op_nxt <= execute_engine.is_cp_op;
830 
    execute_engine.is_ci_nxt    <= execute_engine.is_ci;
831 
    execute_engine.sleep_nxt    <= execute_engine.sleep;
832 49 zero_gravi 
    execute_engine.branched_nxt <= execute_engine.branched;
833 39 zero_gravi 
    --
834 49 zero_gravi 
    execute_engine.pc_mux_sel   <= '0';
835 39 zero_gravi 
    execute_engine.pc_we        <= '0';
836 2 zero_gravi 
 
837 6 zero_gravi 
    -- instruction dispatch --
838 37 zero_gravi 
    fetch_engine.reset          <= '0';
839 2 zero_gravi 
 
840 6 zero_gravi 
    -- trap environment control --
841 37 zero_gravi 
    trap_ctrl.env_start_ack     <= '0';
842 
    trap_ctrl.env_end           <= '0';
843 6 zero_gravi 
 
844 2 zero_gravi 
    -- exception trigger --
845 37 zero_gravi 
    trap_ctrl.instr_be          <= '0';
846 
    trap_ctrl.instr_ma          <= '0';
847 
    trap_ctrl.env_call          <= '0';
848 
    trap_ctrl.break_point       <= '0';
849 
    illegal_compressed          <= '0';
850 2 zero_gravi 
 
851 6 zero_gravi 
    -- CSR access --
852 37 zero_gravi 
    csr.we_nxt                  <= '0';
853 
    csr.re_nxt                  <= '0';
854 6 zero_gravi 
 
855 39 zero_gravi 
    -- atomic operations control --
856 
    atomic_ctrl.env_start       <= '0';
857 
    atomic_ctrl.env_end         <= '0';
858 
    atomic_ctrl.env_abort       <= '0';
859 
 
860 
    -- CONTROL DEFAULTS --
861 36 zero_gravi 
    ctrl_nxt <= (others => '0'); -- default: all off
862 47 zero_gravi 
    -- ALU main control --
863 
    ctrl_nxt(ctrl_alu_addsub_c) <= '0'; -- ADD(I)
864 
    ctrl_nxt(ctrl_alu_func1_c  downto ctrl_alu_func0_c) <= alu_func_cmd_arith_c; -- default ALU function select: arithmetic
865 
    ctrl_nxt(ctrl_alu_arith_c) <= alu_arith_cmd_addsub_c; -- default ALU arithmetic operation: ADDSUB
866 
    -- ALU sign control --
867 6 zero_gravi 
    if (execute_engine.i_reg(instr_opcode_lsb_c+4) = '1') then -- ALU ops
868 36 zero_gravi 
      ctrl_nxt(ctrl_alu_unsigned_c) <= execute_engine.i_reg(instr_funct3_lsb_c+0); -- unsigned ALU operation? (SLTIU, SLTU)
869 2 zero_gravi 
    else -- branches
870 36 zero_gravi 
      ctrl_nxt(ctrl_alu_unsigned_c) <= execute_engine.i_reg(instr_funct3_lsb_c+1); -- unsigned branches? (BLTU, BGEU)
871 2 zero_gravi 
    end if;
872 
 
873 
 
874 6 zero_gravi 
    -- state machine --
875 
    case execute_engine.state is
876 2 zero_gravi 
 
877 44 zero_gravi 
      when SYS_WAIT => -- System delay cycle (used to wait for side effects to kick in) [and to init r0 with zero if it is a physical register]
878 2 zero_gravi 
      -- ------------------------------------------------------------
879 26 zero_gravi 
        -- set reg_file's r0 to zero --
880 25 zero_gravi 
        if (rf_r0_is_reg_c = true) then -- is r0 implemented as physical register, which has to be set to zero?
881 49 zero_gravi 
          ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c; -- hacky! CSR read-access CP selected without a valid CSR-read -> results zero
882 
          ctrl_nxt(ctrl_cp_id_msb_c downto ctrl_cp_id_lsb_c) <= cp_sel_csr_rd_c; -- use CSR-READ CP
883 
          ctrl_nxt(ctrl_rf_r0_we_c)                          <= '1'; -- force RF write access and force rd=r0
884 25 zero_gravi 
        end if;
885 
        --
886 6 zero_gravi 
        execute_engine.state_nxt <= DISPATCH;
887 2 zero_gravi 
 
888 39 zero_gravi 
 
889 37 zero_gravi 
      when DISPATCH => -- Get new command from instruction issue engine
890 25 zero_gravi 
      -- ------------------------------------------------------------
891 49 zero_gravi 
        -- PC update --
892 
        execute_engine.pc_mux_sel <= '0'; -- linear next PC
893 40 zero_gravi 
        -- IR update --
894 49 zero_gravi 
        execute_engine.is_ci_nxt <= cmd_issue.data(32); -- flag to indicate a de-compressed instruction
895 
        execute_engine.i_reg_nxt <= cmd_issue.data(31 downto 0);
896 40 zero_gravi 
        --
897 37 zero_gravi 
        if (cmd_issue.valid = '1') then -- instruction available?
898 49 zero_gravi 
          -- PC update --
899 
          execute_engine.branched_nxt <= '0';
900 
          execute_engine.pc_we        <= not execute_engine.branched; -- update PC with linear next_pc if there was no actual branch
901 40 zero_gravi 
          -- IR update - exceptions --
902 
          trap_ctrl.instr_ma <= cmd_issue.data(33); -- misaligned instruction fetch address
903 
          trap_ctrl.instr_be <= cmd_issue.data(34); -- bus access fault during instruction fetch
904 
          illegal_compressed <= cmd_issue.data(35); -- invalid decompressed instruction
905 
          -- any reason to go to trap state? --
906 37 zero_gravi 
          if (execute_engine.sleep = '1') or (trap_ctrl.env_start = '1') or (trap_ctrl.exc_fire = '1') or ((cmd_issue.data(33) or cmd_issue.data(34)) = '1') then
907 49 zero_gravi 
            execute_engine.state_nxt <= TRAP_ENTER;
908 13 zero_gravi 
          else
909 14 zero_gravi 
            execute_engine.state_nxt <= EXECUTE;
910 13 zero_gravi 
          end if;
911 
        end if;
912 2 zero_gravi 
 
913 39 zero_gravi 
 
914 49 zero_gravi 
      when TRAP_ENTER => -- Start trap environment - get MTVEC, stay here for sleep mode
915 2 zero_gravi 
      -- ------------------------------------------------------------
916 34 zero_gravi 
        if (trap_ctrl.env_start = '1') then -- trap triggered?
917 
          trap_ctrl.env_start_ack   <= '1';
918 49 zero_gravi 
          execute_engine.state_nxt  <= TRAP_EXECUTE;
919 2 zero_gravi 
        end if;
920 
 
921 49 zero_gravi 
      when TRAP_EXIT => -- Return from trap environment - get MEPC
922 
      -- ------------------------------------------------------------
923 
        trap_ctrl.env_end        <= '1';
924 
        execute_engine.state_nxt <= TRAP_EXECUTE;
925 39 zero_gravi 
 
926 49 zero_gravi 
      when TRAP_EXECUTE => -- Start trap environment - jump to MTVEC / return from trap environment - jump to MEPC
927 
      -- ------------------------------------------------------------
928 
        execute_engine.pc_mux_sel <= '0'; -- next PC (csr.mtvec)
929 
        fetch_engine.reset        <= '1';
930 
        execute_engine.pc_we      <= '1';
931 
        execute_engine.sleep_nxt  <= '0'; -- disable sleep mode
932 
        execute_engine.state_nxt  <= SYS_WAIT;
933 
 
934 
 
935 40 zero_gravi 
      when EXECUTE => -- Decode and execute instruction (control has to be here for excatly 1 cyle in any case!)
936 2 zero_gravi 
      -- ------------------------------------------------------------
937 36 zero_gravi 
        opcode_v := execute_engine.i_reg(instr_opcode_msb_c downto instr_opcode_lsb_c+2) & "11"; -- save some bits here, LSBs are always 11 for rv32
938 
        case opcode_v is
939 2 zero_gravi 
 
940 25 zero_gravi 
          when opcode_alu_c | opcode_alui_c => -- (immediate) ALU operation
941 2 zero_gravi 
          -- ------------------------------------------------------------
942 49 zero_gravi 
            ctrl_nxt(ctrl_alu_opa_mux_c) <= '0'; -- use RS1 as ALU.OPA
943 
            ctrl_nxt(ctrl_alu_opb_mux_c) <= decode_aux.alu_immediate; -- use IMM as ALU.OPB for immediate operations
944 
            ctrl_nxt(ctrl_rf_in_mux_c)   <= '0'; -- RF input = ALU result
945 25 zero_gravi 
 
946 39 zero_gravi 
            -- ALU arithmetic operation type and ADD/SUB --
947 
            if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_slt_c) or
948 
               (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sltu_c) then
949 
              ctrl_nxt(ctrl_alu_arith_c) <= alu_arith_cmd_slt_c;
950 29 zero_gravi 
            else
951 39 zero_gravi 
              ctrl_nxt(ctrl_alu_arith_c) <= alu_arith_cmd_addsub_c;
952 25 zero_gravi 
            end if;
953 
 
954 29 zero_gravi 
            -- ADD/SUB --
955 44 zero_gravi 
            if ((decode_aux.alu_immediate = '0') and (execute_engine.i_reg(instr_funct7_msb_c-1) = '1')) or -- not an immediate op and funct7.6 set => SUB
956 29 zero_gravi 
               (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_slt_c) or -- SLT operation
957 
               (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sltu_c) then -- SLTU operation
958 
              ctrl_nxt(ctrl_alu_addsub_c) <= '1'; -- SUB/SLT
959 
            else
960 
              ctrl_nxt(ctrl_alu_addsub_c) <= '0'; -- ADD(I)
961 
            end if;
962 
 
963 39 zero_gravi 
            -- ALU logic operation --
964 
            case execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) is -- actual ALU.logic operation (re-coding)
965 
              when funct3_xor_c => ctrl_nxt(ctrl_alu_logic1_c downto ctrl_alu_logic0_c) <= alu_logic_cmd_xor_c; -- XOR(I)
966 
              when funct3_or_c  => ctrl_nxt(ctrl_alu_logic1_c downto ctrl_alu_logic0_c) <= alu_logic_cmd_or_c;  -- OR(I)
967 40 zero_gravi 
              when others       => ctrl_nxt(ctrl_alu_logic1_c downto ctrl_alu_logic0_c) <= alu_logic_cmd_and_c; -- AND(I)
968 39 zero_gravi 
            end case;
969 
 
970 44 zero_gravi 
            -- co-processor MULDIV operation? --
971 
            if (CPU_EXTENSION_RISCV_M = true) and (execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_alu_c(5)) and (execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0000001") then -- MULDIV CP op?
972 
              ctrl_nxt(ctrl_cp_id_msb_c downto ctrl_cp_id_lsb_c) <= cp_sel_muldiv_c; -- use MULDIV CP
973 39 zero_gravi 
              execute_engine.is_cp_op_nxt                        <= '1'; -- this is a CP operation
974 
              ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c;
975 44 zero_gravi 
            -- co-processor bit manipulation operation? --
976 
            elsif (CPU_EXTENSION_RISCV_B = true) and
977 
              (((execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_alu_c(5))  and (decode_aux.is_bitmanip_reg = '1')) or -- register operation
978 
               ((execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_alui_c(5)) and (decode_aux.is_bitmanip_imm = '1'))) then -- immediate operation
979 
              ctrl_nxt(ctrl_cp_id_msb_c downto ctrl_cp_id_lsb_c) <= cp_sel_bitmanip_c; -- use BITMANIP CP
980 
              execute_engine.is_cp_op_nxt                        <= '1'; -- this is a CP operation
981 
              ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c;
982 
            -- ALU operation, function select --
983 39 zero_gravi 
            else
984 
              execute_engine.is_cp_op_nxt <= '0'; -- no CP operation
985 
              case execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) is -- actual ALU.func operation (re-coding)
986 
                when funct3_xor_c | funct3_or_c | funct3_and_c => ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_logic_c;
987 
                when funct3_sll_c | funct3_sr_c                => ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_shift_c;
988 
                when others                                    => ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_arith_c;
989 
              end case;
990 
            end if;
991 
 
992 11 zero_gravi 
            -- multi cycle alu operation? --
993 25 zero_gravi 
            if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sll_c) or -- SLL shift operation?
994 
               (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sr_c) or -- SR shift operation?
995 44 zero_gravi 
               ((CPU_EXTENSION_RISCV_M = true) and (execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_alu_c(5)) and (execute_engine.i_reg(instr_funct7_lsb_c) = '1')) or -- MULDIV CP op?
996 
               ((CPU_EXTENSION_RISCV_B = true) and (
997 
                 ((execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_alu_c(5))  and (decode_aux.is_bitmanip_reg = '1')) or -- BITMANIP CP register operation?
998 
                 ((execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_alui_c(5)) and (decode_aux.is_bitmanip_imm = '1'))) ) then -- BITMANIP CP immediate operation?
999 6 zero_gravi 
              execute_engine.state_nxt <= ALU_WAIT;
1000 26 zero_gravi 
            else -- single cycle ALU operation
1001 2 zero_gravi 
              ctrl_nxt(ctrl_rf_wb_en_c) <= '1'; -- valid RF write-back
1002 6 zero_gravi 
              execute_engine.state_nxt <= DISPATCH;
1003 2 zero_gravi 
            end if;
1004 
 
1005 25 zero_gravi 
          when opcode_lui_c | opcode_auipc_c => -- load upper immediate / add upper immediate to PC
1006 2 zero_gravi 
          -- ------------------------------------------------------------
1007 27 zero_gravi 
            ctrl_nxt(ctrl_alu_opa_mux_c) <= '1'; -- ALU.OPA = PC (for AUIPC only)
1008 
            ctrl_nxt(ctrl_alu_opb_mux_c) <= '1'; -- use IMM as ALU.OPB
1009 39 zero_gravi 
            ctrl_nxt(ctrl_alu_arith_c)   <= alu_arith_cmd_addsub_c; -- actual ALU operation = ADD
1010 
            ctrl_nxt(ctrl_alu_logic1_c downto ctrl_alu_logic0_c) <= alu_logic_cmd_movb_c; -- MOVB
1011 25 zero_gravi 
            if (execute_engine.i_reg(instr_opcode_lsb_c+5) = opcode_lui_c(5)) then -- LUI
1012 39 zero_gravi 
              ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_logic_c; -- actual ALU operation = MOVB
1013 27 zero_gravi 
            else -- AUIPC
1014 39 zero_gravi 
              ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_arith_c; -- actual ALU operation = ADD
1015 2 zero_gravi 
            end if;
1016 49 zero_gravi 
            ctrl_nxt(ctrl_rf_in_mux_c) <= '0'; -- RF input = ALU result
1017 
            ctrl_nxt(ctrl_rf_wb_en_c)  <= '1'; -- valid RF write-back
1018 
            execute_engine.state_nxt   <= DISPATCH;
1019 2 zero_gravi 
 
1020 39 zero_gravi 
          when opcode_load_c | opcode_store_c | opcode_atomic_c => -- load/store / atomic memory access
1021 2 zero_gravi 
          -- ------------------------------------------------------------
1022 27 zero_gravi 
            ctrl_nxt(ctrl_alu_opa_mux_c) <= '0'; -- use RS1 as ALU.OPA
1023 
            ctrl_nxt(ctrl_alu_opb_mux_c) <= '1'; -- use IMM as ALU.OPB
1024 39 zero_gravi 
            ctrl_nxt(ctrl_bus_mo_we_c)   <= '1'; -- write to MAR and MDO (MDO only relevant for store)
1025 
            --
1026 
            if (CPU_EXTENSION_RISCV_A = false) or (execute_engine.i_reg(instr_opcode_lsb_c+2) = '0') then -- atomic (A) extension disabled or normal load/store
1027 
              execute_engine.state_nxt <= LOADSTORE_0;
1028 
            else -- atomic operation
1029 
              atomic_ctrl.env_start <= not execute_engine.i_reg(instr_funct5_lsb_c); -- LR: start LOCKED memory access environment
1030 
              if (execute_engine.i_reg(instr_funct5_msb_c downto instr_funct5_lsb_c) = funct5_a_sc_c) or -- store-conditional
1031 
                 (execute_engine.i_reg(instr_funct5_msb_c downto instr_funct5_lsb_c) = funct5_a_lr_c) then -- load-reservate
1032 
                execute_engine.state_nxt <= LOADSTORE_0;
1033 
              else -- unimplemented (atomic) instruction
1034 
                execute_engine.state_nxt <= SYS_WAIT;
1035 
              end if;
1036 
            end if;
1037 2 zero_gravi 
 
1038 29 zero_gravi 
          when opcode_branch_c | opcode_jal_c | opcode_jalr_c => -- branch / jump and link (with register)
1039 2 zero_gravi 
          -- ------------------------------------------------------------
1040 49 zero_gravi 
            -- target address (ALU.ADD) operands --
1041 29 zero_gravi 
            if (execute_engine.i_reg(instr_opcode_lsb_c+3 downto instr_opcode_lsb_c+2) = opcode_jalr_c(3 downto 2)) then -- JALR
1042 
              ctrl_nxt(ctrl_alu_opa_mux_c) <= '0'; -- use RS1 as ALU.OPA (branch target address base)
1043 49 zero_gravi 
            else -- JAL
1044 29 zero_gravi 
              ctrl_nxt(ctrl_alu_opa_mux_c) <= '1'; -- use PC as ALU.OPA (branch target address base)
1045 2 zero_gravi 
            end if;
1046 29 zero_gravi 
            ctrl_nxt(ctrl_alu_opb_mux_c) <= '1'; -- use IMM as ALU.OPB (branch target address offset)
1047 49 zero_gravi 
            execute_engine.state_nxt     <= BRANCH;
1048 2 zero_gravi 
 
1049 8 zero_gravi 
          when opcode_fence_c => -- fence operations
1050 
          -- ------------------------------------------------------------
1051 39 zero_gravi 
            execute_engine.state_nxt <= FENCE_OP;
1052 8 zero_gravi 
 
1053 2 zero_gravi 
          when opcode_syscsr_c => -- system/csr access
1054 
          -- ------------------------------------------------------------
1055 45 zero_gravi 
            if (CPU_EXTENSION_RISCV_Zicsr = true) then
1056 
              csr.re_nxt <= csr_acc_valid; -- always read CSR if valid access, only relevant for CSR-instructions
1057 49 zero_gravi 
              ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c; -- only relevant for CSR-instructions
1058 
              ctrl_nxt(ctrl_cp_id_msb_c downto ctrl_cp_id_lsb_c) <= cp_sel_csr_rd_c; -- use CSR-READ CP, only relevant for CSR-instructions
1059 45 zero_gravi 
              if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_env_c) then -- system/environment
1060 
                execute_engine.state_nxt <= SYS_ENV;
1061 
              else -- CSR access
1062 
                execute_engine.state_nxt <= CSR_ACCESS;
1063 
              end if;
1064 
            else
1065 
              execute_engine.state_nxt <= SYS_WAIT;
1066 2 zero_gravi 
            end if;
1067 
 
1068 
          when others => -- undefined
1069 
          -- ------------------------------------------------------------
1070 39 zero_gravi 
            execute_engine.state_nxt <= SYS_WAIT;
1071 2 zero_gravi 
 
