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[/] [openrisc/] [trunk/] [orpsocv2/] [bench/] [verilog/] [vpi/] [c/] [rsp-rtl_sim.c] - Rev 824
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/*$$HEADER*/ /******************************************************************************/ /* */ /* H E A D E R I N F O R M A T I O N */ /* */ /******************************************************************************/ // Project Name : ORPSoCv2 // File Name : rsp-rtl_sim.c // Prepared By : jb, jb@orsoc.se // Project Start : 2009-05-01 /*$$COPYRIGHT NOTICE*/ /******************************************************************************/ /* */ /* C O P Y R I G H T N O T I C E */ /* */ /******************************************************************************/ /* This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; version 2.1 of the License, a copy of which is available from http://www.gnu.org/licenses/old-licenses/lgpl-2.1.txt. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /* Establishes GDB proxy server and communicates via pipes to some functions running under the VPI in an RTL sim */ #include <stdio.h> #include <sys/stat.h> #include <sys/types.h> #include <assert.h> #include <ctype.h> #include <stdint.h> #include <string.h> #include <stdlib.h> #include <unistd.h> #include <stdarg.h> #include <fcntl.h> #include <errno.h> #include <signal.h> #include "gdb.h" #include "rsp-rtl_sim.h" #include "rsp-vpi.h" static int err = 0; /* Currently selected scan chain - just to prevent unnecessary transfers. */ static int current_chain = -1; /* The chain that should be currently selected. */ static int dbg_chain = -1; /* Crc of current read or written data. */ static int crc_r, crc_w = 0; /* Generates new crc, sending in new bit input_bit */ static uint32_t crc_calc(uint32_t crc, int input_bit) { uint32_t d = (input_bit&1) ? 0xfffffff : 0x0000000; uint32_t crc_32 = ((crc >> 31)&1) ? 0xfffffff : 0x0000000; crc <<= 1; return crc ^ (d ^ crc_32) & DBG_CRC_POLY; } /* VPI communication prototyopes */ static void get_response_from_vpi(); static void get_word_from_vpi(); static void get_byte_from_vpi(); static void get_block_data_from_vpi(int len, uint32_t *data); static void send_data_to_vpi(uint32_t data); static void send_block_data_to_vpi(int len, uint32_t *data); static void send_address_to_vpi(uint32_t address); static void send_command_to_vpi(char CMD); void send_command_to_vpi(char CMD) { // first thing we do is send a command // and wait for an ack int n; char cmd_resp; if (DBG_CALLS)printf("send_command_to_vpi: cmd 0x%x \n", CMD); //n = write(rsp_to_vpi_pipe[1],&CMD, 1); // send the command to the sim n = write(command_pipe[1],&CMD, 1); // send the command to the sim if (n < 0) error("ERROR writing to VPI FIFO"); n = read(vpi_to_rsp_pipe[0],&cmd_resp,1); // block and wait for the ack if (cmd_resp != CMD) error("Response from RTL sim incorrect"); //check it acked with cmd return; } void send_address_to_vpi(uint32_t address) { // Now send address int n; char* send_buf; if (DBG_CALLS)printf("send_address_to_vpi: address 0x%.8x\n",address); send_buf = (char *) &address; n = write(rsp_to_vpi_pipe[1],send_buf, 4); // send the address to the sim if (n < 0) error("ERROR writing to VPI socket"); return; } void send_data_to_vpi(uint32_t data) { // Now send data int n; char* send_buf; if (DBG_CALLS)printf("send_data_to_vpi: data 0x%.8x\n",data); send_buf = (char *) &data; n = write(rsp_to_vpi_pipe[1],send_buf, 4); // Write the data to the socket if (n < 0) error("ERROR writing to VPI socket"); return; } void send_block_data_to_vpi(int len, uint32_t *data) { // Now send data int n, i; char* send_buf; if (DBG_CALLS)printf("send_block_data_to_vpi: len %d\n",len); send_buf = (char *) data; n = write(rsp_to_vpi_pipe[1],send_buf, len); // Write the data to the fifo if (n < 0) error("ERROR writing to VPI socket"); return; } void get_byte_from_vpi(uint8_t* data) { int n; uint8_t inc_data; char* recv_buf; recv_buf = (char*) &inc_data; n = read(vpi_to_rsp_pipe[0],recv_buf,1); // block and wait for the data if (DBG_VPI) printf("rsp-rtl_sim: get_byte_from_vpi: 0x%.8x\n",inc_data); *data = inc_data; return; } void get_word_from_vpi(uint32_t* data) { int n; uint32_t inc_data; char* recv_buf; recv_buf = (char*) &inc_data; n = read(vpi_to_rsp_pipe[0],recv_buf,4); // block and wait for the data if (DBG_VPI) printf("rsp-rtl_sim: get_word_from_vpi: 0x%.8x\n",inc_data); *data = inc_data; return; } void get_block_data_from_vpi(int len, uint32_t* data) { int n, i, status; uint32_t inc_data; char* recv_buf; uint32_t* data_ptr; recv_buf = (char *) data; n=0; if (DBG_CALLS)printf("rsp_rtl_sim: get_block_data_from_vpi len %d\n",len); while (n < len) { status = read(vpi_to_rsp_pipe[0], recv_buf, len - n); // block and wait for the data if (status > 0) n += status; // we read "status" number of bytes } if (DBG_VPI){ printf("rsp-rtl_sim: get_block_data_from_vpi: %d bytes: ",len); for (i = 0;i < (len); i++) { if ((i%12) == 0) printf("\n\t"); printf("%.2x",recv_buf[i]); if ((i%3) == 0) printf(" "); } printf("\n"); } return; } void get_response_from_vpi() { // Basically just wait for the response from VPI // by blocking wait on recv int n = 0; char tmp; if (DBG_CALLS)printf("get_response_from_vpi.."); n = read(vpi_to_rsp_pipe[0],&tmp,1); // block and wait if (DBG_CALLS)printf("OK\n"); return; } static void jp2_reset_JTAG() { int i; debug2("\nreset("); send_command_to_vpi(CMD_RESET); get_response_from_vpi(); debug2(")\n"); } /* Resets JTAG, and sets DEBUG scan chain */ int dbg_reset() { int err; uint32_t id; jp2_reset_JTAG(); /* set idcode jtag chain */ send_command_to_vpi(CMD_JTAG_SET_IR); send_data_to_vpi(JI_IDCODE); get_response_from_vpi(); /* now read out the jtag id */ send_command_to_vpi(CMD_READ_JTAG_ID); //id = get_word_from_vpi(); get_word_from_vpi((uint32_t *)&id); get_response_from_vpi(); printf("JTAG ID = %08x\n", id); /* now set the chain to debug */ send_command_to_vpi(CMD_JTAG_SET_IR); send_data_to_vpi(JI_DEBUG); get_response_from_vpi(); current_chain = -1; return DBG_ERR_OK; } /* counts retries and returns zero if we should abort */ /* TODO: dinamically adjust timings for jp2 */ static int retry_no = 0; int retry_do() { int i, err; printf("RETRY\n"); //exit(2); if (retry_no >= NUM_SOFT_RETRIES) { if ((err = dbg_reset())) return err; } if (retry_no >= NUM_SOFT_RETRIES + NUM_HARD_RETRIES) { retry_no = 0; return 0; } retry_no++; return 1; } /* resets retry counter */ void retry_ok() { retry_no = 0; } /* Sets scan chain. */ int dbg_set_chain(int chain) { debug("\n"); debug2("dbg_set_chain %d\n", chain); if (current_chain == chain) return DBG_ERR_OK; if (DBG_CALLS)printf("dbg_set_chain chain %d \n", chain); dbg_chain = chain; send_command_to_vpi(CMD_SET_DEBUG_CHAIN); send_data_to_vpi(chain); get_response_from_vpi(); current_chain = chain; return