verilog/dv/peripheralsUART/peripheralsUART.c - third_party/shuttle/sky130/mpw-006/slot-032 - 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>

 /*
 	IO Test:
 		- Configures MPRJ lower 8-IO pins as outputs
 		- Observes counter value through the MPRJ lower 8 IO pins (in the testbench)
 */

 #define GPIO0_OE_ADDR ((uint32_t*)0x33031000)
 #define GPIO0_OUTPUT_ADDR ((uint32_t*)0x33031004)
 #define GPIO0_INPUT_ADDR ((uint32_t*)0x33031008)
 #define GPIO1_OE_ADDR ((uint32_t*)0x33032000)
 #define GPIO1_OUTPUT_ADDR ((uint32_t*)0x33032004)
 #define GPIO1_INPUT_ADDR ((uint32_t*)0x33032008)

 #define GPIO0_OE (*GPIO0_OE_ADDR)
 #define GPIO0_OUTPUT (*GPIO0_OUTPUT_ADDR)
 #define GPIO0_INPUT (*GPIO0_INPUT_ADDR)
 #define GPIO1_OE (*GPIO1_OE_ADDR)
 #define GPIO1_OUTPUT (*GPIO1_OUTPUT_ADDR)
 #define GPIO1_INPUT (*GPIO1_INPUT_ADDR)

 #define CARAVEL_UART_CONFIGURATION_ADDR ((uint32_t*)0x3F001000)
 #define CARAVEL_UART_CLEAR_ADDR ((uint32_t*)0x3F001004)
 #define CARAVEL_UART_STATUS_ADDR ((uint32_t*)0x3F001008)
 #define CARAVEL_UART_RX_ADDR ((uint32_t*)0x3F001010)
 #define CARAVEL_UART_TX__ADDR ((uint32_t*)0x3F001014)

 #define SOC_UART0_CONFIGURATION_ADDR ((uint32_t*)0x33001000)
 #define SOC_UART0_CLEAR_ADDR ((uint32_t*)0x33001004)
 #define SOC_UART0_STATUS_ADDR ((uint32_t*)0x33001008)
 #define SOC_UART0_RX_ADDR ((uint32_t*)0x33001010)
 #define SOC_UART0_TX__ADDR ((uint32_t*)0x33001014)

 #define MPRJ_WB_ADDRESS (*(volatile uint32_t*)0x30000000)
 #define MPRJ_WB_DATA_LOCATION 0x30008000

 void wbWrite (uint32_t* location, uint32_t value)
 {
 	// Write the address
 	uint32_t locationData = (uint32_t)location;
 	MPRJ_WB_ADDRESS = locationData & 0xFFFF8000;

 	// Write the data
 	uint32_t writeAddress = (locationData & 0x00007FFF) | MPRJ_WB_DATA_LOCATION;
 	*((volatile uint32_t*)writeAddress) = value;
 }

 uint32_t wbRead (uint32_t* location)
 {
 	// Write the address
 	uint32_t locationData = (uint32_t)location;
 	MPRJ_WB_ADDRESS = locationData & 0xFFFF8000;

 	// Write the data
 	uint32_t writeAddress = (locationData & 0x00007FFF) | MPRJ_WB_DATA_LOCATION;
 	return *((volatile uint32_t*)writeAddress);
 }

 void nextTest (bool testPassing)
 {
 	uint32_t testPassingOutput = testPassing ? 0x1 << 12 : 0;
 	wbWrite (GPIO0_OUTPUT_ADDR, testPassingOutput | (0x1 << 13));
 	wbWrite (GPIO0_OUTPUT_ADDR, testPassingOutput);
 }

 void main ()
 {
 	/*
 	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       |

 	*/

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

 	// 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.