1072 
        end case;
1073 
 
1074 39 zero_gravi 
 
1075 
      when SYS_ENV => -- system environment operation - execution
1076 2 zero_gravi 
      -- ------------------------------------------------------------
1077 49 zero_gravi 
        execute_engine.state_nxt <= SYS_WAIT;
1078 
        case decode_aux.sys_env_cmd is -- use a simplified input here (with permanent zeros)
1079 
          when funct12_ecall_c  => trap_ctrl.env_call       <= '1'; -- ECALL
1080 
          when funct12_ebreak_c => trap_ctrl.break_point    <= '1'; -- EBREAK
1081 
          when funct12_mret_c   => execute_engine.state_nxt <= TRAP_EXIT; -- MRET
1082 
          when funct12_wfi_c    => execute_engine.sleep_nxt <= '1'; -- WFI
1083 
          when others           => NULL;-- undefined
1084 39 zero_gravi 
        end case;
1085 
 
1086 
 
1087 
      when CSR_ACCESS => -- read & write status and control register (CSR)
1088 
      -- ------------------------------------------------------------
1089 27 zero_gravi 
        -- CSR write access --
1090 6 zero_gravi 
        case execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) is
1091 25 zero_gravi 
          when funct3_csrrw_c | funct3_csrrwi_c => -- CSRRW(I)
1092 15 zero_gravi 
            csr.we_nxt <= csr_acc_valid; -- always write CSR if valid access
1093 27 zero_gravi 
          when funct3_csrrs_c | funct3_csrrsi_c | funct3_csrrc_c | funct3_csrrci_c => -- CSRRS(I) / CSRRC(I)
1094 44 zero_gravi 
            csr.we_nxt <= (not decode_aux.rs1_is_r0) and csr_acc_valid; -- write CSR if rs1/imm is not zero and if valid access
1095 29 zero_gravi 
          when others => -- invalid
1096 27 zero_gravi 
            csr.we_nxt <= '0';
1097 2 zero_gravi 
        end case;
1098 27 zero_gravi 
        -- register file write back --
1099 49 zero_gravi 
        ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c;
1100 
        ctrl_nxt(ctrl_rf_in_mux_c)                         <= '0'; -- RF input = ALU result
1101 
        ctrl_nxt(ctrl_rf_wb_en_c)                          <= '1'; -- valid RF write-back
1102 
        execute_engine.state_nxt                           <= DISPATCH;
1103 2 zero_gravi 
 
1104 39 zero_gravi 
 
1105 19 zero_gravi 
      when ALU_WAIT => -- wait for multi-cycle ALU operation (shifter or CP) to finish
1106 2 zero_gravi 
      -- ------------------------------------------------------------
1107 49 zero_gravi 
        ctrl_nxt(ctrl_rf_in_mux_c) <= '0'; -- RF input = ALU result
1108 
        ctrl_nxt(ctrl_rf_wb_en_c)  <= '1'; -- valid RF write-back (permanent write-back)
1109 44 zero_gravi 
        -- cp access or alu.shift? --
1110 29 zero_gravi 
        if (execute_engine.is_cp_op = '1') then
1111 39 zero_gravi 
          ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c;
1112 29 zero_gravi 
        else
1113 39 zero_gravi 
          ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_shift_c;
1114 19 zero_gravi 
        end if;
1115 
        -- wait for result --
1116 6 zero_gravi 
        if (alu_wait_i = '0') then
1117 29 zero_gravi 
          execute_engine.state_nxt <= DISPATCH;
1118 2 zero_gravi 
        end if;
1119 
 
1120 39 zero_gravi 
 
1121 6 zero_gravi 
      when BRANCH => -- update PC for taken branches and jumps
1122 
      -- ------------------------------------------------------------
1123 39 zero_gravi 
        -- get and store return address (only relevant for jump-and-link operations) --
1124 
        ctrl_nxt(ctrl_alu_opb_mux_c)                         <= '1'; -- use IMM as ALU.OPB (next_pc from immediate generator = return address)
1125 
        ctrl_nxt(ctrl_alu_logic1_c downto ctrl_alu_logic0_c) <= alu_logic_cmd_movb_c; -- MOVB
1126 
        ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c)   <= alu_func_cmd_logic_c; -- actual ALU operation = MOVB
1127 49 zero_gravi 
        ctrl_nxt(ctrl_rf_in_mux_c)                           <= '0'; -- RF input = ALU result
1128 40 zero_gravi 
        ctrl_nxt(ctrl_rf_wb_en_c)                            <= execute_engine.i_reg(instr_opcode_lsb_c+2); -- valid RF write-back? (is jump-and-link?)
1129 39 zero_gravi 
        -- destination address --
1130 49 zero_gravi 
        execute_engine.pc_mux_sel <= '1'; -- alu.add = branch/jump destination
1131 40 zero_gravi 
        if (execute_engine.i_reg(instr_opcode_lsb_c+2) = '1') or (execute_engine.branch_taken = '1') then -- JAL/JALR or taken branch
1132 49 zero_gravi 
          execute_engine.pc_we        <= '1'; -- update PC
1133 
          execute_engine.branched_nxt <= '1'; -- this is an actual branch
1134 
          fetch_engine.reset          <= '1'; -- trigger new instruction fetch from modified PC
1135 
          execute_engine.state_nxt    <= SYS_WAIT;
1136 11 zero_gravi 
        else
1137 
          execute_engine.state_nxt <= DISPATCH;
1138 6 zero_gravi 
        end if;
1139 
 
1140 39 zero_gravi 
 
1141 
      when FENCE_OP => -- fence operations - execution
1142 
      -- ------------------------------------------------------------
1143 47 zero_gravi 
        execute_engine.state_nxt <= SYS_WAIT;
1144 39 zero_gravi 
        -- FENCE.I --
1145 47 zero_gravi 
        if (CPU_EXTENSION_RISCV_Zifencei = true) then
1146 49 zero_gravi 
          execute_engine.pc_mux_sel <= '0'; -- linear next PC = start *new* instruction fetch with next instruction (only relevant for fence.i)
1147 47 zero_gravi 
          if (execute_engine.i_reg(instr_funct3_lsb_c) = funct3_fencei_c(0)) then
1148 49 zero_gravi 
            execute_engine.pc_we        <= '1'; -- update PC
1149 
            execute_engine.branched_nxt <= '1'; -- this is an actual branch
1150 
            fetch_engine.reset          <= '1'; -- trigger new instruction fetch from modified PC
1151 47 zero_gravi 
            ctrl_nxt(ctrl_bus_fencei_c) <= '1';
1152 
          end if;
1153 39 zero_gravi 
        end if;
1154 
        -- FENCE --
1155 
        if (execute_engine.i_reg(instr_funct3_lsb_c) = funct3_fence_c(0)) then
1156 
          ctrl_nxt(ctrl_bus_fence_c) <= '1';
1157 
        end if;
1158 
 
1159 
 
1160 12 zero_gravi 
      when LOADSTORE_0 => -- trigger memory request
1161 6 zero_gravi 
      -- ------------------------------------------------------------
1162 44 zero_gravi 
        if (execute_engine.i_reg(instr_opcode_msb_c-1) = '0') or (decode_aux.is_atomic_lr = '1') then -- normal load or atomic load-reservate
1163 12 zero_gravi 
          ctrl_nxt(ctrl_bus_rd_c) <= '1'; -- read request
1164 39 zero_gravi 
        else -- store
1165 12 zero_gravi 
          ctrl_nxt(ctrl_bus_wr_c) <= '1'; -- write request
1166 
        end if;
1167 
        execute_engine.state_nxt <= LOADSTORE_1;
1168 6 zero_gravi 
 
1169 39 zero_gravi 
 
1170 12 zero_gravi 
      when LOADSTORE_1 => -- memory latency
1171 6 zero_gravi 
      -- ------------------------------------------------------------
1172 39 zero_gravi 
        ctrl_nxt(ctrl_bus_mi_we_c) <= '1'; -- write input data to MDI (only relevant for LOAD)
1173 
        execute_engine.state_nxt   <= LOADSTORE_2;
1174 6 zero_gravi 
 
1175 39 zero_gravi 
 
1176 12 zero_gravi 
      when LOADSTORE_2 => -- wait for bus transaction to finish
1177 6 zero_gravi 
      -- ------------------------------------------------------------
1178 40 zero_gravi 
        -- ALU control (only relevant for atomic memory operations) --
1179 
        if (CPU_EXTENSION_RISCV_A = true) then
1180 
          ctrl_nxt(ctrl_cp_id_msb_c downto ctrl_cp_id_lsb_c) <= cp_sel_atomic_c; -- atomic.SC: result comes from "atomic co-processor"
1181 39 zero_gravi 
          ctrl_nxt(ctrl_alu_func1_c downto ctrl_alu_func0_c) <= alu_func_cmd_copro_c;
1182 
        end if;
1183 40 zero_gravi 
        -- register file write-back --
1184 44 zero_gravi 
        if (decode_aux.is_atomic_sc = '1') then
1185 49 zero_gravi 
          ctrl_nxt(ctrl_rf_in_mux_c) <= '0'; -- RF input = ALU.res (only relevant for atomic.SC)
1186 39 zero_gravi 
        else
1187 49 zero_gravi 
          ctrl_nxt(ctrl_rf_in_mux_c) <= '1'; -- RF input = memory input (only relevant for LOADs)
1188 39 zero_gravi 
        end if;
1189 
        --
1190 
        ctrl_nxt(ctrl_bus_mi_we_c) <= '1'; -- keep writing input data to MDI (only relevant for load operations)
1191 
        -- wait for memory response --
1192 37 zero_gravi 
        if ((ma_load_i or be_load_i or ma_store_i or be_store_i) = '1') then -- abort if exception
1193 39 zero_gravi 
          atomic_ctrl.env_abort     <= '1'; -- LOCKED (atomic) memory access environment failed (forces SC result to be non-zero => failure)
1194 44 zero_gravi 
          ctrl_nxt(ctrl_rf_wb_en_c) <= decode_aux.is_atomic_sc; -- SC failes: allow write back of non-zero result
1195 39 zero_gravi 
          execute_engine.state_nxt  <= DISPATCH;
1196 26 zero_gravi 
        elsif (bus_d_wait_i = '0') then -- wait for bus to finish transaction
1197 44 zero_gravi 
          if (execute_engine.i_reg(instr_opcode_msb_c-1) = '0') or (decode_aux.is_atomic_lr = '1') or (decode_aux.is_atomic_sc = '1') then -- load / load-reservate / store conditional
1198 39 zero_gravi 
            ctrl_nxt(ctrl_rf_wb_en_c) <= '1'; -- valid RF write-back
1199 6 zero_gravi 
          end if;
1200 48 zero_gravi 
          atomic_ctrl.env_end      <= not decode_aux.is_atomic_lr; -- normal end of LOCKED (atomic) memory access environment - if we are not starting it via LR instruction
1201 6 zero_gravi 
          execute_engine.state_nxt <= DISPATCH;
1202 
        end if;
1203 
 
1204 39 zero_gravi 
 
1205 2 zero_gravi 
      when others => -- undefined
1206 
      -- ------------------------------------------------------------
1207 7 zero_gravi 
        execute_engine.state_nxt <= SYS_WAIT;
1208 2 zero_gravi 
 
1209 
    end case;
1210 6 zero_gravi 
  end process execute_engine_fsm_comb;
1211 2 zero_gravi 
 
1212 
 
1213 15 zero_gravi 
-- ****************************************************************************************************************************
1214 
-- Invalid Instruction / CSR access check
1215 
-- ****************************************************************************************************************************
1216 
 
1217 
 
1218 49 zero_gravi 
  -- CSR Access Check -----------------------------------------------------------------------
1219 15 zero_gravi 
  -- -------------------------------------------------------------------------------------------
1220 49 zero_gravi 
  csr_access_check: process(execute_engine.i_reg, csr)
1221 42 zero_gravi 
    variable csr_wacc_v           : std_ulogic; -- to check access to read-only CSRs
1222 44 zero_gravi 
--  variable csr_racc_v           : std_ulogic; -- to check access to write-only CSRs
1223 42 zero_gravi 
    variable csr_mcounteren_hpm_v : std_ulogic_vector(28 downto 0); -- max 29 HPM counters
1224 15 zero_gravi 
  begin
1225 30 zero_gravi 
    -- is this CSR instruction really going to write/read to/from a CSR? --
1226 
    if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrw_c) or
1227 
       (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrwi_c) then
1228 
      csr_wacc_v := '1'; -- always write CSR
1229 
--    csr_racc_v := or_all_f(execute_engine.i_reg(instr_rd_msb_c downto instr_rd_lsb_c)); -- read allowed if rd != 0
1230 
    else
1231 
      csr_wacc_v := or_all_f(execute_engine.i_reg(instr_rs1_msb_c downto instr_rs1_lsb_c)); -- write allowed if rs1/uimm5 != 0
1232 
--    csr_racc_v := '1'; -- always read CSR
1233 
    end if;
1234 
 
1235 42 zero_gravi 
    -- low privilege level access to hpm counters? --
1236 
    csr_mcounteren_hpm_v := (others => '0');
1237 
    csr_mcounteren_hpm_v(HPM_NUM_CNTS-1 downto 0) := csr.mcounteren_hpm(HPM_NUM_CNTS-1 downto 0);
1238 
 
1239 15 zero_gravi 
    -- check CSR access --
1240 41 zero_gravi 
    case csr.addr is
1241 
      -- standard read/write CSRs --
1242 42 zero_gravi 
      when csr_mstatus_c       => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1243 
      when csr_mstatush_c      => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1244 
      when csr_misa_c          => csr_acc_valid <= csr.priv_m_mode;-- and (not csr_wacc_v); -- M-mode only, MISA is read-only in the NEORV32 but we do not cause an exception here for compatibility
1245 
      when csr_mie_c           => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1246 
      when csr_mtvec_c         => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1247 
      when csr_mscratch_c      => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1248 
      when csr_mepc_c          => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1249 
      when csr_mcause_c        => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1250 
      when csr_mcounteren_c    => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1251 
      when csr_mtval_c         => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1252 
      when csr_mip_c           => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1253 15 zero_gravi 
      --
1254 42 zero_gravi 
      when csr_pmpcfg0_c | csr_pmpcfg1_c | csr_pmpcfg2_c  | csr_pmpcfg3_c  | csr_pmpcfg4_c  | csr_pmpcfg5_c  | csr_pmpcfg6_c  | csr_pmpcfg7_c |
1255 
           csr_pmpcfg8_c | csr_pmpcfg9_c | csr_pmpcfg10_c | csr_pmpcfg11_c | csr_pmpcfg12_c | csr_pmpcfg13_c | csr_pmpcfg14_c | csr_pmpcfg15_c =>
1256 
        csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1257 15 zero_gravi 
      --
1258 42 zero_gravi 
      when csr_pmpaddr0_c  | csr_pmpaddr1_c  | csr_pmpaddr2_c  | csr_pmpaddr3_c  | csr_pmpaddr4_c  | csr_pmpaddr5_c  | csr_pmpaddr6_c  | csr_pmpaddr7_c  |
1259 
           csr_pmpaddr8_c  | csr_pmpaddr9_c  | csr_pmpaddr10_c | csr_pmpaddr11_c | csr_pmpaddr12_c | csr_pmpaddr13_c | csr_pmpaddr14_c | csr_pmpaddr15_c |
1260 
           csr_pmpaddr16_c | csr_pmpaddr17_c | csr_pmpaddr18_c | csr_pmpaddr19_c | csr_pmpaddr20_c | csr_pmpaddr21_c | csr_pmpaddr22_c | csr_pmpaddr23_c |
1261 
           csr_pmpaddr24_c | csr_pmpaddr25_c | csr_pmpaddr26_c | csr_pmpaddr27_c | csr_pmpaddr28_c | csr_pmpaddr29_c | csr_pmpaddr30_c | csr_pmpaddr31_c |
1262 
           csr_pmpaddr32_c | csr_pmpaddr33_c | csr_pmpaddr34_c | csr_pmpaddr35_c | csr_pmpaddr36_c | csr_pmpaddr37_c | csr_pmpaddr38_c | csr_pmpaddr39_c |
1263 
           csr_pmpaddr40_c | csr_pmpaddr41_c | csr_pmpaddr42_c | csr_pmpaddr43_c | csr_pmpaddr44_c | csr_pmpaddr45_c | csr_pmpaddr46_c | csr_pmpaddr47_c |
1264 
           csr_pmpaddr48_c | csr_pmpaddr49_c | csr_pmpaddr50_c | csr_pmpaddr51_c | csr_pmpaddr52_c | csr_pmpaddr53_c | csr_pmpaddr54_c | csr_pmpaddr55_c |
1265 
           csr_pmpaddr56_c | csr_pmpaddr57_c | csr_pmpaddr58_c | csr_pmpaddr59_c | csr_pmpaddr60_c | csr_pmpaddr61_c | csr_pmpaddr62_c | csr_pmpaddr63_c =>
1266 
        csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1267 15 zero_gravi 
      --
1268 41 zero_gravi 
      when csr_mcountinhibit_c => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1269 15 zero_gravi 
      --
1270 42 zero_gravi 
      when csr_mhpmevent3_c  | csr_mhpmevent4_c  | csr_mhpmevent5_c  | csr_mhpmevent6_c  | csr_mhpmevent7_c  | csr_mhpmevent8_c  |
1271 
           csr_mhpmevent9_c  | csr_mhpmevent10_c | csr_mhpmevent11_c | csr_mhpmevent12_c | csr_mhpmevent13_c | csr_mhpmevent14_c |
1272 
           csr_mhpmevent15_c | csr_mhpmevent16_c | csr_mhpmevent17_c | csr_mhpmevent18_c | csr_mhpmevent19_c | csr_mhpmevent20_c |
1273 
           csr_mhpmevent21_c | csr_mhpmevent22_c | csr_mhpmevent23_c | csr_mhpmevent24_c | csr_mhpmevent25_c | csr_mhpmevent26_c |
1274 
           csr_mhpmevent27_c | csr_mhpmevent28_c | csr_mhpmevent29_c | csr_mhpmevent30_c | csr_mhpmevent31_c =>
1275 
        csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1276 15 zero_gravi 
      --
1277 42 zero_gravi 
      when csr_mcycle_c        => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1278 
      when csr_minstret_c      => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1279 
      --
1280 
      when csr_mhpmcounter3_c  | csr_mhpmcounter4_c  | csr_mhpmcounter5_c  | csr_mhpmcounter6_c  | csr_mhpmcounter7_c  | csr_mhpmcounter8_c  |
1281 
           csr_mhpmcounter9_c  | csr_mhpmcounter10_c | csr_mhpmcounter11_c | csr_mhpmcounter12_c | csr_mhpmcounter13_c | csr_mhpmcounter14_c |
1282 
           csr_mhpmcounter15_c | csr_mhpmcounter16_c | csr_mhpmcounter17_c | csr_mhpmcounter18_c | csr_mhpmcounter19_c | csr_mhpmcounter20_c |
1283 
           csr_mhpmcounter21_c | csr_mhpmcounter22_c | csr_mhpmcounter23_c | csr_mhpmcounter24_c | csr_mhpmcounter25_c | csr_mhpmcounter26_c |
1284 
           csr_mhpmcounter27_c | csr_mhpmcounter28_c | csr_mhpmcounter29_c | csr_mhpmcounter30_c | csr_mhpmcounter31_c =>
1285 
        csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1286 
      --
1287 
      when csr_mcycleh_c       => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1288 
      when csr_minstreth_c     => csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1289 
      --
1290 
      when csr_mhpmcounter3h_c  | csr_mhpmcounter4h_c  | csr_mhpmcounter5h_c  | csr_mhpmcounter6h_c  | csr_mhpmcounter7h_c  | csr_mhpmcounter8h_c  |
1291 
           csr_mhpmcounter9h_c  | csr_mhpmcounter10h_c | csr_mhpmcounter11h_c | csr_mhpmcounter12h_c | csr_mhpmcounter13h_c | csr_mhpmcounter14h_c |
1292 
           csr_mhpmcounter15h_c | csr_mhpmcounter16h_c | csr_mhpmcounter17h_c | csr_mhpmcounter18h_c | csr_mhpmcounter19h_c | csr_mhpmcounter20h_c |
1293 
           csr_mhpmcounter21h_c | csr_mhpmcounter22h_c | csr_mhpmcounter23h_c | csr_mhpmcounter24h_c | csr_mhpmcounter25h_c | csr_mhpmcounter26h_c |
1294 
           csr_mhpmcounter27h_c | csr_mhpmcounter28h_c | csr_mhpmcounter29h_c | csr_mhpmcounter30h_c | csr_mhpmcounter31h_c =>
1295 
        csr_acc_valid <= csr.priv_m_mode; -- M-mode only
1296 
 
