verilog/dv/uart_master/uart_master.c - third_party/shuttle/sky130/mpw-006/slot-005 - Git at Google

 /*
  * SPDX-FileCopyrightText: 2020 Efabless Corporation
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  * SPDX-License-Identifier: Apache-2.0
  */

 // This include is relative to $CARAVEL_PATH (see Makefile)
 #include <defs.h>
 #include <stub.c>
 #include "../c_func/inc/user_reg_map.h"

 // User Project Slaves (0x3000_0000)


 #define GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP   0x1C00

 #define SC_SIM_OUTPORT (0xf0000000)

 /*
          RiscV Hello World test.
 	        - Wake up the Risc V
 		- Boot from SPI Flash
 		- Riscv Write Hello World to SDRAM,
 		- External Wishbone read back validation the data
 */
 int i = 0;
 int clk = 0;
 int uart_cfg = 0;
 void main()
 {

 	int bFail = 0;
 	/*
 	IO Control Registers
 	| DM     | VTRIP | SLOW  | AN_POL | AN_SEL | AN_EN | MOD_SEL | INP_DIS | HOLDH | OEB_N | MGMT_EN |
 	| 3-bits | 1-bit | 1-bit | 1-bit  | 1-bit  | 1-bit | 1-bit   | 1-bit   | 1-bit | 1-bit | 1-bit   |
 	Output: 0000_0110_0000_1110  (0x1808) = GPIO_MODE_USER_STD_OUTPUT
 	| DM     | VTRIP | SLOW  | AN_POL | AN_SEL | AN_EN | MOD_SEL | INP_DIS | HOLDH | OEB_N | MGMT_EN |
 	| 110    | 0     | 0     | 0      | 0      | 0     | 0       | 1       | 0     | 0     | 0       |


 	Input: 0000_0001_0000_1111 (0x0402) = GPIO_MODE_USER_STD_INPUT_NOPULL
 	| DM     | VTRIP | SLOW  | AN_POL | AN_SEL | AN_EN | MOD_SEL | INP_DIS | HOLDH | OEB_N | MGMT_EN |
 	| 001    | 0     | 0     | 0      | 0      | 0     | 0       | 0       | 0     | 1     | 0       |

 	Input: 0000_0001_0000_1111 (0x1800) = GPIO_MODE_USER_STD_BIDIRECTIONAL
 	| DM     | VTRIP | SLOW  | AN_POL | AN_SEL | AN_EN | MOD_SEL | INP_DIS | HOLDH | OEB_N | MGMT_EN |
 	| 110    | 0     | 0     | 0      | 0      | 0     | 0       | 0       | 0     | 0     | 0       |
 	*/

 	/* Set up the housekeeping SPI to be connected internally so	*/
 	/* that external pin changes don't affect it.			*/

     reg_spi_enable = 1;
     reg_wb_enable = 1;
 	// reg_spimaster_config = 0xa002;	// Enable, prescaler = 2,
                                         // connect to housekeeping SPI

 	// Connect the housekeeping SPI to the SPI master
 	// so that the CSB line is not left floating.  This allows
 	// all of the GPIO pins to be used for user functions.

     reg_mprj_io_31 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_30 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_29 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_28 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_27 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_26 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_25 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_24 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_23 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_22 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_21 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_20 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_19 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_18 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_17 = GPIO_MODE_MGMT_STD_OUTPUT;
     reg_mprj_io_16 = GPIO_MODE_MGMT_STD_OUTPUT;

      /* Apply configuration */
     reg_mprj_xfer = 1;
     while (reg_mprj_xfer == 1);

     reg_la0_oenb = reg_la0_iena = 0xFFFFFFFF;    // [31:0]

     // Flag start of the test
 	reg_mprj_datal = 0xAB600000;

     //-----------------------------------------------------
     // Start of User Functionality and take over the GPIO Pins
     // ------------------------------------------------------
     // User block decide on the GPIO function
     reg_mprj_io_37 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_36 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_35 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_34 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_33 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_32 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_31 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_30 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_29 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_28 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_27 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_26 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_25 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_24 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_23 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_22 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_21 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_20 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_19 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_18 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_17 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_16 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_15 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_14 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_13 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_12 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_11 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_10 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_9  = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_8  = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_7  = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_6 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_5 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_4 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_3 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_2 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_1 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
     reg_mprj_io_0 =  GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;

      /* Apply configuration */
     reg_mprj_xfer = 1;
     while (reg_mprj_xfer == 1);

     reg_la0_data = 0x000;
     //reg_la0_data = 0x000;
     //reg_la0_data |= 0x1; // bit[0] - Remove Software Reset
     //reg_la0_data |= 0x1; // bit[1] - Enable Transmit Path
     //reg_la0_data |= 0x2; // bit[2] - Enable Receive Path
     //reg_la0_data |= 0x4; // bit[3] - Set 2 Stop Bit
     //reg_la0_data |= 0x0; // bit[15:4] - 16x Baud Clock
     //reg_la0_data |= 0x0; // bit[17:16] - Priority mode = 0
     reg_la0_data = 0x001;
     reg_la0_data = 0x00F;