 	// https://github.com/efabless/caravel/blob/main/docs/other/gpio.txt

 	// Enable the wishbone bus
 	reg_wb_enable = 1;

 	// Enable GPIO
 	reg_mprj_io_12 = GPIO_MODE_USER_STD_OUTPUT;
 	reg_mprj_io_13 = GPIO_MODE_USER_STD_OUTPUT;

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

 	// Setup test output
 	bool testPass = true;
 	wbWrite (GPIO0_OUTPUT_ADDR, 0x1 << 12);
 	wbWrite (GPIO0_OE_ADDR, ~0x03000);

 	// Write caravel device config and clear
 	uint32_t enabledDeviceConfig = 0x20014; // This effectively has baudrate of ~2MHz
 	uint32_t disabledDeviceConfig = 0x00014; // This effectively has baudrate of ~2MHz
 	wbWrite (CARAVEL_UART_CONFIGURATION_ADDR, disabledDeviceConfig);
 	wbWrite (CARAVEL_UART_CLEAR_ADDR, 0xF);

 	// Read that the config was set correctly
 	if (wbRead (CARAVEL_UART_CONFIGURATION_ADDR) != disabledDeviceConfig) testPass = false;
 	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0) testPass = false;
 	nextTest (testPass);

 	// Write peripheral device config and clear
 	wbWrite (SOC_UART0_CONFIGURATION_ADDR, enabledDeviceConfig);
 	wbWrite (SOC_UART0_CLEAR_ADDR, 0xF);

 	// Read that the config was set correctly
 	if (wbRead (SOC_UART0_CONFIGURATION_ADDR) != enabledDeviceConfig) testPass = false;
 	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
 	nextTest (testPass);

 	// Send data from caravel
 	uint32_t testData[] = { 0xCD, 0x55, 0xBE, 0xEF };

 	// Write one byte with the device still disabled to make sure it doesn't send
 	wbWrite (CARAVEL_UART_TX__ADDR, testData[0]);

 	// Check that the data is there
 	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0x8) testPass = false;
 	nextTest (testPass);

 	// Check that no data has arrived at the SoC UART device
 	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
 	nextTest (testPass);

 	// Now enable the device and send the remaining data
 	wbWrite (CARAVEL_UART_CONFIGURATION_ADDR, enabledDeviceConfig);

 	wbWrite (CARAVEL_UART_TX__ADDR, testData[1]);
 	wbWrite (CARAVEL_UART_TX__ADDR, testData[2]);
 	wbWrite (CARAVEL_UART_TX__ADDR, testData[3]);

 	// Make sure all of the data has been sent
 	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0) testPass = false;
 	nextTest (testPass);

 	// Read back data from peripheral
 	if (wbRead (SOC_UART0_RX_ADDR) != testData[0]) testPass = false;
 	if (wbRead (SOC_UART0_RX_ADDR) != testData[1]) testPass = false;
 	if (wbRead (SOC_UART0_RX_ADDR) != testData[2]) testPass = false;
 	if (wbRead (SOC_UART0_RX_ADDR) != testData[3]) testPass = false;
 	nextTest (testPass);

 	// Make sure all of the data is marked as read
 	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
 	nextTest (testPass);

 	// Send data from peripheral
 	wbWrite (SOC_UART0_TX__ADDR, testData[0]);
 	wbWrite (SOC_UART0_TX__ADDR, testData[1]);
 	wbWrite (SOC_UART0_TX__ADDR, testData[2]);
 	wbWrite (SOC_UART0_TX__ADDR, testData[3]);

 	// Make sure all of the data has been sent
 	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
 	nextTest (testPass);

 	// Read back data from caravel
 	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[0]) testPass = false;
 	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[1]) testPass = false;
 	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[2]) testPass = false;
 	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[3]) testPass = false;
 	nextTest (testPass);

 	// Make sure all of the data is marked as read
 	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0) testPass = false;

 	// Finish test
 	nextTest (testPass);
 }
	/*
	* 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>

	/*
	IO Test:
	- Configures MPRJ lower 8-IO pins as outputs
	- Observes counter value through the MPRJ lower 8 IO pins (in the testbench)
	*/