1297 41 zero_gravi 
      -- standard read-only CSRs --
1298 42 zero_gravi 
      when csr_cycle_c         => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr.mcounteren_cy); -- M-mode, U-mode if authorized, read-only
1299 
      when csr_time_c          => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr.mcounteren_tm); -- M-mode, U-mode if authorized, read-only
1300 
      when csr_instret_c       => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr.mcounteren_ir); -- M-mode, U-mode if authorized, read-only
1301 15 zero_gravi 
      --
1302 44 zero_gravi 
      when csr_hpmcounter3_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(00)); -- M-mode, U-mode if authorized, read-only
1303 
      when csr_hpmcounter4_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(01)); -- M-mode, U-mode if authorized, read-only
1304 
      when csr_hpmcounter5_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(02)); -- M-mode, U-mode if authorized, read-only
1305 
      when csr_hpmcounter6_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(03)); -- M-mode, U-mode if authorized, read-only
1306 
      when csr_hpmcounter7_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(04)); -- M-mode, U-mode if authorized, read-only
1307 
      when csr_hpmcounter8_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(05)); -- M-mode, U-mode if authorized, read-only
1308 
      when csr_hpmcounter9_c   => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(06)); -- M-mode, U-mode if authorized, read-only
1309 
      when csr_hpmcounter10_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(07)); -- M-mode, U-mode if authorized, read-only
1310 
      when csr_hpmcounter11_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(08)); -- M-mode, U-mode if authorized, read-only
1311 
      when csr_hpmcounter12_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(09)); -- M-mode, U-mode if authorized, read-only
1312 42 zero_gravi 
      when csr_hpmcounter13_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(10)); -- M-mode, U-mode if authorized, read-only
1313 
      when csr_hpmcounter14_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(11)); -- M-mode, U-mode if authorized, read-only
1314 
      when csr_hpmcounter15_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(12)); -- M-mode, U-mode if authorized, read-only
1315 
      when csr_hpmcounter16_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(13)); -- M-mode, U-mode if authorized, read-only
1316 
      when csr_hpmcounter17_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(14)); -- M-mode, U-mode if authorized, read-only
1317 
      when csr_hpmcounter18_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(15)); -- M-mode, U-mode if authorized, read-only
1318 
      when csr_hpmcounter19_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(16)); -- M-mode, U-mode if authorized, read-only
1319 
      when csr_hpmcounter20_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(17)); -- M-mode, U-mode if authorized, read-only
1320 
      when csr_hpmcounter21_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(18)); -- M-mode, U-mode if authorized, read-only
1321 
      when csr_hpmcounter22_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(19)); -- M-mode, U-mode if authorized, read-only
1322 
      when csr_hpmcounter23_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(20)); -- M-mode, U-mode if authorized, read-only
1323 
      when csr_hpmcounter24_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(21)); -- M-mode, U-mode if authorized, read-only
1324 
      when csr_hpmcounter25_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(22)); -- M-mode, U-mode if authorized, read-only
1325 
      when csr_hpmcounter26_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(23)); -- M-mode, U-mode if authorized, read-only
1326 
      when csr_hpmcounter27_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(24)); -- M-mode, U-mode if authorized, read-only
1327 
      when csr_hpmcounter28_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(25)); -- M-mode, U-mode if authorized, read-only
1328 
      when csr_hpmcounter29_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(26)); -- M-mode, U-mode if authorized, read-only
1329 
      when csr_hpmcounter30_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(27)); -- M-mode, U-mode if authorized, read-only
1330 
      when csr_hpmcounter31_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(28)); -- M-mode, U-mode if authorized, read-only
1331 22 zero_gravi 
      --
1332 42 zero_gravi 
      when csr_cycleh_c        => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr.mcounteren_cy); -- M-mode, U-mode if authorized, read-only
1333 
      when csr_timeh_c         => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr.mcounteren_tm); -- M-mode, U-mode if authorized, read-only
1334 
      when csr_instreth_c      => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr.mcounteren_ir); -- M-mode, U-mode if authorized, read-only
1335 
      --
1336 44 zero_gravi 
      when csr_hpmcounter3h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(00)); -- M-mode, U-mode if authorized, read-only
1337 
      when csr_hpmcounter4h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(01)); -- M-mode, U-mode if authorized, read-only
1338 
      when csr_hpmcounter5h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(02)); -- M-mode, U-mode if authorized, read-only
1339 
      when csr_hpmcounter6h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(03)); -- M-mode, U-mode if authorized, read-only
1340 
      when csr_hpmcounter7h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(04)); -- M-mode, U-mode if authorized, read-only
1341 
      when csr_hpmcounter8h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(05)); -- M-mode, U-mode if authorized, read-only
1342 
      when csr_hpmcounter9h_c  => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(06)); -- M-mode, U-mode if authorized, read-only
1343 
      when csr_hpmcounter10h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(07)); -- M-mode, U-mode if authorized, read-only
1344 
      when csr_hpmcounter11h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(08)); -- M-mode, U-mode if authorized, read-only
1345 
      when csr_hpmcounter12h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(09)); -- M-mode, U-mode if authorized, read-only
1346 42 zero_gravi 
      when csr_hpmcounter13h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(10)); -- M-mode, U-mode if authorized, read-only
1347 
      when csr_hpmcounter14h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(11)); -- M-mode, U-mode if authorized, read-only
1348 
      when csr_hpmcounter15h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(12)); -- M-mode, U-mode if authorized, read-only
1349 
      when csr_hpmcounter16h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(13)); -- M-mode, U-mode if authorized, read-only
1350 
      when csr_hpmcounter17h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(14)); -- M-mode, U-mode if authorized, read-only
1351 
      when csr_hpmcounter18h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(15)); -- M-mode, U-mode if authorized, read-only
1352 
      when csr_hpmcounter19h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(16)); -- M-mode, U-mode if authorized, read-only
1353 
      when csr_hpmcounter20h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(17)); -- M-mode, U-mode if authorized, read-only
1354 
      when csr_hpmcounter21h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(18)); -- M-mode, U-mode if authorized, read-only
1355 
      when csr_hpmcounter22h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(19)); -- M-mode, U-mode if authorized, read-only
1356 
      when csr_hpmcounter23h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(20)); -- M-mode, U-mode if authorized, read-only
1357 
      when csr_hpmcounter24h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(21)); -- M-mode, U-mode if authorized, read-only
1358 
      when csr_hpmcounter25h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(22)); -- M-mode, U-mode if authorized, read-only
1359 
      when csr_hpmcounter26h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(23)); -- M-mode, U-mode if authorized, read-only
1360 
      when csr_hpmcounter27h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(24)); -- M-mode, U-mode if authorized, read-only
1361 
      when csr_hpmcounter28h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(25)); -- M-mode, U-mode if authorized, read-only
1362 
      when csr_hpmcounter29h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(26)); -- M-mode, U-mode if authorized, read-only
1363 
      when csr_hpmcounter30h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(27)); -- M-mode, U-mode if authorized, read-only
1364 
      when csr_hpmcounter31h_c => csr_acc_valid <= (not csr_wacc_v) and (csr.priv_m_mode or csr_mcounteren_hpm_v(28)); -- M-mode, U-mode if authorized, read-only
1365 
      --
1366 
      when csr_mvendorid_c     => csr_acc_valid <= (not csr_wacc_v) and csr.priv_m_mode; -- M-mode only, read-only
1367 
      when csr_marchid_c       => csr_acc_valid <= (not csr_wacc_v) and csr.priv_m_mode; -- M-mode only, read-only
1368 
      when csr_mimpid_c        => csr_acc_valid <= (not csr_wacc_v) and csr.priv_m_mode; -- M-mode only, read-only
1369 
      when csr_mhartid_c       => csr_acc_valid <= (not csr_wacc_v) and csr.priv_m_mode; -- M-mode only, read-only
1370 41 zero_gravi 
      -- custom read-only CSRs --
1371 42 zero_gravi 
      when csr_mzext_c         => csr_acc_valid <= (not csr_wacc_v) and csr.priv_m_mode; -- M-mode only, read-only
1372 29 zero_gravi 
      --
1373 42 zero_gravi 
      when others              => csr_acc_valid <= '0'; -- invalid access
1374 15 zero_gravi 
    end case;
1375 49 zero_gravi 
  end process csr_access_check;
1376 15 zero_gravi 
 
1377 
 
1378 2 zero_gravi 
  -- Illegal Instruction Check --------------------------------------------------------------
1379 
  -- -------------------------------------------------------------------------------------------
1380 44 zero_gravi 
  illegal_instruction_check: process(execute_engine, decode_aux, csr_acc_valid)
1381 36 zero_gravi 
    variable opcode_v : std_ulogic_vector(6 downto 0);
1382 2 zero_gravi 
  begin
1383 11 zero_gravi 
    -- illegal instructions are checked in the EXECUTE stage
1384 36 zero_gravi 
    -- the execute engine should not commit any illegal instruction
1385 6 zero_gravi 
    if (execute_engine.state = EXECUTE) then
1386 2 zero_gravi 
      -- defaults --
1387 
      illegal_instruction <= '0';
1388 
      illegal_register    <= '0';
1389 
 
1390 36 zero_gravi 
      -- check opcode for rv32 --
1391 
      if (execute_engine.i_reg(instr_opcode_lsb_c+1 downto instr_opcode_lsb_c) = "11") then
1392 
        illegal_opcode_lsbs <= '0';
1393 
      else
1394 
        illegal_opcode_lsbs <= '1';
1395 
      end if;
1396 
 
1397 2 zero_gravi 
      -- check instructions --
1398 36 zero_gravi 
      opcode_v := execute_engine.i_reg(instr_opcode_msb_c downto instr_opcode_lsb_c+2) & "11";
1399 
      case opcode_v is
1400 2 zero_gravi 
 
1401 44 zero_gravi 
        -- check sufficient LUI, UIPC, JAL (only check actual OPCODE) --
1402 2 zero_gravi 
        when opcode_lui_c | opcode_auipc_c | opcode_jal_c =>
1403 
          illegal_instruction <= '0';
1404 23 zero_gravi 
          -- illegal E-CPU register? --
1405 
          if (CPU_EXTENSION_RISCV_E = true) and (execute_engine.i_reg(instr_rd_msb_c) = '1') then
1406 
            illegal_register <= '1';
1407 
          end if;
1408 2 zero_gravi 
 
1409 44 zero_gravi 
        when opcode_alu_c => -- check ALU.funct3 & ALU.funct7
1410 
          if (execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) = "0000001") then -- MULDIV
1411 
            if (CPU_EXTENSION_RISCV_M = false) then -- not implemented
1412 
              illegal_instruction <= '1';
1413 
            end if;
1414 
          elsif (decode_aux.is_bitmanip_reg = '1') then -- bit manipulation
1415 
            if (CPU_EXTENSION_RISCV_B = false) then -- not implemented
1416 
              illegal_instruction <= '1';
1417 
            end if;
1418 
          elsif ((execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_subadd_c) or
1419 
                 (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sr_c)) and -- ADD/SUB or SRA/SRL check
1420 
                ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) /= "0000000") and
1421 
                 (execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) /= "0100000")) then -- ADD/SUB or SRA/SRL select
1422 
            illegal_instruction <= '1';
1423 
          else
1424 
            illegal_instruction <= '0';
1425 
          end if;
1426 
          -- illegal E-CPU register? --
1427 
          if (CPU_EXTENSION_RISCV_E = true) and
1428 
             ((execute_engine.i_reg(instr_rs2_msb_c) = '1') or (execute_engine.i_reg(instr_rs1_msb_c) = '1') or (execute_engine.i_reg(instr_rd_msb_c) = '1')) then
1429 
            illegal_register <= '1';
1430 
          end if;
1431 
 
1432 
        when opcode_alui_c => -- check ALUI.funct7
1433 
          if (decode_aux.is_bitmanip_imm = '1') then -- bit manipulation
1434 
            if (CPU_EXTENSION_RISCV_B = false) then -- not implemented
1435 
              illegal_instruction <= '1';
1436 
            end if;
1437 
          elsif ((execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sll_c) and
1438 6 zero_gravi 
              (execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) /= "0000000")) or -- shift logical left
1439 
             ((execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sr_c) and
1440 
              ((execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) /= "0000000") and
1441 
               (execute_engine.i_reg(instr_funct7_msb_c downto instr_funct7_lsb_c) /= "0100000"))) then -- shift right
1442 2 zero_gravi 
            illegal_instruction <= '1';
1443 
          else
1444 
            illegal_instruction <= '0';
1445 
          end if;
1446 23 zero_gravi 
          -- illegal E-CPU register? --
1447 
          if (CPU_EXTENSION_RISCV_E = true) and ((execute_engine.i_reg(instr_rs1_msb_c) = '1') or (execute_engine.i_reg(instr_rd_msb_c) = '1')) then
1448 
            illegal_register <= '1';
1449 
          end if;
1450 39 zero_gravi 
 
1451 44 zero_gravi 
        when opcode_load_c => -- check LOAD.funct3
1452 6 zero_gravi 
          if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_lb_c) or
1453 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_lh_c) or
1454 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_lw_c) or
1455 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_lbu_c) or
1456 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_lhu_c) then
1457 2 zero_gravi 
            illegal_instruction <= '0';
1458 
          else
1459 
            illegal_instruction <= '1';
1460 
          end if;
1461 23 zero_gravi 
          -- illegal E-CPU register? --
1462 
          if (CPU_EXTENSION_RISCV_E = true) and ((execute_engine.i_reg(instr_rs1_msb_c) = '1') or (execute_engine.i_reg(instr_rd_msb_c) = '1')) then
1463 
            illegal_register <= '1';
1464 
          end if;
1465 39 zero_gravi 
 
1466 44 zero_gravi 
        when opcode_store_c => -- check STORE.funct3
1467 6 zero_gravi 
          if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sb_c) or
1468 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sh_c) or
1469 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_sw_c) then
1470 2 zero_gravi 
            illegal_instruction <= '0';
1471 
          else
1472 
            illegal_instruction <= '1';
1473 
          end if;
1474 23 zero_gravi 
          -- illegal E-CPU register? --
1475 
          if (CPU_EXTENSION_RISCV_E = true) and ((execute_engine.i_reg(instr_rs2_msb_c) = '1') or (execute_engine.i_reg(instr_rs1_msb_c) = '1')) then
1476 
            illegal_register <= '1';
1477 
          end if;
1478 2 zero_gravi 
 
1479 44 zero_gravi 
        when opcode_branch_c => -- check BRANCH.funct3
1480 6 zero_gravi 
          if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_beq_c) or
1481 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_bne_c) or
1482 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_blt_c) or
1483 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_bge_c) or
1484 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_bltu_c) or
1485 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_bgeu_c) then
1486 2 zero_gravi 
            illegal_instruction <= '0';
1487 
          else
1488 
            illegal_instruction <= '1';
1489 
          end if;
1490 23 zero_gravi 
          -- illegal E-CPU register? --
1491 
          if (CPU_EXTENSION_RISCV_E = true) and ((execute_engine.i_reg(instr_rs2_msb_c) = '1') or (execute_engine.i_reg(instr_rs1_msb_c) = '1')) then
1492 
            illegal_register <= '1';
1493 
          end if;
1494 2 zero_gravi 
 
1495 44 zero_gravi 
        when opcode_jalr_c => -- check JALR.funct3
1496 6 zero_gravi 
          if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = "000") then
1497 2 zero_gravi 
            illegal_instruction <= '0';
1498 
          else
1499 
            illegal_instruction <= '1';
1500 
          end if;
1501 23 zero_gravi 
          -- illegal E-CPU register? --
1502 
          if (CPU_EXTENSION_RISCV_E = true) and ((execute_engine.i_reg(instr_rs1_msb_c) = '1') or (execute_engine.i_reg(instr_rd_msb_c) = '1')) then
1503 
            illegal_register <= '1';
1504 
          end if;
1505 2 zero_gravi 
 
1506 8 zero_gravi 
        when opcode_fence_c => -- fence instructions --
1507 
          if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_fencei_c) and (CPU_EXTENSION_RISCV_Zifencei = true) then -- FENCE.I
1508 
            illegal_instruction <= '0';
1509 
          elsif (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_fence_c) then -- FENCE
1510 
            illegal_instruction <= '0';
1511 
          else
1512 
            illegal_instruction <= '1';
1513 
          end if;
1514 
 
1515 2 zero_gravi 
        when opcode_syscsr_c => -- check system instructions --
1516 
          -- CSR access --
1517 6 zero_gravi 
          if (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrw_c) or
1518 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrs_c) or
1519 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrc_c) or
1520 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrwi_c) or
1521 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrsi_c) or
1522 
             (execute_engine.i_reg(instr_funct3_msb_c downto instr_funct3_lsb_c) = funct3_csrrci_c) then
1523 15 zero_gravi 
            -- valid CSR access? --
1524 
            if (csr_acc_valid = '1') then
1525 2 zero_gravi 
              illegal_instruction <= '0';
1526 
            else
1527 
              illegal_instruction <= '1';
1528 
            end if;
1529 23 zero_gravi 
            -- illegal E-CPU register? --
1530 
            if (CPU_EXTENSION_RISCV_E = true) then
1531 
              if (execute_engine.i_reg(instr_funct3_msb_c) = '0') then -- reg-reg CSR
1532 
                illegal_register <= execute_engine.i_reg(instr_rs1_msb_c) or execute_engine.i_reg(instr_rd_msb_c);
1533 
              else -- reg-imm CSR
1534 
                illegal_register <= execute_engine.i_reg(instr_rd_msb_c);
1535 
              end if;
1536 
            end if;
1537 2 zero_gravi 
 
1538 
          -- ecall, ebreak, mret, wfi --
1539 6 zero_gravi 
          elsif (execute_engine.i_reg(instr_rd_msb_c  downto instr_rd_lsb_c)  = "00000") and
1540 
                (execute_engine.i_reg(instr_rs1_msb_c downto instr_rs1_lsb_c) = "00000") then
1541 13 zero_gravi 
            if (execute_engine.i_reg(instr_funct12_msb_c  downto instr_funct12_lsb_c) = funct12_ecall_c)  or -- ECALL
1542 11 zero_gravi 
               (execute_engine.i_reg(instr_funct12_msb_c  downto instr_funct12_lsb_c) = funct12_ebreak_c) or -- EBREAK
1543 13 zero_gravi 
               (execute_engine.i_reg(instr_funct12_msb_c  downto instr_funct12_lsb_c) = funct12_mret_c)   or -- MRET
1544 
               (execute_engine.i_reg(instr_funct12_msb_c  downto instr_funct12_lsb_c) = funct12_wfi_c) then  -- WFI
1545 2 zero_gravi 
              illegal_instruction <= '0';
1546 
            else
1547 
              illegal_instruction <= '1';
1548 
            end if;
1549 
          else
1550 
            illegal_instruction <= '1';
1551 
          end if;
1552 
 