DBG_ERR_OK; } /* writes a ctrl reg */ int dbg_ctrl(int reset, int stall) { debug("\n"); debug2("ctrl\n"); if (DBG_CALLS)printf("dbg_ctrl: reset %d stall %d \n", reset, stall); dbg_set_chain(dbg_chain); send_command_to_vpi(CMD_CPU_CTRL_WR); //send_data_to_vpi(((reset & 0x1) | ((stall&0x1)<<1))); send_data_to_vpi(((stall & 0x1) | ((reset&0x1)<<1))); get_response_from_vpi(); return DBG_ERR_OK; } /* reads control register */ int dbg_ctrl_read(int *reset, int *stall) { uint32_t resp; dbg_set_chain(dbg_chain); debug("\n"); debug2("ctrl\n"); if (DBG_CALLS)printf("dbg_ctrl_read\n"); dbg_set_chain(dbg_chain); send_command_to_vpi(CMD_CPU_CTRL_RD); get_word_from_vpi((uint32_t *)&resp); if (DBG_VPI) printf("rsp-rtl_sim: dbg_ctrl_read: 0x%.8x\n",resp); get_response_from_vpi(); *reset = (int)(resp & 0x00000001); *stall = (int)((resp >> 1) & 0x00000001); return DBG_ERR_OK; } /* read a word from wishbone */ int dbg_wb_read32(uint32_t adr, uint32_t *data) { if (DBG_CALLS)printf("dbg_wb_read32: adr 0x%.8x \n",adr); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_RD32); send_address_to_vpi(adr); get_word_from_vpi(data); get_response_from_vpi(); return 0; } /* read a word from wishbone */ int dbg_wb_read8(uint32_t adr, uint8_t *data) { if (DBG_CALLS)printf("dbg_wb_read8: adr 0x%.8x \n",adr); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_RD8); send_address_to_vpi(adr); get_byte_from_vpi(data); get_response_from_vpi(); return 0; } /* write a word to wishbone */ int dbg_wb_write32(uint32_t adr, uint32_t data) { if (DBG_CALLS)printf("dbg_wb_write32: adr 0x%.8x data 0x%.8x\n",adr, data); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_WR); send_address_to_vpi(adr); send_data_to_vpi(sizeof(data)); send_data_to_vpi(data); get_response_from_vpi(); return 0; } /* write a hword to wishbone */ int dbg_wb_write16(uint32_t adr, uint16_t data) { if (DBG_CALLS)printf("dbg_wb_write16: adr 0x%.8x data 0x%.4x\n",adr, data); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_WR); send_address_to_vpi(adr); send_data_to_vpi(sizeof(data)); send_data_to_vpi(data); get_response_from_vpi(); return 0; } /* write a word to wishbone */ int dbg_wb_write8(uint32_t adr, uint8_t data) { if (DBG_CALLS)printf("dbg_wb_write8: adr 0x%.8x data 0x%.2x\n",adr, data); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_WR); send_address_to_vpi(adr); send_data_to_vpi(sizeof(data)); send_data_to_vpi(data); get_response_from_vpi(); return 0; } /* read a block from wishbone */ int dbg_wb_read_block32(uint32_t adr, uint32_t *data, int len) { // len is in B Y T E S ! ! if (DBG_VPI) printf("xbrsp-rtl_sim: block read len: %d from addr: 0x%.8x\n",len, adr); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_BLOCK_RD32); send_data_to_vpi(adr); send_data_to_vpi(len); get_block_data_from_vpi(len, data); get_response_from_vpi(); return DBG_ERR_OK; } /* write a block to wishbone */ int dbg_wb_write_block32(uint32_t adr, uint32_t *data, int len) { if (DBG_CALLS)printf("dbg_wb_block32: adr 0x%.8x len %d bytes\n",adr, len); dbg_set_chain(DC_WISHBONE); send_command_to_vpi(CMD_WB_BLOCK_WR32); send_data_to_vpi(adr); send_data_to_vpi(len); send_block_data_to_vpi(len, data); get_response_from_vpi(); return DBG_ERR_OK; } /* read a register from cpu */ int dbg_cpu0_read(uint32_t adr, uint32_t *data, uint32_t length) { if (DBG_CALLS)printf("dbg_cpu0_read: adr 