208 lines
4.6 KiB
C++
208 lines
4.6 KiB
C++
// See LICENSE for license details.
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#include "htif_emulator.h"
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#include "mm.h"
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#include "mm_dramsim2.h"
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#include <DirectC.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <vector>
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#include <sstream>
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#include <iterator>
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extern "C" {
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extern int vcs_main(int argc, char** argv);
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static htif_emulator_t* htif;
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static unsigned htif_bytes = HTIF_WIDTH / 8;
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static mm_t* mm[N_MEM_CHANNELS];
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static const char* loadmem;
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static bool dramsim = false;
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static int memory_channel_mux_select = 0;
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void htif_fini(vc_handle failure)
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{
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delete htif;
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htif = NULL;
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exit(vc_getScalar(failure));
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}
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int main(int argc, char** argv)
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{
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for (int i = 1; i < argc; i++)
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{
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if (!strcmp(argv[i], "+dramsim"))
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dramsim = true;
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else if (!strncmp(argv[i], "+loadmem=", 9))
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loadmem = argv[i]+9;
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else if (!strncmp(argv[i], "+memory_channel_mux_select=", 27))
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memory_channel_mux_select = atoi(argv[i]+27);
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}
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htif = new htif_emulator_t(std::vector<std::string>(argv + 1, argv + argc));
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for (int i=0; i<N_MEM_CHANNELS; i++) {
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mm[i] = dramsim ? (mm_t*)(new mm_dramsim2_t) : (mm_t*)(new mm_magic_t);
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mm[i]->init(MEM_SIZE / N_MEM_CHANNELS, MEM_DATA_BITS / 8, CACHE_BLOCK_BYTES);
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}
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if (loadmem) {
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void *mems[N_MEM_CHANNELS];
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for (int i = 0; i < N_MEM_CHANNELS; i++)
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mems[i] = mm[i]->get_data();
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load_mem(mems, loadmem, CACHE_BLOCK_BYTES, N_MEM_CHANNELS);
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}
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vcs_main(argc, argv);
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abort(); // should never get here
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}
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void memory_tick(
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vc_handle channel,
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vc_handle ar_valid,
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vc_handle ar_ready,
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vc_handle ar_addr,
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vc_handle ar_id,
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vc_handle ar_size,
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vc_handle ar_len,
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vc_handle aw_valid,
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vc_handle aw_ready,
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vc_handle aw_addr,
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vc_handle aw_id,
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vc_handle aw_size,
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vc_handle aw_len,
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vc_handle w_valid,
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vc_handle w_ready,
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vc_handle w_strb,
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vc_handle w_data,
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vc_handle w_last,
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vc_handle r_valid,
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vc_handle r_ready,
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vc_handle r_resp,
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vc_handle r_id,
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vc_handle r_data,
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vc_handle r_last,
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vc_handle b_valid,
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vc_handle b_ready,
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vc_handle b_resp,
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vc_handle b_id)
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{
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int c = vc_4stVectorRef(channel)->d;
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assert(c < N_MEM_CHANNELS);
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mm_t* mmc = mm[c];
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uint32_t write_data[mmc->get_word_size()/sizeof(uint32_t)];
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for (size_t i = 0; i < mmc->get_word_size()/sizeof(uint32_t); i++)
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write_data[i] = vc_4stVectorRef(w_data)[i].d;
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uint32_t aw_id_val, ar_id_val;
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if (MEM_ID_BITS == 1) {
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aw_id_val = vc_getScalar(aw_id);
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ar_id_val = vc_getScalar(ar_id);
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} else {
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aw_id_val = vc_4stVectorRef(aw_id)->d;
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ar_id_val = vc_4stVectorRef(ar_id)->d;
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}
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mmc->tick
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(
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vc_getScalar(ar_valid),
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vc_4stVectorRef(ar_addr)->d - MEM_BASE,
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ar_id_val,
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vc_4stVectorRef(ar_size)->d,
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vc_4stVectorRef(ar_len)->d,
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vc_getScalar(aw_valid),
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vc_4stVectorRef(aw_addr)->d - MEM_BASE,
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aw_id_val,
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vc_4stVectorRef(aw_size)->d,
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vc_4stVectorRef(aw_len)->d,
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vc_getScalar(w_valid),
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vc_4stVectorRef(w_strb)->d,
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write_data,
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vc_getScalar(w_last),
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vc_getScalar(r_ready),
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vc_getScalar(b_ready)
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);
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vc_putScalar(ar_ready, mmc->ar_ready());
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vc_putScalar(aw_ready, mmc->aw_ready());
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vc_putScalar(w_ready, mmc->w_ready());
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vc_putScalar(b_valid, mmc->b_valid());
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vc_putScalar(r_valid, mmc->r_valid());
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vc_putScalar(r_last, mmc->r_last());
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vec32 d[mmc->get_word_size()/sizeof(uint32_t)];
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d[0].c = 0;
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d[0].d = mmc->b_resp();
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vc_put4stVector(b_resp, d);
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d[0].c = 0;
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d[0].d = mmc->r_resp();
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vc_put4stVector(r_resp, d);
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if (MEM_ID_BITS > 1) {
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d[0].c = 0;
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d[0].d = mmc->b_id();
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vc_put4stVector(b_id, d);
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d[0].c = 0;
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d[0].d = mmc->r_id();
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vc_put4stVector(r_id, d);
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} else {
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vc_putScalar(b_id, mmc->b_id());
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vc_putScalar(r_id, mmc->r_id());
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}
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for (size_t i = 0; i < mmc->get_word_size()/sizeof(uint32_t); i++)
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{
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d[i].c = 0;
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d[i].d = ((uint32_t*)mmc->r_data())[i];
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}
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vc_put4stVector(r_data, d);
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}
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void htif_tick
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(
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vc_handle htif_in_valid,
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vc_handle htif_in_ready,
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vc_handle htif_in_bits,
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vc_handle htif_out_valid,
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vc_handle htif_out_ready,
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vc_handle htif_out_bits,
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vc_handle exit
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)
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{
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static bool peek_in_valid;
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static uint32_t peek_in_bits;
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if (vc_getScalar(htif_in_ready))
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peek_in_valid = htif->recv_nonblocking(&peek_in_bits, htif_bytes);
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vc_putScalar(htif_out_ready, 1);
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if (vc_getScalar(htif_out_valid))
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{
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vec32* bits = vc_4stVectorRef(htif_out_bits);
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htif->send(&bits->d, htif_bytes);
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}
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vec32 bits = {0, 0};
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bits.d = peek_in_bits;
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vc_put4stVector(htif_in_bits, &bits);
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vc_putScalar(htif_in_valid, peek_in_valid);
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bits.d = htif->done() ? (htif->exit_code() << 1 | 1) : 0;
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vc_put4stVector(exit, &bits);
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}
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}
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