1553 39 zero_gravi 
        when opcode_atomic_c => -- atomic instructions --
1554 
          if (CPU_EXTENSION_RISCV_A = true) and -- atomic memory operations (A extension) enabled
1555 
             ((execute_engine.i_reg(instr_funct5_msb_c downto instr_funct5_lsb_c) = funct5_a_lr_c) or -- LR
1556 
              (execute_engine.i_reg(instr_funct5_msb_c downto instr_funct5_lsb_c) = funct5_a_sc_c)) then -- SC
1557 
            illegal_instruction <= '0';
1558 
          else
1559 
            illegal_instruction <= '1';
1560 
          end if;
1561 
 
1562 36 zero_gravi 
        when others => -- undefined instruction -> illegal!
1563 
          illegal_instruction <= '1';
1564 2 zero_gravi 
 
1565 
      end case;
1566 
    else
1567 36 zero_gravi 
      illegal_opcode_lsbs <= '0';
1568 2 zero_gravi 
      illegal_instruction <= '0';
1569 
      illegal_register    <= '0';
1570 
    end if;
1571 
  end process illegal_instruction_check;
1572 
 
1573 
  -- any illegal condition? --
1574 36 zero_gravi 
  trap_ctrl.instr_il <= illegal_instruction or illegal_opcode_lsbs or illegal_register or illegal_compressed;
1575 2 zero_gravi 
 
1576 
 
1577 6 zero_gravi 
-- ****************************************************************************************************************************
1578 38 zero_gravi 
-- Exception and Interrupt (= Trap) Control
1579 6 zero_gravi 
-- ****************************************************************************************************************************
1580 2 zero_gravi 
 
1581 
 
1582 6 zero_gravi 
  -- Trap Controller ------------------------------------------------------------------------
1583 2 zero_gravi 
  -- -------------------------------------------------------------------------------------------
1584 6 zero_gravi 
  trap_controller: process(rstn_i, clk_i)
1585 40 zero_gravi 
    variable mode_m_v, mode_u_v : std_ulogic;
1586 2 zero_gravi 
  begin
1587 
    if (rstn_i = '0') then
1588 6 zero_gravi 
      trap_ctrl.exc_buf   <= (others => '0');
1589 
      trap_ctrl.irq_buf   <= (others => '0');
1590 
      trap_ctrl.exc_ack   <= '0';
1591 
      trap_ctrl.irq_ack   <= (others => '0');
1592 47 zero_gravi 
      trap_ctrl.env_start <= '0';
1593 40 zero_gravi 
      trap_ctrl.cause     <= trap_reset_c;
1594 47 zero_gravi 
      trap_ctrl.firq_sync <= (others => '0');
1595 2 zero_gravi 
    elsif rising_edge(clk_i) then
1596 
      if (CPU_EXTENSION_RISCV_Zicsr = true) then
1597 
        -- exception buffer: misaligned load/store/instruction address
1598 40 zero_gravi 
        trap_ctrl.exc_buf(exception_lalign_c)    <= (trap_ctrl.exc_buf(exception_lalign_c)    or ma_load_i)          and (not trap_ctrl.exc_ack);
1599 
        trap_ctrl.exc_buf(exception_salign_c)    <= (trap_ctrl.exc_buf(exception_salign_c)    or ma_store_i)         and (not trap_ctrl.exc_ack);
1600 
        trap_ctrl.exc_buf(exception_ialign_c)    <= (trap_ctrl.exc_buf(exception_ialign_c)    or trap_ctrl.instr_ma) and (not trap_ctrl.exc_ack);
1601 2 zero_gravi 
        -- exception buffer: load/store/instruction bus access error
1602 40 zero_gravi 
        trap_ctrl.exc_buf(exception_laccess_c)   <= (trap_ctrl.exc_buf(exception_laccess_c)   or be_load_i)          and (not trap_ctrl.exc_ack);
1603 
        trap_ctrl.exc_buf(exception_saccess_c)   <= (trap_ctrl.exc_buf(exception_saccess_c)   or be_store_i)         and (not trap_ctrl.exc_ack);
1604 
        trap_ctrl.exc_buf(exception_iaccess_c)   <= (trap_ctrl.exc_buf(exception_iaccess_c)   or trap_ctrl.instr_be) and (not trap_ctrl.exc_ack);
1605 2 zero_gravi 
        -- exception buffer: illegal instruction / env call / break point
1606 40 zero_gravi 
        trap_ctrl.exc_buf(exception_m_envcall_c) <= (trap_ctrl.exc_buf(exception_m_envcall_c) or (trap_ctrl.env_call and csr.priv_m_mode)) and (not trap_ctrl.exc_ack);
1607 
        trap_ctrl.exc_buf(exception_u_envcall_c) <= (trap_ctrl.exc_buf(exception_u_envcall_c) or (trap_ctrl.env_call and csr.priv_u_mode)) and (not trap_ctrl.exc_ack);
1608 
        trap_ctrl.exc_buf(exception_break_c)     <= (trap_ctrl.exc_buf(exception_break_c)     or trap_ctrl.break_point)                    and (not trap_ctrl.exc_ack);
1609 
        trap_ctrl.exc_buf(exception_iillegal_c)  <= (trap_ctrl.exc_buf(exception_iillegal_c)  or trap_ctrl.instr_il)                       and (not trap_ctrl.exc_ack);
1610 18 zero_gravi 
        -- interrupt buffer: machine software/external/timer interrupt
1611 40 zero_gravi 
        trap_ctrl.irq_buf(interrupt_msw_irq_c)   <= csr.mie_msie and (trap_ctrl.irq_buf(interrupt_msw_irq_c)   or msw_irq_i)   and (not (trap_ctrl.irq_ack(interrupt_msw_irq_c)   or csr.mip_clear(interrupt_msw_irq_c)));
1612 
        trap_ctrl.irq_buf(interrupt_mext_irq_c)  <= csr.mie_meie and (trap_ctrl.irq_buf(interrupt_mext_irq_c)  or mext_irq_i)  and (not (trap_ctrl.irq_ack(interrupt_mext_irq_c)  or csr.mip_clear(interrupt_mext_irq_c)));
1613 
        trap_ctrl.irq_buf(interrupt_mtime_irq_c) <= csr.mie_mtie and (trap_ctrl.irq_buf(interrupt_mtime_irq_c) or mtime_irq_i) and (not (trap_ctrl.irq_ack(interrupt_mtime_irq_c) or csr.mip_clear(interrupt_mtime_irq_c)));
1614 48 zero_gravi 
        -- interrupt buffer: NEORV32-specific fast interrupts
1615 47 zero_gravi 
        trap_ctrl.firq_sync <= firq_i;
1616 48 zero_gravi 
        for i in 0 to 15 loop
1617 
          trap_ctrl.irq_buf(interrupt_firq_0_c+i) <= csr.mie_firqe(i) and (trap_ctrl.irq_buf(interrupt_firq_0_c+i) or trap_ctrl.firq_sync(i)) and (not (trap_ctrl.irq_ack(interrupt_firq_0_c+i) or csr.mip_clear(interrupt_firq_0_c+i)));
1618 
        end loop;
1619 6 zero_gravi 
        -- trap control --
1620 
        if (trap_ctrl.env_start = '0') then -- no started trap handler
1621 49 zero_gravi 
          if (trap_ctrl.exc_fire = '1') or ((trap_ctrl.irq_fire = '1') and -- trap triggered!
1622 
             ((execute_engine.state = EXECUTE) or (execute_engine.state = TRAP_ENTER))) then -- fire IRQs in EXECUTE or TRAP state only to continue execution even on permanent IRQ
1623 13 zero_gravi 
            trap_ctrl.cause     <= trap_ctrl.cause_nxt;   -- capture source ID for program (for mcause csr)
1624 7 zero_gravi 
            trap_ctrl.exc_ack   <= '1';                   -- clear execption
1625 42 zero_gravi 
            trap_ctrl.irq_ack   <= trap_ctrl.irq_ack_nxt; -- clear interrupt with interrupt ACK mask
1626 13 zero_gravi 
            trap_ctrl.env_start <= '1';                   -- now execute engine can start trap handler
1627 2 zero_gravi 
          end if;
1628 6 zero_gravi 
        else -- trap waiting to get started
1629 
          if (trap_ctrl.env_start_ack = '1') then -- start of trap handler acknowledged by execution engine
1630 
            trap_ctrl.exc_ack   <= '0';
1631 
            trap_ctrl.irq_ack   <= (others => '0');
1632 
            trap_ctrl.env_start <= '0';
1633 2 zero_gravi 
          end if;
1634 
        end if;
1635 
      end if;
1636 
    end if;
1637 6 zero_gravi 
  end process trap_controller;
1638 2 zero_gravi 
 
1639 
  -- any exception/interrupt? --
1640 27 zero_gravi 
  trap_ctrl.exc_fire <= or_all_f(trap_ctrl.exc_buf); -- exceptions/faults CANNOT be masked
1641 
  trap_ctrl.irq_fire <= or_all_f(trap_ctrl.irq_buf) and csr.mstatus_mie; -- interrupts CAN be masked
1642 2 zero_gravi 
 
1643 40 zero_gravi 
  -- current pending interrupts (for CSR.MIP register) --
1644 
  csr.mip_status <= trap_ctrl.irq_buf;
1645 2 zero_gravi 
 
1646 47 zero_gravi 
  -- acknowledge mask output --
1647 48 zero_gravi 
  firq_ack_o <= trap_ctrl.irq_ack(interrupt_firq_15_c downto interrupt_firq_0_c);
1648 40 zero_gravi 
 
1649 47 zero_gravi 
 
1650 42 zero_gravi 
  -- Trap Priority Encoder ------------------------------------------------------------------
1651 6 zero_gravi 
  -- -------------------------------------------------------------------------------------------
1652 
  trap_priority: process(trap_ctrl)
1653 2 zero_gravi 
  begin
1654 
    -- defaults --
1655 6 zero_gravi 
    trap_ctrl.cause_nxt   <= (others => '0');
1656 
    trap_ctrl.irq_ack_nxt <= (others => '0');
1657 2 zero_gravi 
 
1658 38 zero_gravi 
    -- the following traps are caused by *asynchronous* exceptions (= interrupts)
1659 12 zero_gravi 
    -- here we do need a specific acknowledge mask since several sources can trigger at once
1660 9 zero_gravi 
 
1661 2 zero_gravi 
    -- interrupt: 1.11 machine external interrupt --
1662 6 zero_gravi 
    if (trap_ctrl.irq_buf(interrupt_mext_irq_c) = '1') then
1663 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_mei_c;
1664 6 zero_gravi 
      trap_ctrl.irq_ack_nxt(interrupt_mext_irq_c) <= '1';
1665 2 zero_gravi 
 
1666 40 zero_gravi 
    -- interrupt: 1.3 machine SW interrupt --
1667 
    elsif (trap_ctrl.irq_buf(interrupt_msw_irq_c) = '1') then
1668 
      trap_ctrl.cause_nxt <= trap_msi_c;
1669 
      trap_ctrl.irq_ack_nxt(interrupt_msw_irq_c) <= '1';
1670 
 
1671 2 zero_gravi 
    -- interrupt: 1.7 machine timer interrupt --
1672 6 zero_gravi 
    elsif (trap_ctrl.irq_buf(interrupt_mtime_irq_c) = '1') then
1673 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_mti_c;
1674 6 zero_gravi 
      trap_ctrl.irq_ack_nxt(interrupt_mtime_irq_c) <= '1';
1675 2 zero_gravi 
 
1676 
 
1677 14 zero_gravi 
    -- interrupt: 1.16 fast interrupt channel 0 --
1678 
    elsif (trap_ctrl.irq_buf(interrupt_firq_0_c) = '1') then
1679 
      trap_ctrl.cause_nxt <= trap_firq0_c;
1680 
      trap_ctrl.irq_ack_nxt(interrupt_firq_0_c) <= '1';
1681 
 
1682 
    -- interrupt: 1.17 fast interrupt channel 1 --
1683 
    elsif (trap_ctrl.irq_buf(interrupt_firq_1_c) = '1') then
1684 
      trap_ctrl.cause_nxt <= trap_firq1_c;
1685 
      trap_ctrl.irq_ack_nxt(interrupt_firq_1_c) <= '1';
1686 
 
1687 
    -- interrupt: 1.18 fast interrupt channel 2 --
1688 
    elsif (trap_ctrl.irq_buf(interrupt_firq_2_c) = '1') then
1689 
      trap_ctrl.cause_nxt <= trap_firq2_c;
1690 
      trap_ctrl.irq_ack_nxt(interrupt_firq_2_c) <= '1';
1691 
 
1692 
    -- interrupt: 1.19 fast interrupt channel 3 --
1693 
    elsif (trap_ctrl.irq_buf(interrupt_firq_3_c) = '1') then
1694 
      trap_ctrl.cause_nxt <= trap_firq3_c;
1695 
      trap_ctrl.irq_ack_nxt(interrupt_firq_3_c) <= '1';
1696 
 
1697 47 zero_gravi 
    -- interrupt: 1.20 fast interrupt channel 4 --
1698 
    elsif (trap_ctrl.irq_buf(interrupt_firq_4_c) = '1') then
1699 
      trap_ctrl.cause_nxt <= trap_firq4_c;
1700 
      trap_ctrl.irq_ack_nxt(interrupt_firq_4_c) <= '1';
1701 14 zero_gravi 
 
1702 47 zero_gravi 
    -- interrupt: 1.21 fast interrupt channel 5 --
1703 
    elsif (trap_ctrl.irq_buf(interrupt_firq_5_c) = '1') then
1704 
      trap_ctrl.cause_nxt <= trap_firq5_c;
1705 
      trap_ctrl.irq_ack_nxt(interrupt_firq_5_c) <= '1';
1706 
 
1707 
    -- interrupt: 1.22 fast interrupt channel 6 --
1708 
    elsif (trap_ctrl.irq_buf(interrupt_firq_6_c) = '1') then
1709 
      trap_ctrl.cause_nxt <= trap_firq6_c;
1710 
      trap_ctrl.irq_ack_nxt(interrupt_firq_6_c) <= '1';
1711 
 
1712 
    -- interrupt: 1.23 fast interrupt channel 7 --
1713 
    elsif (trap_ctrl.irq_buf(interrupt_firq_7_c) = '1') then
1714 
      trap_ctrl.cause_nxt <= trap_firq7_c;
1715 
      trap_ctrl.irq_ack_nxt(interrupt_firq_7_c) <= '1';
1716 
 
1717 48 zero_gravi 
    -- interrupt: 1.24 fast interrupt channel 8 --
1718 
    elsif (trap_ctrl.irq_buf(interrupt_firq_8_c) = '1') then
1719 
      trap_ctrl.cause_nxt <= trap_firq8_c;
1720 
      trap_ctrl.irq_ack_nxt(interrupt_firq_8_c) <= '1';
1721 47 zero_gravi 
 
1722 48 zero_gravi 
    -- interrupt: 1.25 fast interrupt channel 9 --
1723 
    elsif (trap_ctrl.irq_buf(interrupt_firq_9_c) = '1') then
1724 
      trap_ctrl.cause_nxt <= trap_firq9_c;
1725 
      trap_ctrl.irq_ack_nxt(interrupt_firq_9_c) <= '1';
1726 
 
1727 
    -- interrupt: 1.26 fast interrupt channel 10 --
1728 
    elsif (trap_ctrl.irq_buf(interrupt_firq_10_c) = '1') then
1729 
      trap_ctrl.cause_nxt <= trap_firq10_c;
1730 
      trap_ctrl.irq_ack_nxt(interrupt_firq_10_c) <= '1';
1731 
 
1732 
    -- interrupt: 1.27 fast interrupt channel 11 --
1733 
    elsif (trap_ctrl.irq_buf(interrupt_firq_11_c) = '1') then
1734 
      trap_ctrl.cause_nxt <= trap_firq11_c;
1735 
      trap_ctrl.irq_ack_nxt(interrupt_firq_11_c) <= '1';
1736 
 
1737 
    -- interrupt: 1.28 fast interrupt channel 12 --
1738 
    elsif (trap_ctrl.irq_buf(interrupt_firq_12_c) = '1') then
1739 
      trap_ctrl.cause_nxt <= trap_firq12_c;
1740 
      trap_ctrl.irq_ack_nxt(interrupt_firq_12_c) <= '1';
1741 
 
1742 
    -- interrupt: 1.29 fast interrupt channel 13 --
1743 
    elsif (trap_ctrl.irq_buf(interrupt_firq_13_c) = '1') then
1744 
      trap_ctrl.cause_nxt <= trap_firq13_c;
1745 
      trap_ctrl.irq_ack_nxt(interrupt_firq_13_c) <= '1';
1746 
 
1747 
    -- interrupt: 1.30 fast interrupt channel 14 --
1748 
    elsif (trap_ctrl.irq_buf(interrupt_firq_14_c) = '1') then
1749 
      trap_ctrl.cause_nxt <= trap_firq14_c;
1750 
      trap_ctrl.irq_ack_nxt(interrupt_firq_14_c) <= '1';
1751 
 
1752 
    -- interrupt: 1.31 fast interrupt channel 15 --
1753 
    elsif (trap_ctrl.irq_buf(interrupt_firq_15_c) = '1') then
1754 
      trap_ctrl.cause_nxt <= trap_firq15_c;
1755 
      trap_ctrl.irq_ack_nxt(interrupt_firq_15_c) <= '1';
1756 
 
1757 
 
1758 42 zero_gravi 
    -- the following traps are caused by *synchronous* exceptions (= 'classic' exceptions)
1759 12 zero_gravi 
    -- here we do not need a specific acknowledge mask since only one exception (the one
1760 38 zero_gravi 
    -- with highest priority) is evaluated at once
1761 4 zero_gravi 
 
1762 38 zero_gravi 
    -- exception: 0.1 instruction access fault --
1763 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_iaccess_c) = '1') then
1764 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_iba_c;
1765 2 zero_gravi 
 
1766 38 zero_gravi 
    -- exception: 0.2 illegal instruction --
1767 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_iillegal_c) = '1') then
1768 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_iil_c;
1769 2 zero_gravi 
 
1770 38 zero_gravi 
    -- exception: 0.0 instruction address misaligned --
1771 12 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_ialign_c) = '1') then
1772 
      trap_ctrl.cause_nxt <= trap_ima_c;
1773 2 zero_gravi 
 
1774 12 zero_gravi 
 
1775 38 zero_gravi 
    -- exception: 0.11 environment call from M-mode --
1776 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_m_envcall_c) = '1') then
1777 14 zero_gravi 
      trap_ctrl.cause_nxt <= trap_menv_c;
1778 2 zero_gravi 
 
1779 40 zero_gravi 
    -- exception: 0.8 environment call from U-mode --
1780 
    elsif (trap_ctrl.exc_buf(exception_u_envcall_c) = '1') then
1781 
      trap_ctrl.cause_nxt <= trap_uenv_c;
1782 
 
1783 38 zero_gravi 
    -- exception: 0.3 breakpoint --
1784 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_break_c) = '1') then
1785 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_brk_c;
1786 2 zero_gravi 
 