0x%.8x\n",adr); dbg_set_chain(DC_CPU0); send_command_to_vpi(CMD_CPU_RD_REG); send_address_to_vpi(adr); send_data_to_vpi(length); // Added 090901 --jb get_block_data_from_vpi(length, data); // changed 090901 --jb //get_word_from_vpi(data); get_response_from_vpi(); return 0; } /* write a cpu register */ int dbg_cpu0_write(uint32_t adr, uint32_t *data, uint32_t length) { if (DBG_CALLS)printf("dbg_cpu0_write: adr 0x%.8x\n",adr); dbg_set_chain(DC_CPU0); send_command_to_vpi(CMD_CPU_WR_REG); send_address_to_vpi(adr); send_data_to_vpi(length); // Added 090901 -- jb send_block_data_to_vpi(length, data); // Added 090901 -- jb get_response_from_vpi(); return 0; } /* read a register from cpu */ int dbg_cpu1_read(uint32_t adr, uint32_t *data) { /* int err; if ((err = dbg_set_chain(DC_CPU1))) return err; if ((err = dbg_command(0x6, adr, 4))) return err; if ((err = dbg_go((unsigned char*)data, 4, 1))) return err; *data = ntohl(*data); */ return DBG_ERR_OK; } /* write a cpu register */ int dbg_cpu1_write(uint32_t adr, uint32_t data) { /* int err; data = ntohl(data); if ((err = dbg_set_chain(DC_CPU1))) return err; if ((err = dbg_command(0x2, adr, 4))) return err; if ((err = dbg_go((unsigned char*)&data, 4, 0))) return err; */ return DBG_ERR_OK; } /* read a register from cpu module */ int dbg_cpu1_read_ctrl(uint32_t adr, unsigned char *data) { /* int err; int r, s; if ((err = dbg_set_chain(DC_CPU1))) return err; if ((err = dbg_ctrl_read(&r, &s))) return err; *data = (r << 1) | s; */ return DBG_ERR_OK; } /* write a cpu module register */ int dbg_cpu0_write_ctrl(uint32_t adr, unsigned char data) { int err; if ((err = dbg_set_chain(DC_CPU0))) return err; if ((err = dbg_ctrl(data & 2, data &1))) return err; return DBG_ERR_OK; } /* read a register from cpu module */ int dbg_cpu0_read_ctrl(uint32_t adr, unsigned char *data) { int err; int r, s; if ((err = dbg_set_chain(DC_CPU0))) return err; if ((err = dbg_ctrl_read(&r, &s))) return err; *data = (r << 1) | s; return DBG_ERR_OK; } void dbg_test() { int i; uint32_t npc, ppc, r1, insn, result; unsigned char stalled; // uint32_t stalled; unsigned char read_byte; printf(" Stall or1k\n"); dbg_cpu0_write_ctrl(0, 0x01); // stall or1k dbg_cpu0_read_ctrl(0, &stalled); if (!(stalled & 0x1)) { printf("\tor1k stall failed. read: 0x%x\n", stalled); // check stall or1k //exit(1); } /* Read NPC,PPC and SR regs, they are consecutive in CPU, at adr. 16, 17 and 18 */ uint32_t pcs_and_sr[3]; debug2(" Reading npc, ppc\n"); dbg_cpu0_read(16, (uint32_t *)pcs_and_sr, 3 * 4); debug2(" Reading r1\n"); dbg_cpu0_read(0x401, &r1, 4); printf(" Read npc = %.8x ppc = %.8x r1 = %.8x\n", pcs_and_sr[0], pcs_and_sr[2], r1); } // Catch the term/int signals, close gdb then close ourselves void catch_sigint(int sig_num) { gdb_close(); exit(0); } void dbg_client_detached(void) { // Send this message back to the sim send_command_to_vpi(CMD_GDB_DETACH); } // This function is called after the fork in the VPI function. void run_rsp_server(int portNum) { // Send commands to init and reset debug interface dbg_reset(); // Stall and read NPC, PPC etc dbg_test(); set_rsp_server_port(portNum); // Install SIGINT/SIGTERM handlers, to close down gracefully signal(SIGINT, catch_sigint); signal(SIGTERM, catch_sigint); if (DBG_ON) printf("rsp-rtl_sim: starting handle_rsp()\n"); // Now, start the RSP server. This should not return handle_rsp (); // Exit gracefully if it returns (shouldn't though) exit(0); }
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