 }
	/*
	* SPDX-FileCopyrightText: 2020 Efabless Corporation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	* SPDX-License-Identifier: Apache-2.0
	*/

	// This include is relative to $CARAVEL_PATH (see Makefile)
	#include <defs.h>
	#include <stub.c>
	#include "../c_func/inc/user_reg_map.h"

	// User Project Slaves (0x3000_0000)


	#define GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP 0x1C00

	#define SC_SIM_OUTPORT (0xf0000000)

	/*
	RiscV Hello World test.
	- Wake up the Risc V
	- Boot from SPI Flash
	- Riscv Write Hello World to SDRAM,
	- External Wishbone read back validation the data
	*/
	int i = 0;
	int clk = 0;
	int uart_cfg = 0;
	void main()
	{

	int bFail = 0;
	/*
	IO Control Registers
	\| DM \| VTRIP \| SLOW \| AN_POL \| AN_SEL \| AN_EN \| MOD_SEL \| INP_DIS \| HOLDH \| OEB_N \| MGMT_EN \|
	\| 3-bits \| 1-bit \| 1-bit \| 1-bit \| 1-bit \| 1-bit \| 1-bit \| 1-bit \| 1-bit \| 1-bit \| 1-bit \|
	Output: 0000_0110_0000_1110 (0x1808) = GPIO_MODE_USER_STD_OUTPUT
	\| DM \| VTRIP \| SLOW \| AN_POL \| AN_SEL \| AN_EN \| MOD_SEL \| INP_DIS \| HOLDH \| OEB_N \| MGMT_EN \|
	\| 110 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 1 \| 0 \| 0 \| 0 \|


	Input: 0000_0001_0000_1111 (0x0402) = GPIO_MODE_USER_STD_INPUT_NOPULL
	\| DM \| VTRIP \| SLOW \| AN_POL \| AN_SEL \| AN_EN \| MOD_SEL \| INP_DIS \| HOLDH \| OEB_N \| MGMT_EN \|
	\| 001 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 1 \| 0 \|

	Input: 0000_0001_0000_1111 (0x1800) = GPIO_MODE_USER_STD_BIDIRECTIONAL
	\| DM \| VTRIP \| SLOW \| AN_POL \| AN_SEL \| AN_EN \| MOD_SEL \| INP_DIS \| HOLDH \| OEB_N \| MGMT_EN \|
	\| 110 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \| 0 \|
	*/

	/* Set up the housekeeping SPI to be connected internally so */
	/* that external pin changes don't affect it. */

	reg_spi_enable = 1;
	reg_wb_enable = 1;
	// reg_spimaster_config = 0xa002; // Enable, prescaler = 2,
	// connect to housekeeping SPI

	// Connect the housekeeping SPI to the SPI master
	// so that the CSB line is not left floating. This allows
	// all of the GPIO pins to be used for user functions.

	reg_mprj_io_31 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_30 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_29 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_28 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_27 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_26 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_25 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_24 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_23 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_22 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_21 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_20 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_19 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_18 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_17 = GPIO_MODE_MGMT_STD_OUTPUT;
	reg_mprj_io_16 = GPIO_MODE_MGMT_STD_OUTPUT;

	/* Apply configuration */
	reg_mprj_xfer = 1;
	while (reg_mprj_xfer == 1);

	reg_la0_oenb = reg_la0_iena = 0xFFFFFFFF; // [31:0]

	// Flag start of the test
	reg_mprj_datal = 0xAB600000;

	//-----------------------------------------------------
	// Start of User Functionality and take over the GPIO Pins
	// ------------------------------------------------------
	// User block decide on the GPIO function
	reg_mprj_io_37 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_36 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_35 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_34 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_33 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_32 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_31 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_30 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_29 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_28 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_27 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_26 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_25 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_24 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_23 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_22 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_21 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_20 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_19 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_18 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_17 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_16 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_15 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_14 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_13 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_12 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_11 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_10 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_9 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_8 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_7 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_6 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_5 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_4 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_3 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_2 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_1 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;
	reg_mprj_io_0 = GPIO_MODE_USER_STD_BIDIRECTIONAL_PULLUP;

	/* Apply configuration */
	reg_mprj_xfer = 1;
	while (reg_mprj_xfer == 1);

	reg_la0_data = 0x000;
	//reg_la0_data = 0x000;
	//reg_la0_data \|= 0x1; // bit[0] - Remove Software Reset
	//reg_la0_data \|= 0x1; // bit[1] - Enable Transmit Path
	//reg_la0_data \|= 0x2; // bit[2] - Enable Receive Path
	//reg_la0_data \|= 0x4; // bit[3] - Set 2 Stop Bit
	//reg_la0_data \|= 0x0; // bit[15:4] - 16x Baud Clock
	//reg_la0_data \|= 0x0; // bit[17:16] - Priority mode = 0
	reg_la0_data = 0x001;
	reg_la0_data = 0x00F;



	}