1787 
 
1788 38 zero_gravi 
    -- exception: 0.6 store address misaligned -
1789 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_salign_c) = '1') then
1790 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_sma_c;
1791 2 zero_gravi 
 
1792 38 zero_gravi 
    -- exception: 0.4 load address misaligned --
1793 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_lalign_c) = '1') then
1794 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_lma_c;
1795 2 zero_gravi 
 
1796 38 zero_gravi 
    -- exception: 0.7 store access fault --
1797 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_saccess_c) = '1') then
1798 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_sbe_c;
1799 2 zero_gravi 
 
1800 38 zero_gravi 
    -- exception: 0.5 load access fault --
1801 6 zero_gravi 
    elsif (trap_ctrl.exc_buf(exception_laccess_c) = '1') then
1802 12 zero_gravi 
      trap_ctrl.cause_nxt <= trap_lbe_c;
1803 2 zero_gravi 
 
1804 42 zero_gravi 
    -- not implemented --
1805 2 zero_gravi 
    else
1806 6 zero_gravi 
      trap_ctrl.cause_nxt   <= (others => '0');
1807 
      trap_ctrl.irq_ack_nxt <= (others => '0');
1808 2 zero_gravi 
    end if;
1809 6 zero_gravi 
  end process trap_priority;
1810 39 zero_gravi 
 
1811 
 
1812 49 zero_gravi 
  -- Atomic Memory Access - Status Controller -----------------------------------------------
1813 39 zero_gravi 
  -- -------------------------------------------------------------------------------------------
1814 49 zero_gravi 
  atomic_memacc_controller: process(rstn_i, clk_i)
1815 39 zero_gravi 
  begin
1816 
    if (rstn_i = '0') then
1817 
      atomic_ctrl.lock       <= '0';
1818 
      atomic_ctrl.env_end_ff <= '0';
1819 
    elsif rising_edge(clk_i) then
1820 
      if (CPU_EXTENSION_RISCV_A = true) then
1821 
        if (atomic_ctrl.env_end_ff = '1') or -- normal termination
1822 40 zero_gravi 
           (atomic_ctrl.env_abort = '1') or  -- fast termination (error)
1823 
           (trap_ctrl.env_start = '1') then  -- triggered trap -> failure
1824 39 zero_gravi 
          atomic_ctrl.lock <= '0';
1825 
        elsif (atomic_ctrl.env_start = '1') then
1826 
          atomic_ctrl.lock <= '1';
1827 
        end if;
1828 
        atomic_ctrl.env_end_ff <= atomic_ctrl.env_end;
1829 
      else
1830 
        atomic_ctrl.lock       <= '0';
1831 
        atomic_ctrl.env_end_ff <= '0';
1832 
      end if;
1833 
    end if;
1834 49 zero_gravi 
  end process atomic_memacc_controller;
1835 6 zero_gravi 
 
1836 2 zero_gravi 
 
1837 6 zero_gravi 
-- ****************************************************************************************************************************
1838 
-- Control and Status Registers (CSRs)
1839 
-- ****************************************************************************************************************************
1840 2 zero_gravi 
 
1841 27 zero_gravi 
  -- Control and Status Registers Write Data ------------------------------------------------
1842 
  -- -------------------------------------------------------------------------------------------
1843 36 zero_gravi 
  csr_write_data: process(execute_engine.i_reg, csr.rdata, rs1_i)
1844 
    variable csr_operand_v : std_ulogic_vector(data_width_c-1 downto 0);
1845 27 zero_gravi 
  begin
1846 36 zero_gravi 
    -- CSR operand source --
1847 
    if (execute_engine.i_reg(instr_funct3_msb_c) = '1') then -- immediate
1848 
      csr_operand_v := (others => '0');
1849 38 zero_gravi 
      csr_operand_v(4 downto 0) := execute_engine.i_reg(19 downto 15); -- uimm5
1850 36 zero_gravi 
    else -- register
1851 
      csr_operand_v := rs1_i;
1852 
    end if;
1853 40 zero_gravi 
    -- tiny ALU for CSR write operations --
1854 27 zero_gravi 
    case execute_engine.i_reg(instr_funct3_lsb_c+1 downto instr_funct3_lsb_c) is
1855 36 zero_gravi 
      when "10"   => csr.wdata <= csr.rdata or csr_operand_v; -- CSRRS(I)
1856 
      when "11"   => csr.wdata <= csr.rdata and (not csr_operand_v); -- CSRRC(I)
1857 
      when others => csr.wdata <= csr_operand_v; -- CSRRW(I)
1858 27 zero_gravi 
    end case;
1859 
  end process csr_write_data;
1860 
 
1861 
 
1862 2 zero_gravi 
  -- Control and Status Registers Write Access ----------------------------------------------
1863 
  -- -------------------------------------------------------------------------------------------
1864 
  csr_write_access: process(rstn_i, clk_i)
1865 42 zero_gravi 
    variable pmpaddr_v : std_ulogic_vector(6 downto 0);
1866 2 zero_gravi 
  begin
1867 
    if (rstn_i = '0') then
1868 40 zero_gravi 
      csr.we           <= '0';
1869 11 zero_gravi 
      --
1870 6 zero_gravi 
      csr.mstatus_mie  <= '0';
1871 
      csr.mstatus_mpie <= '0';
1872 29 zero_gravi 
      csr.mstatus_mpp  <= priv_mode_m_c; -- start in MACHINE mode
1873 
      csr.privilege    <= priv_mode_m_c; -- start in MACHINE mode
1874 6 zero_gravi 
      csr.mie_msie     <= '0';
1875 
      csr.mie_meie     <= '0';
1876 
      csr.mie_mtie     <= '0';
1877 14 zero_gravi 
      csr.mie_firqe    <= (others => '0');
1878 6 zero_gravi 
      csr.mtvec        <= (others => '0');
1879 36 zero_gravi 
      csr.mscratch     <= x"19880704"; -- :)
1880 12 zero_gravi 
      csr.mepc         <= (others => '0');
1881 49 zero_gravi 
      csr.mcause       <= trap_reset_c; -- mcause = TRAP_CODE_RESET (hardware reset, "non-maskable interrupt")
1882 40 zero_gravi 
      --
1883 49 zero_gravi 
      csr.mtval        <= (others => '0');
1884 
      csr.mip_clear    <= (others => '0');
1885 42 zero_gravi 
      --
1886 49 zero_gravi 
      csr.pmpcfg       <= (others => (others => '0'));
1887 
      csr.pmpaddr      <= (others => (others => '1'));
1888 34 zero_gravi 
      --
1889 49 zero_gravi 
      csr.mhpmevent    <= (others => (others => '0'));
1890 41 zero_gravi 
      --
1891 49 zero_gravi 
      csr.mcounteren_cy     <= '0';
1892 
      csr.mcounteren_tm     <= '0';
1893 
      csr.mcounteren_ir     <= '0';
1894 
      csr.mcounteren_hpm    <= (others => '0');
1895 42 zero_gravi 
      --
1896 
      csr.mcountinhibit_cy  <= '0';
1897 
      csr.mcountinhibit_ir  <= '0';
1898 
      csr.mcountinhibit_hpm <= (others => '0');
1899 49 zero_gravi 
 
1900 2 zero_gravi 
    elsif rising_edge(clk_i) then
1901 29 zero_gravi 
      -- write access? --
1902 
      csr.we <= csr.we_nxt;
1903 36 zero_gravi 
      if (CPU_EXTENSION_RISCV_Zicsr = true) then
1904 4 zero_gravi 
 
1905 40 zero_gravi 
        -- defaults --
1906 
        csr.mip_clear <= (others => '0');
1907 
 
1908 36 zero_gravi 
        -- --------------------------------------------------------------------------------
1909 
        -- CSR access by application software
1910 
        -- --------------------------------------------------------------------------------
1911 
        if (csr.we = '1') then -- manual update
1912 41 zero_gravi 
          case csr.addr is
1913 36 zero_gravi 
 
1914 
            -- machine trap setup --
1915 
            -- --------------------------------------------------------------------
1916 
            when csr_mstatus_c => -- R/W: mstatus - machine status register
1917 
              csr.mstatus_mie  <= csr.wdata(03);
1918 
              csr.mstatus_mpie <= csr.wdata(07);
1919 
              if (CPU_EXTENSION_RISCV_U = true) then -- user mode implemented
1920 
                csr.mstatus_mpp(0) <= csr.wdata(11) or csr.wdata(12);
1921 
                csr.mstatus_mpp(1) <= csr.wdata(11) or csr.wdata(12);
1922 40 zero_gravi 
              else -- only machine mode is available
1923 
                csr.mstatus_mpp <= priv_mode_m_c;
1924 36 zero_gravi 
              end if;
1925 41 zero_gravi 
            when csr_mie_c => -- R/W: mie - machine interrupt enable register
1926 29 zero_gravi 
              csr.mie_msie <= csr.wdata(03); -- machine SW IRQ enable
1927 
              csr.mie_mtie <= csr.wdata(07); -- machine TIMER IRQ enable
1928 
              csr.mie_meie <= csr.wdata(11); -- machine EXT IRQ enable
1929 48 zero_gravi 
              for i in 0 to 15 loop -- fast interrupt channels 0..15
1930 
                csr.mie_firqe(i) <= csr.wdata(16+i);
1931 
              end loop; -- i
1932 36 zero_gravi 
            when csr_mtvec_c => -- R/W: mtvec - machine trap-handler base address (for ALL exceptions)
1933 29 zero_gravi 
              csr.mtvec <= csr.wdata(data_width_c-1 downto 2) & "00"; -- mtvec.MODE=0
1934 41 zero_gravi 
            when csr_mcounteren_c => -- R/W: machine counter enable register
1935 42 zero_gravi 
              csr.mcounteren_cy  <= csr.wdata(0); -- enable user-level access to cycle[h]
1936 
              csr.mcounteren_tm  <= csr.wdata(1); -- enable user-level access to time[h]
1937 
              csr.mcounteren_ir  <= csr.wdata(2); -- enable user-level access to instret[h]
1938 49 zero_gravi 
              csr.mcounteren_hpm <= csr.wdata(csr.mcounteren_hpm'left+3 downto 3); -- enable user-level access to hpmcounterx[h]
1939 29 zero_gravi 
 
1940 36 zero_gravi 
            -- machine trap handling --
1941 
            -- --------------------------------------------------------------------
1942 
            when csr_mscratch_c =>  -- R/W: mscratch - machine scratch register
1943 
              csr.mscratch <= csr.wdata;
1944 
            when csr_mepc_c => -- R/W: mepc - machine exception program counter
1945 
              csr.mepc <= csr.wdata(data_width_c-1 downto 1) & '0';
1946 
            when csr_mcause_c => -- R/W: mcause - machine trap cause
1947 
              csr.mcause(csr.mcause'left) <= csr.wdata(31); -- 1: interrupt, 0: exception
1948 
              csr.mcause(4 downto 0)      <= csr.wdata(4 downto 0); -- identifier
1949 40 zero_gravi 
            when csr_mtval_c => -- R/W: mtval - machine bad address/instruction
1950 36 zero_gravi 
              csr.mtval <= csr.wdata;
1951 40 zero_gravi 
            when csr_mip_c => -- R/W: mip - machine interrupt pending
1952 
              csr.mip_clear(interrupt_msw_irq_c)   <= not csr.wdata(03);
1953 
              csr.mip_clear(interrupt_mtime_irq_c) <= not csr.wdata(07);
1954 
              csr.mip_clear(interrupt_mext_irq_c)  <= not csr.wdata(11);
1955 48 zero_gravi 
              for i in 0 to 15 loop -- fast interrupt channels 0..15
1956 
                csr.mip_clear(interrupt_firq_0_c+i) <= not csr.wdata(16+i);
1957 
              end loop; -- i
1958 29 zero_gravi 
 
1959 42 zero_gravi 
            -- physical memory protection: R/W: pmpcfg* - PMP configuration registers --
1960 36 zero_gravi 
            -- --------------------------------------------------------------------
1961 42 zero_gravi 
            when csr_pmpcfg0_c | csr_pmpcfg1_c | csr_pmpcfg2_c  | csr_pmpcfg3_c  | csr_pmpcfg4_c  | csr_pmpcfg5_c  | csr_pmpcfg6_c  | csr_pmpcfg7_c |
1962 
                 csr_pmpcfg8_c | csr_pmpcfg9_c | csr_pmpcfg10_c | csr_pmpcfg11_c | csr_pmpcfg12_c | csr_pmpcfg13_c | csr_pmpcfg14_c | csr_pmpcfg15_c =>
1963 49 zero_gravi 
              if (PMP_NUM_REGIONS > 0) then
1964 
                for i in 0 to PMP_NUM_REGIONS-1 loop
1965 
                  if (csr.addr(3 downto 0) = std_ulogic_vector(to_unsigned(i, 4))) then
1966 
                    if (csr.pmpcfg(i)(7) = '0') then -- unlocked pmpcfg access
1967 
                      csr.pmpcfg(i)(0) <= csr.wdata((i mod 4)*8+0); -- R (rights.read)
1968 
                      csr.pmpcfg(i)(1) <= csr.wdata((i mod 4)*8+1); -- W (rights.write)
1969 
                      csr.pmpcfg(i)(2) <= csr.wdata((i mod 4)*8+2); -- X (rights.execute)
1970 
                      csr.pmpcfg(i)(3) <= csr.wdata((i mod 4)*8+3) and csr.wdata((i mod 4)*8+4); -- A_L
1971 
                      csr.pmpcfg(i)(4) <= csr.wdata((i mod 4)*8+3) and csr.wdata((i mod 4)*8+4); -- A_H - NAPOT/OFF only
1972 
                      csr.pmpcfg(i)(5) <= '0'; -- reserved
1973 
                      csr.pmpcfg(i)(6) <= '0'; -- reserved
1974 
                      csr.pmpcfg(i)(7) <= csr.wdata((i mod 4)*8+7); -- L (locked / rights also enforced in m-mode)
1975 
                    end if;
1976 36 zero_gravi 
                  end if;
1977 49 zero_gravi 
                end loop; -- i (PMP regions)
1978 
              else
1979 
                NULL;
1980 
              end if;
1981 4 zero_gravi 
 
1982 42 zero_gravi 
            -- physical memory protection: R/W: pmpaddr* - PMP address registers --
1983 36 zero_gravi 
            -- --------------------------------------------------------------------
1984 42 zero_gravi 
            when csr_pmpaddr0_c  | csr_pmpaddr1_c  | csr_pmpaddr2_c  | csr_pmpaddr3_c  | csr_pmpaddr4_c  | csr_pmpaddr5_c  | csr_pmpaddr6_c  | csr_pmpaddr7_c  |
1985 
                 csr_pmpaddr8_c  | csr_pmpaddr9_c  | csr_pmpaddr10_c | csr_pmpaddr11_c | csr_pmpaddr12_c | csr_pmpaddr13_c | csr_pmpaddr14_c | csr_pmpaddr15_c |
1986 
                 csr_pmpaddr16_c | csr_pmpaddr17_c | csr_pmpaddr18_c | csr_pmpaddr19_c | csr_pmpaddr20_c | csr_pmpaddr21_c | csr_pmpaddr22_c | csr_pmpaddr23_c |
1987 
                 csr_pmpaddr24_c | csr_pmpaddr25_c | csr_pmpaddr26_c | csr_pmpaddr27_c | csr_pmpaddr28_c | csr_pmpaddr29_c | csr_pmpaddr30_c | csr_pmpaddr31_c |
1988 
                 csr_pmpaddr32_c | csr_pmpaddr33_c | csr_pmpaddr34_c | csr_pmpaddr35_c | csr_pmpaddr36_c | csr_pmpaddr37_c | csr_pmpaddr38_c | csr_pmpaddr39_c |
1989 
                 csr_pmpaddr40_c | csr_pmpaddr41_c | csr_pmpaddr42_c | csr_pmpaddr43_c | csr_pmpaddr44_c | csr_pmpaddr45_c | csr_pmpaddr46_c | csr_pmpaddr47_c |
1990 
                 csr_pmpaddr48_c | csr_pmpaddr49_c | csr_pmpaddr50_c | csr_pmpaddr51_c | csr_pmpaddr52_c | csr_pmpaddr53_c | csr_pmpaddr54_c | csr_pmpaddr55_c |
1991 
                 csr_pmpaddr56_c | csr_pmpaddr57_c | csr_pmpaddr58_c | csr_pmpaddr59_c | csr_pmpaddr60_c | csr_pmpaddr61_c | csr_pmpaddr62_c | csr_pmpaddr63_c =>
1992 49 zero_gravi 
              if (PMP_NUM_REGIONS > 0) then
1993 
                for i in 0 to PMP_NUM_REGIONS-1 loop
1994 
                  pmpaddr_v := std_ulogic_vector(unsigned(csr_pmpaddr0_c(6 downto 0)) + i); -- adapt to *non-aligned* base address (csr_pmpaddr0_c)
1995 
                  if (csr.addr(6 downto 0) = pmpaddr_v) and (csr.pmpcfg(i)(7) = '0') then -- unlocked pmpaddr access
1996 
                    csr.pmpaddr(i) <= csr.wdata;
1997 
                    csr.pmpaddr(i)(index_size_f(PMP_MIN_GRANULARITY)-4 downto 0) <= (others => '1');
1998 
                  end if;
1999 
                end loop; -- i (PMP regions)
2000 
              else
2001 
                NULL;
2002 
              end if;
2003 2 zero_gravi 
 
2004 41 zero_gravi 
            -- machine counter setup --
2005 
            -- --------------------------------------------------------------------
2006 
            when csr_mcountinhibit_c => -- R/W: mcountinhibit - machine counter-inhibit register
2007 42 zero_gravi 
              csr.mcountinhibit_cy  <= csr.wdata(0); -- enable auto-increment of [m]cycle[h] counter
2008 
              csr.mcountinhibit_ir  <= csr.wdata(2); -- enable auto-increment of [m]instret[h] counter
2009 
              csr.mcountinhibit_hpm <= csr.wdata(csr.mcountinhibit_hpm'left+3 downto 3); -- enable auto-increment of [m]hpmcounter*[h] counter
2010 41 zero_gravi 
 
2011 42 zero_gravi 
            -- machine performance-monitoring event selector --
2012 
            -- --------------------------------------------------------------------
2013 
            when csr_mhpmevent3_c  | csr_mhpmevent4_c  | csr_mhpmevent5_c  | csr_mhpmevent6_c  | csr_mhpmevent7_c  | csr_mhpmevent8_c  |
2014 
                 csr_mhpmevent9_c  | csr_mhpmevent10_c | csr_mhpmevent11_c | csr_mhpmevent12_c | csr_mhpmevent13_c | csr_mhpmevent14_c |
2015 
                 csr_mhpmevent15_c | csr_mhpmevent16_c | csr_mhpmevent17_c | csr_mhpmevent18_c | csr_mhpmevent19_c | csr_mhpmevent20_c |
2016 
                 csr_mhpmevent21_c | csr_mhpmevent22_c | csr_mhpmevent23_c | csr_mhpmevent24_c | csr_mhpmevent25_c | csr_mhpmevent26_c |
2017 
                 csr_mhpmevent27_c | csr_mhpmevent28_c | csr_mhpmevent29_c | csr_mhpmevent30_c | csr_mhpmevent31_c => -- R/W: mhpmevent* - machine performance-monitoring event selector
2018 49 zero_gravi 
              if (HPM_NUM_CNTS > 0) then
2019 
                for i in 0 to HPM_NUM_CNTS-1 loop
2020 
                  if (csr.addr(4 downto 0) = std_ulogic_vector(to_unsigned(i+3, 5))) then
2021 
                    csr.mhpmevent(i) <= csr.wdata(csr.mhpmevent(i)'left downto 0);
2022 
                    csr.mhpmevent(i)(1) <= '0'; -- would be used for "TIME"
2023 
                  end if;
2024 
                end loop; -- i (CSRs)
2025 
              else
2026 
                NULL;
2027 
              end if;
2028 42 zero_gravi 
 
