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[/] [openmsp430/] [trunk/] [core/] [sim/] [rtl_sim/] [src/] [dbg_uart_onoff.v] - Rev 202
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/*===========================================================================*/ /* Copyright (C) 2001 Authors */ /* */ /* This source file may be used and distributed without restriction provided */ /* that this copyright statement is not removed from the file and that any */ /* derivative work contains the original copyright notice and the associated */ /* disclaimer. */ /* */ /* This source file 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; either version 2.1 of the License, or */ /* (at your option) any later version. */ /* */ /* This source 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 source; if not, write to the Free Software Foundation, */ /* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ /* */ /*===========================================================================*/ /* DEBUG INTERFACE */ /*---------------------------------------------------------------------------*/ /* Test the debug interface: */ /* - CPU Control features. */ /* */ /* Author(s): */ /* - Olivier Girard, olgirard@gmail.com */ /* */ /*---------------------------------------------------------------------------*/ /* $Rev: 95 $ */ /* $LastChangedBy: olivier.girard $ */ /* $LastChangedDate: 2011-02-24 21:37:57 +0100 (Thu, 24 Feb 2011) $ */ /*===========================================================================*/ integer test_nr; integer test_var; initial begin $display(" ==============================================="); $display("| START SIMULATION |"); $display(" ==============================================="); `ifdef DBG_EN `ifdef DBG_UART `ifdef ASIC_CLOCKING tb_skip_finish("| (this test is not supported in ASIC mode) |"); `else test_nr = 0; #1 dbg_en = 0; repeat(30) @(posedge mclk); stimulus_done = 0; // Make sure the CPU always starts executing when the // debug interface is disabled during POR. //-------------------------------------------------------- dbg_en = 0; test_nr = 1; repeat(300) @(posedge mclk); if (r14 === 16'h0000) tb_error("====== CPU is stopped event though the debug interface is disabled - test 1 ====="); test_var = r14; // Make sure that enabling the debug interface after the POR // don't stop the cpu //-------------------------------------------------------- dbg_en = 1; test_nr = 2; repeat(300) @(posedge mclk); if (r14 === test_var[15:0]) tb_error("====== CPU is stopped when the debug interface is disabled after POR - test 2 ====="); // Create POR with debug enable and observe the // behavior depending on the DBG_RST_BRK_EN define //-------------------------------------------------------- dbg_en = 1; test_nr = 3; @(posedge mclk); // Generate POR reset_n = 1'b0; @(posedge mclk); reset_n = 1'b1; repeat(300) @(posedge mclk); `ifdef DBG_RST_BRK_EN if (r14 !== 16'h0000) tb_error("====== CPU is not stopped with the debug interface enabled and DBG_RST_BRK_EN=1 - test 3 ====="); `else if (r14 === 16'h0000) tb_error("====== CPU is stopped with the debug interface enabled and DBG_RST_BRK_EN=0 - test 3 ====="); `endif // Send uart synchronization frame dbg_uart_tx(DBG_SYNC); // Check CPU_CTL reset value dbg_uart_rd(CPU_CTL); `ifdef DBG_RST_BRK_EN if (dbg_uart_buf !== 16'h0030) tb_error("====== CPU_CTL wrong reset value - test 4 ====="); `else if (dbg_uart_buf !== 16'h0010) tb_error("====== CPU_CTL wrong reset value - test 4 ====="); `endif // Make sure that DBG_EN resets the debug interface //-------------------------------------------------------- test_nr = 4; // Let the CPU run dbg_uart_wr(CPU_CTL, 16'h0002); repeat(300) @(posedge mclk); dbg_uart_wr(CPU_CTL, 16'h0000); dbg_uart_wr(MEM_DATA, 16'haa55); dbg_uart_rd(CPU_CTL); if (dbg_uart_buf !== 16'h0000) tb_error("====== CPU_CTL write access failed - test 5 ====="); dbg_uart_rd(MEM_DATA); if (dbg_uart_buf !== 16'haa55) tb_error("====== MEM_DATA write access failed - test 6 ====="); test_var = r14; // Backup the current register value @(posedge mclk); // Resets the debug interface dbg_en = 1'b0; repeat(2) @(posedge mclk); dbg_en = 1'b1; // Make sure that the register was not reseted if (r14 < test_var) tb_error("====== CPU was reseted with DBG_EN - test 7 ====="); repeat(2) @(posedge mclk); // Send uart synchronization frame dbg_uart_tx(DBG_SYNC); // Check CPU_CTL reset value dbg_uart_rd(CPU_CTL); `ifdef DBG_RST_BRK_EN if (dbg_uart_buf !== 16'h0030) tb_error("====== CPU_CTL wrong reset value - test 8 ====="); `else if (dbg_uart_buf !== 16'h0010) tb_error("====== CPU_CTL wrong reset value - test 8 ====="); `endif dbg_uart_rd(MEM_DATA); if (dbg_uart_buf !== 16'h0000) tb_error("====== MEM_DATA read access failed - test 9 ====="); // Make sure that RESET_N resets the debug interface //-------------------------------------------------------- test_nr = 5; // Let the CPU run dbg_uart_wr(CPU_CTL, 16'h0002); repeat(300) @(posedge mclk); dbg_uart_wr(CPU_CTL, 16'h0000); dbg_uart_wr(MEM_DATA, 16'haa55); dbg_uart_rd(CPU_CTL); if (dbg_uart_buf !== 16'h0000) tb_error("====== CPU_CTL write access failed - test 10 ====="); dbg_uart_rd(MEM_DATA); if (dbg_uart_buf !== 16'haa55) tb_error("====== MEM_DATA write access failed - test 11 ====="); test_nr = 6; @(posedge mclk); // Generates POR reset_n = 1'b0; repeat(2) @(posedge mclk); reset_n = 1'b1; // Make sure that the register was reseted if (r14 !== 16'h0000) tb_error("====== CPU was not reseted with RESET_N - test 12 ====="); repeat(2) @(posedge mclk); // Send uart synchronization frame dbg_uart_tx(DBG_SYNC); test_nr = 7; // Check CPU_CTL reset value dbg_uart_rd(CPU_CTL); `ifdef DBG_RST_BRK_EN if (dbg_uart_buf !== 16'h0030) tb_error("====== CPU_CTL wrong reset value - test 8 ====="); `else if (dbg_uart_buf !== 16'h0010) tb_error("====== CPU_CTL wrong reset value - test 8 ====="); `endif dbg_uart_rd(MEM_DATA); if (dbg_uart_buf !== 16'h0000) tb_error("====== MEM_DATA read access failed - test 9 ====="); // Let the CPU run dbg_uart_wr(CPU_CTL, 16'h0002); test_nr = 8; // Generate IRQ to terminate the test pattern irq[`IRQ_NR-15] = 1'b1; @(r13); irq[`IRQ_NR-15] = 1'b0; stimulus_done = 1; `endif `else tb_skip_finish("| (serial debug interface UART not included) |"); `endif `else tb_skip_finish("| (serial debug interface not included) |"); `endif end