2029 36 zero_gravi 
            -- undefined --
2030 
            -- --------------------------------------------------------------------
2031 
            when others =>
2032 
              NULL;
2033 29 zero_gravi 
 
2034 36 zero_gravi 
          end case;
2035 29 zero_gravi 
 
2036 36 zero_gravi 
        -- --------------------------------------------------------------------------------
2037 
        -- CSR access by hardware
2038 
        -- --------------------------------------------------------------------------------
2039 
        else
2040 
 
2041 40 zero_gravi 
          -- mcause, mepc, mtval: machine trap cause, PC and value register --
2042 36 zero_gravi 
          -- --------------------------------------------------------------------
2043 
          if (trap_ctrl.env_start_ack = '1') then -- trap handler starting?
2044 40 zero_gravi 
            -- trap cause ID code --
2045 
            csr.mcause(csr.mcause'left) <= trap_ctrl.cause(trap_ctrl.cause'left); -- 1: interrupt, 0: exception
2046 
            csr.mcause(4 downto 0)      <= trap_ctrl.cause(4 downto 0); -- identifier
2047 
            -- trap PC --
2048 36 zero_gravi 
            if (trap_ctrl.cause(trap_ctrl.cause'left) = '1') then -- for INTERRUPTS
2049 49 zero_gravi 
              csr.mepc <= execute_engine.pc(data_width_c-1 downto 1) & '0'; -- this is the CURRENT pc = interrupted instruction
2050 40 zero_gravi 
            else -- for EXCEPTIONS
2051 36 zero_gravi 
              csr.mepc <= execute_engine.last_pc(data_width_c-1 downto 1) & '0'; -- this is the LAST pc = last executed instruction
2052 40 zero_gravi 
            end if;
2053 
            -- trap value --
2054 
            case trap_ctrl.cause is
2055 
              when trap_ima_c | trap_iba_c => -- misaligned instruction address OR instruction access error
2056 36 zero_gravi 
                csr.mtval <= execute_engine.pc(data_width_c-1 downto 1) & '0'; -- address of faulting instruction
2057 40 zero_gravi 
              when trap_brk_c => -- breakpoint
2058 
                csr.mtval <= execute_engine.last_pc(data_width_c-1 downto 1) & '0'; -- address of breakpoint instruction
2059 
              when trap_lma_c | trap_lbe_c | trap_sma_c | trap_sbe_c => -- misaligned load/store address OR load/store access error
2060 
                csr.mtval <= mar_i; -- faulting data access address
2061 
              when trap_iil_c => -- illegal instruction
2062 36 zero_gravi 
                csr.mtval <= execute_engine.i_reg_last; -- faulting instruction itself
2063 47 zero_gravi 
              when others => -- everything else including all interrupts
2064 40 zero_gravi 
                csr.mtval <= (others => '0');
2065 
            end case;
2066 2 zero_gravi 
          end if;
2067 
 
2068 36 zero_gravi 
          -- mstatus: context switch --
2069 
          -- --------------------------------------------------------------------
2070 
          if (trap_ctrl.env_start_ack = '1') then -- ENTER: trap handler starting?
2071 
            csr.mstatus_mie  <= '0'; -- disable interrupts
2072 
            csr.mstatus_mpie <= csr.mstatus_mie; -- buffer previous mie state
2073 
            if (CPU_EXTENSION_RISCV_U = true) then -- implement user mode
2074 
              csr.privilege   <= priv_mode_m_c; -- execute trap in machine mode
2075 
              csr.mstatus_mpp <= csr.privilege; -- buffer previous privilege mode
2076 2 zero_gravi 
            end if;
2077 36 zero_gravi 
          elsif (trap_ctrl.env_end = '1') then -- EXIT: return from exception
2078 
            csr.mstatus_mie  <= csr.mstatus_mpie; -- restore global IRQ enable flag
2079 
            csr.mstatus_mpie <= '1';
2080 
            if (CPU_EXTENSION_RISCV_U = true) then -- implement user mode
2081 
              csr.privilege   <= csr.mstatus_mpp; -- go back to previous privilege mode
2082 40 zero_gravi 
              csr.mstatus_mpp <= priv_mode_m_c;
2083 30 zero_gravi 
            end if;
2084 2 zero_gravi 
          end if;
2085 36 zero_gravi 
          -- user mode NOT implemented --
2086 
          if (CPU_EXTENSION_RISCV_U = false) then
2087 
            csr.privilege   <= priv_mode_m_c;
2088 
            csr.mstatus_mpp <= priv_mode_m_c;
2089 15 zero_gravi 
          end if;
2090 29 zero_gravi 
 
2091 36 zero_gravi 
        end if; -- hardware csr access
2092 29 zero_gravi 
 
2093 34 zero_gravi 
      end if;
2094 2 zero_gravi 
    end if;
2095 
  end process csr_write_access;
2096 
 
2097 40 zero_gravi 
  -- decode privilege mode --
2098 
  csr.priv_m_mode <= '1' when (csr.privilege = priv_mode_m_c)  or (CPU_EXTENSION_RISCV_U = false) else '0';
2099 
  csr.priv_u_mode <= '1' when (csr.privilege = priv_mode_u_c) and (CPU_EXTENSION_RISCV_U = true)  else '0';
2100 
 
2101 36 zero_gravi 
  -- PMP configuration output to bus unit --
2102 34 zero_gravi 
  pmp_output: process(csr)
2103 
  begin
2104 
    pmp_addr_o <= (others => (others => '0'));
2105 
    pmp_ctrl_o <= (others => (others => '0'));
2106 42 zero_gravi 
    for i in 0 to PMP_NUM_REGIONS-1 loop
2107 
      pmp_addr_o(i) <= csr.pmpaddr(i) & "11";
2108 
      pmp_addr_o(i)(index_size_f(PMP_MIN_GRANULARITY)-4 downto 0) <= (others => '1');
2109 
      pmp_ctrl_o(i) <= csr.pmpcfg(i);
2110 
    end loop; -- i
2111 
  end process pmp_output;
2112 
 
2113 
  -- PMP read dummy --
2114 
  pmp_rd_dummy: process(csr)
2115 
  begin
2116 
    csr.pmpcfg_rd  <= (others => (others => '0'));
2117 
    csr.pmpaddr_rd <= (others => (others => '0'));
2118 
    for i in 0 to PMP_NUM_REGIONS-1 loop
2119 
      csr.pmpcfg_rd(i)  <= csr.pmpcfg(i);
2120 
      csr.pmpaddr_rd(i) <= csr.pmpaddr(i);
2121 
      if (csr.pmpcfg(i)(4 downto 3) = "00") then -- mode = off
2122 
        csr.pmpaddr_rd(i)(index_size_f(PMP_MIN_GRANULARITY)-3 downto 0) <= (others => '0'); -- required for granularity check by SW
2123 
      end if;
2124 
    end loop; -- i
2125 
  end process pmp_rd_dummy;
2126 
 
2127 
 
2128 
  -- Control and Status Registers - Counters ------------------------------------------------
2129 
  -- -------------------------------------------------------------------------------------------
2130 
  csr_counters: process(clk_i)
2131 
  begin
2132 
    -- Counter CSRs (each counter is split into two 32-bit counters)
2133 
    if rising_edge(clk_i) then
2134 
 
2135 
      -- [m]cycle --
2136 
      if (csr.we = '1') and (csr.addr = csr_mcycle_c) then -- write access
2137 
        csr.mcycle <= '0' & csr.wdata;
2138 
        mcycle_msb <= '0';
2139 
      elsif (csr.mcountinhibit_cy = '0') and (cnt_event(hpmcnt_event_cy_c) = '1') then -- non-inhibited automatic update
2140 
        csr.mcycle <= std_ulogic_vector(unsigned(csr.mcycle) + 1);
2141 
        mcycle_msb <= csr.mcycle(csr.mcycle'left);
2142 
      end if;
2143 
 
2144 
      -- [m]cycleh --
2145 
      if (csr.we = '1') and (csr.addr = csr_mcycleh_c) then -- write access
2146 
        csr.mcycleh <= csr.wdata;
2147 
      elsif ((mcycle_msb xor csr.mcycle(csr.mcycle'left)) = '1') then -- automatic update (continued)
2148 
        csr.mcycleh <= std_ulogic_vector(unsigned(csr.mcycleh) + 1);
2149 
      end if;
2150 
 
2151 
      -- [m]instret --
2152 
      if (csr.we = '1') and (csr.addr = csr_minstret_c) then -- write access
2153 
        csr.minstret <= '0' & csr.wdata;
2154 
        minstret_msb <= '0';
2155 
      elsif (csr.mcountinhibit_ir = '0') and (cnt_event(hpmcnt_event_ir_c) = '1') and (cnt_event(hpmcnt_event_cy_c) = '1') then -- non-inhibited automatic update
2156 
        csr.minstret <= std_ulogic_vector(unsigned(csr.minstret) + 1);
2157 
        minstret_msb <= csr.minstret(csr.minstret'left);
2158 
      end if;
2159 
 
2160 
      -- [m]instreth --
2161 
      if (csr.we = '1') and (csr.addr = csr_minstreth_c) then -- write access
2162 
        csr.minstreth <= csr.wdata;
2163 
      elsif ((minstret_msb xor csr.minstret(csr.minstret'left)) = '1') then -- automatic update (continued)
2164 
        csr.minstreth <= std_ulogic_vector(unsigned(csr.minstreth) + 1);
2165 
      end if;
2166 
 
2167 45 zero_gravi 
      -- [machine] hardware performance monitors (counters) --
2168 42 zero_gravi 
      for i in 0 to HPM_NUM_CNTS-1 loop
2169 
        -- [m]hpmcounter* --
2170 
        if (csr.we = '1') and (csr.addr = std_ulogic_vector(unsigned(csr_mhpmcounter3_c) + i)) then -- write access
2171 
          csr.mhpmcounter(i) <= '0' & csr.wdata;
2172 
          mhpmcounter_msb(i) <= '0';
2173 
        elsif (csr.mcountinhibit_hpm(i) = '0') and (hpmcnt_trigger(i) = '1') then -- non-inhibited automatic update
2174 
          csr.mhpmcounter(i) <= std_ulogic_vector(unsigned(csr.mhpmcounter(i)) + 1);
2175 
          mhpmcounter_msb(i) <= csr.mhpmcounter(i)(csr.mhpmcounter(i)'left);
2176 
        end if;
2177 
 
2178 
        -- [m]hpmcounter*h --
2179 
        if (csr.we = '1') and (csr.addr = std_ulogic_vector(unsigned(csr_mhpmcounter3h_c) + i)) then -- write access
2180 
          csr.mhpmcounterh(i) <= csr.wdata;
2181 
        elsif ((mhpmcounter_msb(i) xor csr.mhpmcounter(i)(csr.mhpmcounter(i)'left)) = '1') then -- automatic update (continued)
2182 
          csr.mhpmcounterh(i) <= std_ulogic_vector(unsigned(csr.mhpmcounterh(i)) + 1);
2183 
        end if;
2184 34 zero_gravi 
      end loop; -- i
2185 42 zero_gravi 
 
2186 34 zero_gravi 
    end if;
2187 42 zero_gravi 
  end process csr_counters;
2188 34 zero_gravi 
 
2189 42 zero_gravi 
  -- hpm read dummy --
2190 
  hpm_rd_dummy: process(csr)
2191 
  begin
2192 
    csr.mhpmevent_rd    <= (others => (others => '0'));
2193 
    csr.mhpmcounter_rd  <= (others => (others => '0'));
2194 
    csr.mhpmcounterh_rd <= (others => (others => '0'));
2195 
    for i in 0 to HPM_NUM_CNTS-1 loop
2196 
      csr.mhpmevent_rd(i)    <= csr.mhpmevent(i);
2197 
      csr.mhpmcounter_rd(i)  <= csr.mhpmcounter(i);
2198 
      csr.mhpmcounterh_rd(i) <= csr.mhpmcounterh(i);
2199 
    end loop; -- i
2200 
  end process hpm_rd_dummy;
2201 34 zero_gravi 
 
2202 42 zero_gravi 
 
2203 
  -- (HPM) Counter Event Control ------------------------------------------------------------
2204 
  -- -------------------------------------------------------------------------------------------
2205 
  hpmcnt_ctrl: process(clk_i)
2206 
  begin
2207 
    if rising_edge(clk_i) then
2208 47 zero_gravi 
      -- buffer event sources --
2209 
      cnt_event <= cnt_event_nxt;
2210 
      -- enable selected triggers by ANDing actual events and according CSR configuration bits --
2211 
      -- OR everything to see if counter should increment --
2212 42 zero_gravi 
      hpmcnt_trigger <= (others => '0'); -- default
2213 
      for i in 0 to HPM_NUM_CNTS-1 loop
2214 47 zero_gravi 
        hpmcnt_trigger(i) <= or_all_f(cnt_event and csr.mhpmevent(i)(cnt_event'left downto 0));
2215 42 zero_gravi 
      end loop; -- i
2216 
    end if;
2217 
  end process hpmcnt_ctrl;
2218 
 
2219 
  -- counter event trigger - RISC-V specific --
2220 
  cnt_event_nxt(hpmcnt_event_cy_c)    <= not execute_engine.sleep; -- active cycle
2221 
  cnt_event_nxt(hpmcnt_event_never_c) <= '0'; -- undefined (never)
2222 
  cnt_event_nxt(hpmcnt_event_ir_c)    <= '1' when (execute_engine.state = EXECUTE) else '0'; -- retired instruction
2223 
 
2224 
  -- counter event trigger - custom / NEORV32-specific --
2225 47 zero_gravi 
  cnt_event_nxt(hpmcnt_event_cir_c)     <= '1' when (execute_engine.state = EXECUTE)      and (execute_engine.is_ci = '1')             else '0'; -- retired compressed instruction
2226 
  cnt_event_nxt(hpmcnt_event_wait_if_c) <= '1' when (fetch_engine.state   = IFETCH_ISSUE) and (fetch_engine.state_prev = IFETCH_ISSUE) else '0'; -- instruction fetch memory wait cycle
2227 
  cnt_event_nxt(hpmcnt_event_wait_ii_c) <= '1' when (execute_engine.state = DISPATCH)     and (execute_engine.state_prev = DISPATCH)   else '0'; -- instruction issue wait cycle
2228 
  cnt_event_nxt(hpmcnt_event_wait_mc_c) <= '1' when (execute_engine.state = ALU_WAIT)     and (execute_engine.state_prev = ALU_WAIT)   else '0'; -- multi-cycle alu-operation wait cycle
2229 42 zero_gravi 
 
2230 
  cnt_event_nxt(hpmcnt_event_load_c)    <= '1' when (execute_engine.state = LOADSTORE_1) and (ctrl(ctrl_bus_rd_c) = '1')               else '0'; -- load operation
2231 
  cnt_event_nxt(hpmcnt_event_store_c)   <= '1' when (execute_engine.state = LOADSTORE_1) and (ctrl(ctrl_bus_wr_c) = '1')               else '0'; -- store operation
2232 
  cnt_event_nxt(hpmcnt_event_wait_ls_c) <= '1' when (execute_engine.state = LOADSTORE_2) and (execute_engine.state_prev = LOADSTORE_2) else '0'; -- load/store memory wait cycle
2233 
 
2234 
  cnt_event_nxt(hpmcnt_event_jump_c)    <= '1' when (execute_engine.state = BRANCH) and (execute_engine.i_reg(instr_opcode_lsb_c+2) = '1') else '0'; -- jump (unconditional)
2235 
  cnt_event_nxt(hpmcnt_event_branch_c)  <= '1' when (execute_engine.state = BRANCH) and (execute_engine.i_reg(instr_opcode_lsb_c+2) = '0') else '0'; -- branch (conditional, taken or not taken)
2236 
  cnt_event_nxt(hpmcnt_event_tbranch_c) <= '1' when (execute_engine.state = BRANCH) and (execute_engine.i_reg(instr_opcode_lsb_c+2) = '0') and (execute_engine.branch_taken = '1') else '0'; -- taken branch (conditional)
2237 
 
2238 
  cnt_event_nxt(hpmcnt_event_trap_c)    <= '1' when (trap_ctrl.env_start_ack = '1')                                    else '0'; -- entered trap
2239 
  cnt_event_nxt(hpmcnt_event_illegal_c) <= '1' when (trap_ctrl.env_start_ack = '1') and (trap_ctrl.cause = trap_iil_c) else '0'; -- illegal operation
2240 
 
2241 
 
2242 2 zero_gravi 
  -- Control and Status Registers Read Access -----------------------------------------------
2243 
  -- -------------------------------------------------------------------------------------------
2244 
  csr_read_access: process(clk_i)
2245 
  begin
2246 
    if rising_edge(clk_i) then
2247 29 zero_gravi 
      csr.re    <= csr.re_nxt; -- read access?
2248 35 zero_gravi 
      csr.rdata <= (others => '0'); -- default output
2249 11 zero_gravi 
      if (CPU_EXTENSION_RISCV_Zicsr = true) and (csr.re = '1') then
2250 41 zero_gravi 
        case csr.addr is
2251 11 zero_gravi 
 
2252 
          -- machine trap setup --
2253 29 zero_gravi 
          when csr_mstatus_c => -- R/W: mstatus - machine status register
2254 41 zero_gravi 
            csr.rdata(03) <= csr.mstatus_mie; -- MIE
2255 
            csr.rdata(06) <= '1' and bool_to_ulogic_f(CPU_EXTENSION_RISCV_U); -- UBE: CPU/Processor is BIG-ENDIAN (in user-mode)
2256 27 zero_gravi 
            csr.rdata(07) <= csr.mstatus_mpie; -- MPIE
2257 29 zero_gravi 
            csr.rdata(11) <= csr.mstatus_mpp(0); -- MPP: machine previous privilege mode low
2258 
            csr.rdata(12) <= csr.mstatus_mpp(1); -- MPP: machine previous privilege mode high
2259 40 zero_gravi 
          when csr_mstatush_c => -- R/-: mstatush - machine status register - high part
2260 41 zero_gravi 
            csr.rdata(05) <= '1'; -- MBE: CPU/Processor is BIG-ENDIAN (in machine-mode)
2261 29 zero_gravi 
          when csr_misa_c => -- R/-: misa - ISA and extensions
2262 39 zero_gravi 
            csr.rdata(00) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_A);     -- A CPU extension
2263 44 zero_gravi 
            csr.rdata(01) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_B);     -- B CPU extension
2264 27 zero_gravi 
            csr.rdata(02) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_C);     -- C CPU extension
2265 
            csr.rdata(04) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_E);     -- E CPU extension
2266 
            csr.rdata(08) <= not bool_to_ulogic_f(CPU_EXTENSION_RISCV_E); -- I CPU extension (if not E)
2267 
            csr.rdata(12) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_M);     -- M CPU extension
2268 
            csr.rdata(20) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_U);     -- U CPU extension
2269 
            csr.rdata(23) <= '1';                                         -- X CPU extension (non-std extensions)
2270 
            csr.rdata(30) <= '1'; -- 32-bit architecture (MXL lo)
2271 
            csr.rdata(31) <= '0'; -- 32-bit architecture (MXL hi)
2272 29 zero_gravi 
          when csr_mie_c => -- R/W: mie - machine interrupt-enable register
2273 27 zero_gravi 
            csr.rdata(03) <= csr.mie_msie; -- machine software IRQ enable
2274 
            csr.rdata(07) <= csr.mie_mtie; -- machine timer IRQ enable
2275 
            csr.rdata(11) <= csr.mie_meie; -- machine external IRQ enable
2276 48 zero_gravi 
            for i in 0 to 15 loop -- fast interrupt channels 0..15 enable
2277 
              csr.rdata(16+i) <= csr.mie_firqe(i);
2278 
            end loop; -- i
2279 29 zero_gravi 
          when csr_mtvec_c => -- R/W: mtvec - machine trap-handler base address (for ALL exceptions)
2280 27 zero_gravi 
            csr.rdata <= csr.mtvec(data_width_c-1 downto 2) & "00"; -- mtvec.MODE=0
2281 41 zero_gravi 
          when csr_mcounteren_c => -- R/W: machine counter enable register
2282 
            csr.rdata(0) <= csr.mcounteren_cy; -- enable user-level access to cycle[h]
2283 
            csr.rdata(1) <= csr.mcounteren_tm; -- enable user-level access to time[h]
2284 
            csr.rdata(2) <= csr.mcounteren_ir; -- enable user-level access to instret[h]
2285 42 zero_gravi 
            csr.rdata(csr.mcounteren_hpm'left+3 downto 3) <= csr.mcounteren_hpm; -- enable user-level access to hpmcounterx[h]
2286 11 zero_gravi 
 
2287 
          -- machine trap handling --
2288 29 zero_gravi 
          when csr_mscratch_c => -- R/W: mscratch - machine scratch register
2289 27 zero_gravi 
            csr.rdata <= csr.mscratch;
2290 29 zero_gravi 
          when csr_mepc_c => -- R/W: mepc - machine exception program counter
2291 27 zero_gravi 
            csr.rdata <= csr.mepc(data_width_c-1 downto 1) & '0';
2292 35 zero_gravi 
          when csr_mcause_c => -- R/W: mcause - machine trap cause
2293 49 zero_gravi 
            csr.rdata(31) <= csr.mcause(csr.mcause'left);
2294 
            csr.rdata(csr.mcause'left-1 downto 0) <= csr.mcause(csr.mcause'left-1 downto 0);
2295 29 zero_gravi 
          when csr_mtval_c => -- R/W: mtval - machine bad address or instruction
2296 27 zero_gravi 
            csr.rdata <= csr.mtval;
2297 29 zero_gravi 
          when csr_mip_c => -- R/W: mip - machine interrupt pending
2298 40 zero_gravi 
            csr.rdata(03) <= csr.mip_status(interrupt_msw_irq_c);
2299 
            csr.rdata(07) <= csr.mip_status(interrupt_mtime_irq_c);
2300 
            csr.rdata(11) <= csr.mip_status(interrupt_mext_irq_c);
2301 48 zero_gravi 
            for i in 0 to 15 loop -- fast interrupt channels 0..15 pending
2302 
              csr.rdata(16+i) <= csr.mip_status(interrupt_firq_0_c+i);
2303 
            end loop; -- i
2304 11 zero_gravi 
 
2305 37 zero_gravi 
          -- physical memory protection - configuration --
2306 42 zero_gravi 
          when csr_pmpcfg0_c  => csr.rdata <= csr.pmpcfg_rd(03) & csr.pmpcfg_rd(02) & csr.pmpcfg_rd(01) & csr.pmpcfg_rd(00); -- R/W: pmpcfg0
2307 
          when csr_pmpcfg1_c  => csr.rdata <= csr.pmpcfg_rd(07) & csr.pmpcfg_rd(06) & csr.pmpcfg_rd(05) & csr.pmpcfg_rd(04); -- R/W: pmpcfg1
2308 
          when csr_pmpcfg2_c  => csr.rdata <= csr.pmpcfg_rd(11) & csr.pmpcfg_rd(10) & csr.pmpcfg_rd(09) & csr.pmpcfg_rd(08); -- R/W: pmpcfg2
2309 
          when csr_pmpcfg3_c  => csr.rdata <= csr.pmpcfg_rd(15) & csr.pmpcfg_rd(14) & csr.pmpcfg_rd(13) & csr.pmpcfg_rd(12); -- R/W: pmpcfg3
2310 
          when csr_pmpcfg4_c  => csr.rdata <= csr.pmpcfg_rd(19) & csr.pmpcfg_rd(18) & csr.pmpcfg_rd(17) & csr.pmpcfg_rd(16); -- R/W: pmpcfg4
2311 
          when csr_pmpcfg5_c  => csr.rdata <= csr.pmpcfg_rd(23) & csr.pmpcfg_rd(22) & csr.pmpcfg_rd(21) & csr.pmpcfg_rd(20); -- R/W: pmpcfg5
2312 
          when csr_pmpcfg6_c  => csr.rdata <= csr.pmpcfg_rd(27) & csr.pmpcfg_rd(26) & csr.pmpcfg_rd(25) & csr.pmpcfg_rd(24); -- R/W: pmpcfg6
2313 
          when csr_pmpcfg7_c  => csr.rdata <= csr.pmpcfg_rd(31) & csr.pmpcfg_rd(30) & csr.pmpcfg_rd(29) & csr.pmpcfg_rd(28); -- R/W: pmpcfg7
2314 
          when csr_pmpcfg8_c  => csr.rdata <= csr.pmpcfg_rd(35) & csr.pmpcfg_rd(34) & csr.pmpcfg_rd(33) & csr.pmpcfg_rd(32); -- R/W: pmpcfg8
2315 
          when csr_pmpcfg9_c  => csr.rdata <= csr.pmpcfg_rd(39) & csr.pmpcfg_rd(38) & csr.pmpcfg_rd(37) & csr.pmpcfg_rd(36); -- R/W: pmpcfg9
2316 
          when csr_pmpcfg10_c => csr.rdata <= csr.pmpcfg_rd(43) & csr.pmpcfg_rd(42) & csr.pmpcfg_rd(41) & csr.pmpcfg_rd(40); -- R/W: pmpcfg10
2317 
          when csr_pmpcfg11_c => csr.rdata <= csr.pmpcfg_rd(47) & csr.pmpcfg_rd(46) & csr.pmpcfg_rd(45) & csr.pmpcfg_rd(44); -- R/W: pmpcfg11
2318 
          when csr_pmpcfg12_c => csr.rdata <= csr.pmpcfg_rd(51) & csr.pmpcfg_rd(50) & csr.pmpcfg_rd(49) & csr.pmpcfg_rd(48); -- R/W: pmpcfg12
2319 
          when csr_pmpcfg13_c => csr.rdata <= csr.pmpcfg_rd(55) & csr.pmpcfg_rd(54) & csr.pmpcfg_rd(53) & csr.pmpcfg_rd(52); -- R/W: pmpcfg13
2320 
          when csr_pmpcfg14_c => csr.rdata <= csr.pmpcfg_rd(59) & csr.pmpcfg_rd(58) & csr.pmpcfg_rd(57) & csr.pmpcfg_rd(56); -- R/W: pmpcfg14
2321 
          when csr_pmpcfg15_c => csr.rdata <= csr.pmpcfg_rd(63) & csr.pmpcfg_rd(62) & csr.pmpcfg_rd(61) & csr.pmpcfg_rd(60); -- R/W: pmpcfg15
2322 15 zero_gravi 
 
2323 37 zero_gravi 
          -- physical memory protection - addresses --
2324 42 zero_gravi 
          when csr_pmpaddr0_c  => csr.rdata <= csr.pmpaddr_rd(00); -- R/W: pmpaddr0
2325 
          when csr_pmpaddr1_c  => csr.rdata <= csr.pmpaddr_rd(01); -- R/W: pmpaddr1
2326 
          when csr_pmpaddr2_c  => csr.rdata <= csr.pmpaddr_rd(02); -- R/W: pmpaddr2
2327 
          when csr_pmpaddr3_c  => csr.rdata <= csr.pmpaddr_rd(03); -- R/W: pmpaddr3
2328 
          when csr_pmpaddr4_c  => csr.rdata <= csr.pmpaddr_rd(04); -- R/W: pmpaddr4
2329 
          when csr_pmpaddr5_c  => csr.rdata <= csr.pmpaddr_rd(05); -- R/W: pmpaddr5
2330 
          when csr_pmpaddr6_c  => csr.rdata <= csr.pmpaddr_rd(06); -- R/W: pmpaddr6
2331 
          when csr_pmpaddr7_c  => csr.rdata <= csr.pmpaddr_rd(07); -- R/W: pmpaddr7
2332 
          when csr_pmpaddr8_c  => csr.rdata <= csr.pmpaddr_rd(08); -- R/W: pmpaddr8
2333 
          when csr_pmpaddr9_c  => csr.rdata <= csr.pmpaddr_rd(09); -- R/W: pmpaddr9
2334 
          when csr_pmpaddr10_c => csr.rdata <= csr.pmpaddr_rd(10); -- R/W: pmpaddr10
2335 
          when csr_pmpaddr11_c => csr.rdata <= csr.pmpaddr_rd(11); -- R/W: pmpaddr11
2336 
          when csr_pmpaddr12_c => csr.rdata <= csr.pmpaddr_rd(12); -- R/W: pmpaddr12
2337 
          when csr_pmpaddr13_c => csr.rdata <= csr.pmpaddr_rd(13); -- R/W: pmpaddr13
2338 
          when csr_pmpaddr14_c => csr.rdata <= csr.pmpaddr_rd(14); -- R/W: pmpaddr14
2339 
          when csr_pmpaddr15_c => csr.rdata <= csr.pmpaddr_rd(15); -- R/W: pmpaddr15
2340 
          when csr_pmpaddr16_c => csr.rdata <= csr.pmpaddr_rd(16); -- R/W: pmpaddr16
2341 
          when csr_pmpaddr17_c => csr.rdata <= csr.pmpaddr_rd(17); -- R/W: pmpaddr17
2342 
          when csr_pmpaddr18_c => csr.rdata <= csr.pmpaddr_rd(18); -- R/W: pmpaddr18
2343 
          when csr_pmpaddr19_c => csr.rdata <= csr.pmpaddr_rd(19); -- R/W: pmpaddr19
2344 
          when csr_pmpaddr20_c => csr.rdata <= csr.pmpaddr_rd(20); -- R/W: pmpaddr20
2345 
          when csr_pmpaddr21_c => csr.rdata <= csr.pmpaddr_rd(21); -- R/W: pmpaddr21
2346 
          when csr_pmpaddr22_c => csr.rdata <= csr.pmpaddr_rd(22); -- R/W: pmpaddr22
2347 
          when csr_pmpaddr23_c => csr.rdata <= csr.pmpaddr_rd(23); -- R/W: pmpaddr23
2348 
          when csr_pmpaddr24_c => csr.rdata <= csr.pmpaddr_rd(24); -- R/W: pmpaddr24
2349 
          when csr_pmpaddr25_c => csr.rdata <= csr.pmpaddr_rd(25); -- R/W: pmpaddr25
2350 
          when csr_pmpaddr26_c => csr.rdata <= csr.pmpaddr_rd(26); -- R/W: pmpaddr26
2351 
          when csr_pmpaddr27_c => csr.rdata <= csr.pmpaddr_rd(27); -- R/W: pmpaddr27
2352 
          when csr_pmpaddr28_c => csr.rdata <= csr.pmpaddr_rd(28); -- R/W: pmpaddr28
2353 
          when csr_pmpaddr29_c => csr.rdata <= csr.pmpaddr_rd(29); -- R/W: pmpaddr29
2354 
          when csr_pmpaddr30_c => csr.rdata <= csr.pmpaddr_rd(30); -- R/W: pmpaddr30
2355 
          when csr_pmpaddr31_c => csr.rdata <= csr.pmpaddr_rd(31); -- R/W: pmpaddr31
2356 
          when csr_pmpaddr32_c => csr.rdata <= csr.pmpaddr_rd(32); -- R/W: pmpaddr32
2357 
          when csr_pmpaddr33_c => csr.rdata <= csr.pmpaddr_rd(33); -- R/W: pmpaddr33
2358 
          when csr_pmpaddr34_c => csr.rdata <= csr.pmpaddr_rd(34); -- R/W: pmpaddr34
2359 
          when csr_pmpaddr35_c => csr.rdata <= csr.pmpaddr_rd(35); -- R/W: pmpaddr35
2360 
          when csr_pmpaddr36_c => csr.rdata <= csr.pmpaddr_rd(36); -- R/W: pmpaddr36
2361 
          when csr_pmpaddr37_c => csr.rdata <= csr.pmpaddr_rd(37); -- R/W: pmpaddr37
2362 
          when csr_pmpaddr38_c => csr.rdata <= csr.pmpaddr_rd(38); -- R/W: pmpaddr38
2363 
          when csr_pmpaddr39_c => csr.rdata <= csr.pmpaddr_rd(39); -- R/W: pmpaddr39
2364 
          when csr_pmpaddr40_c => csr.rdata <= csr.pmpaddr_rd(40); -- R/W: pmpaddr40
2365 
          when csr_pmpaddr41_c => csr.rdata <= csr.pmpaddr_rd(41); -- R/W: pmpaddr41
2366 
          when csr_pmpaddr42_c => csr.rdata <= csr.pmpaddr_rd(42); -- R/W: pmpaddr42
2367 
          when csr_pmpaddr43_c => csr.rdata <= csr.pmpaddr_rd(43); -- R/W: pmpaddr43
2368 
          when csr_pmpaddr44_c => csr.rdata <= csr.pmpaddr_rd(44); -- R/W: pmpaddr44
2369 
          when csr_pmpaddr45_c => csr.rdata <= csr.pmpaddr_rd(45); -- R/W: pmpaddr45
2370 
          when csr_pmpaddr46_c => csr.rdata <= csr.pmpaddr_rd(46); -- R/W: pmpaddr46
2371 
          when csr_pmpaddr47_c => csr.rdata <= csr.pmpaddr_rd(47); -- R/W: pmpaddr47
2372 
          when csr_pmpaddr48_c => csr.rdata <= csr.pmpaddr_rd(48); -- R/W: pmpaddr48
2373 
          when csr_pmpaddr49_c => csr.rdata <= csr.pmpaddr_rd(49); -- R/W: pmpaddr49
2374 
          when csr_pmpaddr50_c => csr.rdata <= csr.pmpaddr_rd(50); -- R/W: pmpaddr50
2375 
          when csr_pmpaddr51_c => csr.rdata <= csr.pmpaddr_rd(51); -- R/W: pmpaddr51
2376 
          when csr_pmpaddr52_c => csr.rdata <= csr.pmpaddr_rd(52); -- R/W: pmpaddr52
2377 
          when csr_pmpaddr53_c => csr.rdata <= csr.pmpaddr_rd(53); -- R/W: pmpaddr53
2378 
          when csr_pmpaddr54_c => csr.rdata <= csr.pmpaddr_rd(54); -- R/W: pmpaddr54
2379 
          when csr_pmpaddr55_c => csr.rdata <= csr.pmpaddr_rd(55); -- R/W: pmpaddr55
2380 
          when csr_pmpaddr56_c => csr.rdata <= csr.pmpaddr_rd(56); -- R/W: pmpaddr56
2381 
          when csr_pmpaddr57_c => csr.rdata <= csr.pmpaddr_rd(57); -- R/W: pmpaddr57
2382 
          when csr_pmpaddr58_c => csr.rdata <= csr.pmpaddr_rd(58); -- R/W: pmpaddr58
2383 
          when csr_pmpaddr59_c => csr.rdata <= csr.pmpaddr_rd(59); -- R/W: pmpaddr59
2384 
          when csr_pmpaddr60_c => csr.rdata <= csr.pmpaddr_rd(60); -- R/W: pmpaddr60
2385 
          when csr_pmpaddr61_c => csr.rdata <= csr.pmpaddr_rd(61); -- R/W: pmpaddr61
2386 
          when csr_pmpaddr62_c => csr.rdata <= csr.pmpaddr_rd(62); -- R/W: pmpaddr62
2387 
          when csr_pmpaddr63_c => csr.rdata <= csr.pmpaddr_rd(63); -- R/W: pmpaddr63
2388 15 zero_gravi 
 
2389 41 zero_gravi 
          -- machine counter setup --
2390 
          -- --------------------------------------------------------------------
2391 
          when csr_mcountinhibit_c => -- R/W: mcountinhibit - machine counter-inhibit register
2392 
            csr.rdata(0) <= csr.mcountinhibit_cy; -- enable auto-increment of [m]cycle[h] counter
2393 
            csr.rdata(2) <= csr.mcountinhibit_ir; -- enable auto-increment of [m]instret[h] counter
2394 42 zero_gravi 
            csr.rdata(csr.mcountinhibit_hpm'left+3 downto 3) <= csr.mcountinhibit_hpm; -- enable auto-increment of [m]hpmcounterx[h] counter
2395 41 zero_gravi 
 
2396 42 zero_gravi 
          -- machine performance-monitoring event selector --
2397 
          when csr_mhpmevent3_c  => csr.rdata(csr.mhpmevent_rd(00)'left downto 0) <= csr.mhpmevent_rd(00); -- R/W: mhpmevent3
2398 
          when csr_mhpmevent4_c  => csr.rdata(csr.mhpmevent_rd(01)'left downto 0) <= csr.mhpmevent_rd(01); -- R/W: mhpmevent4
2399 
          when csr_mhpmevent5_c  => csr.rdata(csr.mhpmevent_rd(02)'left downto 0) <= csr.mhpmevent_rd(02); -- R/W: mhpmevent5
2400 
          when csr_mhpmevent6_c  => csr.rdata(csr.mhpmevent_rd(03)'left downto 0) <= csr.mhpmevent_rd(03); -- R/W: mhpmevent6
2401 
          when csr_mhpmevent7_c  => csr.rdata(csr.mhpmevent_rd(04)'left downto 0) <= csr.mhpmevent_rd(04); -- R/W: mhpmevent7
2402 
          when csr_mhpmevent8_c  => csr.rdata(csr.mhpmevent_rd(05)'left downto 0) <= csr.mhpmevent_rd(05); -- R/W: mhpmevent8
2403 
          when csr_mhpmevent9_c  => csr.rdata(csr.mhpmevent_rd(06)'left downto 0) <= csr.mhpmevent_rd(06); -- R/W: mhpmevent9
2404 
          when csr_mhpmevent10_c => csr.rdata(csr.mhpmevent_rd(07)'left downto 0) <= csr.mhpmevent_rd(07); -- R/W: mhpmevent10
2405 
          when csr_mhpmevent11_c => csr.rdata(csr.mhpmevent_rd(08)'left downto 0) <= csr.mhpmevent_rd(08); -- R/W: mhpmevent11
2406 
          when csr_mhpmevent12_c => csr.rdata(csr.mhpmevent_rd(09)'left downto 0) <= csr.mhpmevent_rd(09); -- R/W: mhpmevent12
2407 
          when csr_mhpmevent13_c => csr.rdata(csr.mhpmevent_rd(10)'left downto 0) <= csr.mhpmevent_rd(10); -- R/W: mhpmevent13
2408 
          when csr_mhpmevent14_c => csr.rdata(csr.mhpmevent_rd(11)'left downto 0) <= csr.mhpmevent_rd(11); -- R/W: mhpmevent14
2409 
          when csr_mhpmevent15_c => csr.rdata(csr.mhpmevent_rd(12)'left downto 0) <= csr.mhpmevent_rd(12); -- R/W: mhpmevent15
2410 
          when csr_mhpmevent16_c => csr.rdata(csr.mhpmevent_rd(13)'left downto 0) <= csr.mhpmevent_rd(13); -- R/W: mhpmevent16
2411 
          when csr_mhpmevent17_c => csr.rdata(csr.mhpmevent_rd(14)'left downto 0) <= csr.mhpmevent_rd(14); -- R/W: mhpmevent17
2412 
          when csr_mhpmevent18_c => csr.rdata(csr.mhpmevent_rd(15)'left downto 0) <= csr.mhpmevent_rd(15); -- R/W: mhpmevent18
2413 
          when csr_mhpmevent19_c => csr.rdata(csr.mhpmevent_rd(16)'left downto 0) <= csr.mhpmevent_rd(16); -- R/W: mhpmevent19
2414 
          when csr_mhpmevent20_c => csr.rdata(csr.mhpmevent_rd(17)'left downto 0) <= csr.mhpmevent_rd(17); -- R/W: mhpmevent20
2415 
          when csr_mhpmevent21_c => csr.rdata(csr.mhpmevent_rd(18)'left downto 0) <= csr.mhpmevent_rd(18); -- R/W: mhpmevent21
2416 
          when csr_mhpmevent22_c => csr.rdata(csr.mhpmevent_rd(19)'left downto 0) <= csr.mhpmevent_rd(19); -- R/W: mhpmevent22
2417 
          when csr_mhpmevent23_c => csr.rdata(csr.mhpmevent_rd(20)'left downto 0) <= csr.mhpmevent_rd(20); -- R/W: mhpmevent23
2418 
          when csr_mhpmevent24_c => csr.rdata(csr.mhpmevent_rd(21)'left downto 0) <= csr.mhpmevent_rd(21); -- R/W: mhpmevent24
2419 
          when csr_mhpmevent25_c => csr.rdata(csr.mhpmevent_rd(22)'left downto 0) <= csr.mhpmevent_rd(22); -- R/W: mhpmevent25
2420 
          when csr_mhpmevent26_c => csr.rdata(csr.mhpmevent_rd(23)'left downto 0) <= csr.mhpmevent_rd(23); -- R/W: mhpmevent26
2421 
          when csr_mhpmevent27_c => csr.rdata(csr.mhpmevent_rd(24)'left downto 0) <= csr.mhpmevent_rd(24); -- R/W: mhpmevent27
2422 
          when csr_mhpmevent28_c => csr.rdata(csr.mhpmevent_rd(25)'left downto 0) <= csr.mhpmevent_rd(25); -- R/W: mhpmevent28
2423 
          when csr_mhpmevent29_c => csr.rdata(csr.mhpmevent_rd(26)'left downto 0) <= csr.mhpmevent_rd(26); -- R/W: mhpmevent29
2424 
          when csr_mhpmevent30_c => csr.rdata(csr.mhpmevent_rd(27)'left downto 0) <= csr.mhpmevent_rd(27); -- R/W: mhpmevent30
2425 
          when csr_mhpmevent31_c => csr.rdata(csr.mhpmevent_rd(28)'left downto 0) <= csr.mhpmevent_rd(28); -- R/W: mhpmevent31
2426 
 
2427 29 zero_gravi 
          -- counters and timers --
2428 42 zero_gravi 
          when csr_cycle_c | csr_mcycle_c => -- (R)/(W): [m]cycle: Cycle counter LOW
2429 27 zero_gravi 
            csr.rdata <= csr.mcycle(31 downto 0);
2430 42 zero_gravi 
          when csr_time_c => -- (R)/-: time: System time LOW (from MTIME unit)
2431 27 zero_gravi 
            csr.rdata <= time_i(31 downto 0);
2432 42 zero_gravi 
          when csr_instret_c | csr_minstret_c => -- (R)/(W): [m]instret: Instructions-retired counter LOW
2433 27 zero_gravi 
            csr.rdata <= csr.minstret(31 downto 0);
2434 42 zero_gravi 
          when csr_cycleh_c | csr_mcycleh_c => -- (R)/(W): [m]cycleh: Cycle counter HIGH
2435 27 zero_gravi 
            csr.rdata <= csr.mcycleh(31 downto 0);
2436 42 zero_gravi 
          when csr_timeh_c => -- (R)/-: timeh: System time HIGH (from MTIME unit)
2437 27 zero_gravi 
            csr.rdata <= time_i(63 downto 32);
2438 42 zero_gravi 
          when csr_instreth_c | csr_minstreth_c => -- (R)/(W): [m]instreth: Instructions-retired counter HIGH
2439 27 zero_gravi 
            csr.rdata <= csr.minstreth(31 downto 0);
2440 11 zero_gravi 
 
2441 42 zero_gravi 
          -- hardware performance counters --
2442 
          when csr_hpmcounter3_c   | csr_mhpmcounter3_c   => csr.rdata <= csr.mhpmcounter_rd(00)(31 downto 0); -- (R)/(W): [m]hpmcounter3 - low
2443 
          when csr_hpmcounter4_c   | csr_mhpmcounter4_c   => csr.rdata <= csr.mhpmcounter_rd(01)(31 downto 0); -- (R)/(W): [m]hpmcounter4 - low
2444 
          when csr_hpmcounter5_c   | csr_mhpmcounter5_c   => csr.rdata <= csr.mhpmcounter_rd(02)(31 downto 0); -- (R)/(W): [m]hpmcounter5 - low
2445 
          when csr_hpmcounter6_c   | csr_mhpmcounter6_c   => csr.rdata <= csr.mhpmcounter_rd(03)(31 downto 0); -- (R)/(W): [m]hpmcounter6 - low
2446 
          when csr_hpmcounter7_c   | csr_mhpmcounter7_c   => csr.rdata <= csr.mhpmcounter_rd(04)(31 downto 0); -- (R)/(W): [m]hpmcounter7 - low
2447 
          when csr_hpmcounter8_c   | csr_mhpmcounter8_c   => csr.rdata <= csr.mhpmcounter_rd(05)(31 downto 0); -- (R)/(W): [m]hpmcounter8 - low
2448 
          when csr_hpmcounter9_c   | csr_mhpmcounter9_c   => csr.rdata <= csr.mhpmcounter_rd(06)(31 downto 0); -- (R)/(W): [m]hpmcounter9 - low
2449 
          when csr_hpmcounter10_c  | csr_mhpmcounter10_c  => csr.rdata <= csr.mhpmcounter_rd(07)(31 downto 0); -- (R)/(W): [m]hpmcounter10 - low
2450 
          when csr_hpmcounter11_c  | csr_mhpmcounter11_c  => csr.rdata <= csr.mhpmcounter_rd(08)(31 downto 0); -- (R)/(W): [m]hpmcounter11 - low
2451 
          when csr_hpmcounter12_c  | csr_mhpmcounter12_c  => csr.rdata <= csr.mhpmcounter_rd(09)(31 downto 0); -- (R)/(W): [m]hpmcounter12 - low
2452 
          when csr_hpmcounter13_c  | csr_mhpmcounter13_c  => csr.rdata <= csr.mhpmcounter_rd(10)(31 downto 0); -- (R)/(W): [m]hpmcounter13 - low
2453 
          when csr_hpmcounter14_c  | csr_mhpmcounter14_c  => csr.rdata <= csr.mhpmcounter_rd(11)(31 downto 0); -- (R)/(W): [m]hpmcounter14 - low
2454 
          when csr_hpmcounter15_c  | csr_mhpmcounter15_c  => csr.rdata <= csr.mhpmcounter_rd(12)(31 downto 0); -- (R)/(W): [m]hpmcounter15 - low
2455 
          when csr_hpmcounter16_c  | csr_mhpmcounter16_c  => csr.rdata <= csr.mhpmcounter_rd(13)(31 downto 0); -- (R)/(W): [m]hpmcounter16 - low
2456 
          when csr_hpmcounter17_c  | csr_mhpmcounter17_c  => csr.rdata <= csr.mhpmcounter_rd(14)(31 downto 0); -- (R)/(W): [m]hpmcounter17 - low
2457 
          when csr_hpmcounter18_c  | csr_mhpmcounter18_c  => csr.rdata <= csr.mhpmcounter_rd(15)(31 downto 0); -- (R)/(W): [m]hpmcounter18 - low
2458 
          when csr_hpmcounter19_c  | csr_mhpmcounter19_c  => csr.rdata <= csr.mhpmcounter_rd(16)(31 downto 0); -- (R)/(W): [m]hpmcounter19 - low
2459 
          when csr_hpmcounter20_c  | csr_mhpmcounter20_c  => csr.rdata <= csr.mhpmcounter_rd(17)(31 downto 0); -- (R)/(W): [m]hpmcounter20 - low
2460 
          when csr_hpmcounter21_c  | csr_mhpmcounter21_c  => csr.rdata <= csr.mhpmcounter_rd(18)(31 downto 0); -- (R)/(W): [m]hpmcounter21 - low
2461 
          when csr_hpmcounter22_c  | csr_mhpmcounter22_c  => csr.rdata <= csr.mhpmcounter_rd(19)(31 downto 0); -- (R)/(W): [m]hpmcounter22 - low
2462 
          when csr_hpmcounter23_c  | csr_mhpmcounter23_c  => csr.rdata <= csr.mhpmcounter_rd(20)(31 downto 0); -- (R)/(W): [m]hpmcounter23 - low
2463 
          when csr_hpmcounter24_c  | csr_mhpmcounter24_c  => csr.rdata <= csr.mhpmcounter_rd(21)(31 downto 0); -- (R)/(W): [m]hpmcounter24 - low
2464 
          when csr_hpmcounter25_c  | csr_mhpmcounter25_c  => csr.rdata <= csr.mhpmcounter_rd(22)(31 downto 0); -- (R)/(W): [m]hpmcounter25 - low
2465 
          when csr_hpmcounter26_c  | csr_mhpmcounter26_c  => csr.rdata <= csr.mhpmcounter_rd(23)(31 downto 0); -- (R)/(W): [m]hpmcounter26 - low
2466 
          when csr_hpmcounter27_c  | csr_mhpmcounter27_c  => csr.rdata <= csr.mhpmcounter_rd(24)(31 downto 0); -- (R)/(W): [m]hpmcounter27 - low
2467 
          when csr_hpmcounter28_c  | csr_mhpmcounter28_c  => csr.rdata <= csr.mhpmcounter_rd(25)(31 downto 0); -- (R)/(W): [m]hpmcounter28 - low
2468 
          when csr_hpmcounter29_c  | csr_mhpmcounter29_c  => csr.rdata <= csr.mhpmcounter_rd(26)(31 downto 0); -- (R)/(W): [m]hpmcounter29 - low
2469 
          when csr_hpmcounter30_c  | csr_mhpmcounter30_c  => csr.rdata <= csr.mhpmcounter_rd(27)(31 downto 0); -- (R)/(W): [m]hpmcounter30 - low
2470 
          when csr_hpmcounter31_c  | csr_mhpmcounter31_c  => csr.rdata <= csr.mhpmcounter_rd(28)(31 downto 0); -- (R)/(W): [m]hpmcounter31 - low
2471 
 
2472 
          when csr_hpmcounter3h_c  | csr_mhpmcounter3h_c  => csr.rdata <= csr.mhpmcounterh_rd(00)(31 downto 0); -- (R)/(W): [m]hpmcounter3h - high
2473 
          when csr_hpmcounter4h_c  | csr_mhpmcounter4h_c  => csr.rdata <= csr.mhpmcounterh_rd(01)(31 downto 0); -- (R)/(W): [m]hpmcounter4h - high
2474 
          when csr_hpmcounter5h_c  | csr_mhpmcounter5h_c  => csr.rdata <= csr.mhpmcounterh_rd(02)(31 downto 0); -- (R)/(W): [m]hpmcounter5h - high
2475 
          when csr_hpmcounter6h_c  | csr_mhpmcounter6h_c  => csr.rdata <= csr.mhpmcounterh_rd(03)(31 downto 0); -- (R)/(W): [m]hpmcounter6h - high
2476 
          when csr_hpmcounter7h_c  | csr_mhpmcounter7h_c  => csr.rdata <= csr.mhpmcounterh_rd(04)(31 downto 0); -- (R)/(W): [m]hpmcounter7h - high
2477 
          when csr_hpmcounter8h_c  | csr_mhpmcounter8h_c  => csr.rdata <= csr.mhpmcounterh_rd(05)(31 downto 0); -- (R)/(W): [m]hpmcounter8h - high
2478 
          when csr_hpmcounter9h_c  | csr_mhpmcounter9h_c  => csr.rdata <= csr.mhpmcounterh_rd(06)(31 downto 0); -- (R)/(W): [m]hpmcounter9h - high
2479 
          when csr_hpmcounter10h_c | csr_mhpmcounter10h_c => csr.rdata <= csr.mhpmcounterh_rd(07)(31 downto 0); -- (R)/(W): [m]hpmcounter10h - high
2480 
          when csr_hpmcounter11h_c | csr_mhpmcounter11h_c => csr.rdata <= csr.mhpmcounterh_rd(08)(31 downto 0); -- (R)/(W): [m]hpmcounter11h - high
2481 
          when csr_hpmcounter12h_c | csr_mhpmcounter12h_c => csr.rdata <= csr.mhpmcounterh_rd(09)(31 downto 0); -- (R)/(W): [m]hpmcounter12h - high
2482 
          when csr_hpmcounter13h_c | csr_mhpmcounter13h_c => csr.rdata <= csr.mhpmcounterh_rd(10)(31 downto 0); -- (R)/(W): [m]hpmcounter13h - high
2483 
          when csr_hpmcounter14h_c | csr_mhpmcounter14h_c => csr.rdata <= csr.mhpmcounterh_rd(11)(31 downto 0); -- (R)/(W): [m]hpmcounter14h - high
2484 
          when csr_hpmcounter15h_c | csr_mhpmcounter15h_c => csr.rdata <= csr.mhpmcounterh_rd(12)(31 downto 0); -- (R)/(W): [m]hpmcounter15h - high
2485 
          when csr_hpmcounter16h_c | csr_mhpmcounter16h_c => csr.rdata <= csr.mhpmcounterh_rd(13)(31 downto 0); -- (R)/(W): [m]hpmcounter16h - high
2486 
          when csr_hpmcounter17h_c | csr_mhpmcounter17h_c => csr.rdata <= csr.mhpmcounterh_rd(14)(31 downto 0); -- (R)/(W): [m]hpmcounter17h - high
2487 
          when csr_hpmcounter18h_c | csr_mhpmcounter18h_c => csr.rdata <= csr.mhpmcounterh_rd(15)(31 downto 0); -- (R)/(W): [m]hpmcounter18h - high
2488 
          when csr_hpmcounter19h_c | csr_mhpmcounter19h_c => csr.rdata <= csr.mhpmcounterh_rd(16)(31 downto 0); -- (R)/(W): [m]hpmcounter19h - high
2489 
          when csr_hpmcounter20h_c | csr_mhpmcounter20h_c => csr.rdata <= csr.mhpmcounterh_rd(17)(31 downto 0); -- (R)/(W): [m]hpmcounter20h - high
2490 
          when csr_hpmcounter21h_c | csr_mhpmcounter21h_c => csr.rdata <= csr.mhpmcounterh_rd(18)(31 downto 0); -- (R)/(W): [m]hpmcounter21h - high
2491 
          when csr_hpmcounter22h_c | csr_mhpmcounter22h_c => csr.rdata <= csr.mhpmcounterh_rd(19)(31 downto 0); -- (R)/(W): [m]hpmcounter22h - high
2492 
          when csr_hpmcounter23h_c | csr_mhpmcounter23h_c => csr.rdata <= csr.mhpmcounterh_rd(20)(31 downto 0); -- (R)/(W): [m]hpmcounter23h - high
2493 
          when csr_hpmcounter24h_c | csr_mhpmcounter24h_c => csr.rdata <= csr.mhpmcounterh_rd(21)(31 downto 0); -- (R)/(W): [m]hpmcounter24h - high
2494 
          when csr_hpmcounter25h_c | csr_mhpmcounter25h_c => csr.rdata <= csr.mhpmcounterh_rd(22)(31 downto 0); -- (R)/(W): [m]hpmcounter25h - high
2495 
          when csr_hpmcounter26h_c | csr_mhpmcounter26h_c => csr.rdata <= csr.mhpmcounterh_rd(23)(31 downto 0); -- (R)/(W): [m]hpmcounter26h - high
2496 
          when csr_hpmcounter27h_c | csr_mhpmcounter27h_c => csr.rdata <= csr.mhpmcounterh_rd(24)(31 downto 0); -- (R)/(W): [m]hpmcounter27h - high
2497 
          when csr_hpmcounter28h_c | csr_mhpmcounter28h_c => csr.rdata <= csr.mhpmcounterh_rd(25)(31 downto 0); -- (R)/(W): [m]hpmcounter28h - high
2498 
          when csr_hpmcounter29h_c | csr_mhpmcounter29h_c => csr.rdata <= csr.mhpmcounterh_rd(26)(31 downto 0); -- (R)/(W): [m]hpmcounter29h - high
2499 
          when csr_hpmcounter30h_c | csr_mhpmcounter30h_c => csr.rdata <= csr.mhpmcounterh_rd(27)(31 downto 0); -- (R)/(W): [m]hpmcounter30h - high
2500 
          when csr_hpmcounter31h_c | csr_mhpmcounter31h_c => csr.rdata <= csr.mhpmcounterh_rd(28)(31 downto 0); -- (R)/(W): [m]hpmcounter31h - high
2501 
 
2502 11 zero_gravi 
          -- machine information registers --
2503 29 zero_gravi 
          when csr_mvendorid_c => -- R/-: mvendorid - vendor ID
2504 27 zero_gravi 
            csr.rdata <= (others => '0');
2505 34 zero_gravi 
          when csr_marchid_c => -- R/-: marchid - arch ID
2506 
            csr.rdata(4 downto 0) <= "10011"; -- official RISC-V open-source arch ID
2507 32 zero_gravi 
          when csr_mimpid_c => -- R/-: mimpid - implementation ID
2508 
            csr.rdata <= hw_version_c; -- NEORV32 hardware version
2509 29 zero_gravi 
          when csr_mhartid_c => -- R/-: mhartid - hardware thread ID
2510 49 zero_gravi 
            csr.rdata <= std_ulogic_vector(to_unsigned(HW_THREAD_ID, 32));
2511 11 zero_gravi 
 
2512 22 zero_gravi 
          -- custom machine read-only CSRs --
2513 44 zero_gravi 
          when csr_mzext_c => -- R/-: mzext - available RISC-V Z* extensions
2514 
            csr.rdata(0) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_Zicsr);    -- Zicsr
2515 
            csr.rdata(1) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_Zifencei); -- Zifencei
2516 49 zero_gravi 
            csr.rdata(2) <= bool_to_ulogic_f(CPU_EXTENSION_RISCV_B);        -- Zbb
2517 22 zero_gravi 
 
2518 11 zero_gravi 
          -- undefined/unavailable --
2519 
          when others =>
2520 27 zero_gravi 
            csr.rdata <= (others => '0'); -- not implemented
2521 11 zero_gravi 
 
2522 
        end case;
2523 2 zero_gravi 
      end if;
2524 
    end if;
2525 
  end process csr_read_access;
2526 
 
2527 27 zero_gravi 
  -- CSR read data output --
2528 
  csr_rdata_o <= csr.rdata;
2529 
 
2530 12 zero_gravi 
 
2531 2 zero_gravi 
end neorv32_cpu_control_rtl;

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