	#define GPIO0_OE_ADDR ((uint32_t*)0x33031000)
	#define GPIO0_OUTPUT_ADDR ((uint32_t*)0x33031004)
	#define GPIO0_INPUT_ADDR ((uint32_t*)0x33031008)
	#define GPIO1_OE_ADDR ((uint32_t*)0x33032000)
	#define GPIO1_OUTPUT_ADDR ((uint32_t*)0x33032004)
	#define GPIO1_INPUT_ADDR ((uint32_t*)0x33032008)

	#define GPIO0_OE (*GPIO0_OE_ADDR)
	#define GPIO0_OUTPUT (*GPIO0_OUTPUT_ADDR)
	#define GPIO0_INPUT (*GPIO0_INPUT_ADDR)
	#define GPIO1_OE (*GPIO1_OE_ADDR)
	#define GPIO1_OUTPUT (*GPIO1_OUTPUT_ADDR)
	#define GPIO1_INPUT (*GPIO1_INPUT_ADDR)

	#define CARAVEL_UART_CONFIGURATION_ADDR ((uint32_t*)0x3F001000)
	#define CARAVEL_UART_CLEAR_ADDR ((uint32_t*)0x3F001004)
	#define CARAVEL_UART_STATUS_ADDR ((uint32_t*)0x3F001008)
	#define CARAVEL_UART_RX_ADDR ((uint32_t*)0x3F001010)
	#define CARAVEL_UART_TX__ADDR ((uint32_t*)0x3F001014)

	#define SOC_UART0_CONFIGURATION_ADDR ((uint32_t*)0x33001000)
	#define SOC_UART0_CLEAR_ADDR ((uint32_t*)0x33001004)
	#define SOC_UART0_STATUS_ADDR ((uint32_t*)0x33001008)
	#define SOC_UART0_RX_ADDR ((uint32_t*)0x33001010)
	#define SOC_UART0_TX__ADDR ((uint32_t*)0x33001014)

	#define MPRJ_WB_ADDRESS ((volatile uint32_t)0x30000000)
	#define MPRJ_WB_DATA_LOCATION 0x30008000

	void wbWrite (uint32_t* location, uint32_t value)
	{
	// Write the address
	uint32_t locationData = (uint32_t)location;
	MPRJ_WB_ADDRESS = locationData & 0xFFFF8000;

	// Write the data
	uint32_t writeAddress = (locationData & 0x00007FFF) \| MPRJ_WB_DATA_LOCATION;
	((volatile uint32_t)writeAddress) = value;
	}

	uint32_t wbRead (uint32_t* location)
	{
	// Write the address
	uint32_t locationData = (uint32_t)location;
	MPRJ_WB_ADDRESS = locationData & 0xFFFF8000;

	// Write the data
	uint32_t writeAddress = (locationData & 0x00007FFF) \| MPRJ_WB_DATA_LOCATION;
	return ((volatile uint32_t)writeAddress);
	}

	void nextTest (bool testPassing)
	{
	uint32_t testPassingOutput = testPassing ? 0x1 << 12 : 0;
	wbWrite (GPIO0_OUTPUT_ADDR, testPassingOutput \| (0x1 << 13));
	wbWrite (GPIO0_OUTPUT_ADDR, testPassingOutput);
	}

	void main ()
	{
	/*
	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 \|

	*/

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

	// 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.

	// https://github.com/efabless/caravel/blob/main/docs/other/gpio.txt

	// Enable the wishbone bus
	reg_wb_enable = 1;

	// Enable GPIO
	reg_mprj_io_12 = GPIO_MODE_USER_STD_OUTPUT;
	reg_mprj_io_13 = GPIO_MODE_USER_STD_OUTPUT;

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

	// Setup test output
	bool testPass = true;
	wbWrite (GPIO0_OUTPUT_ADDR, 0x1 << 12);
	wbWrite (GPIO0_OE_ADDR, ~0x03000);

	// Write caravel device config and clear
	uint32_t enabledDeviceConfig = 0x20014; // This effectively has baudrate of ~2MHz
	uint32_t disabledDeviceConfig = 0x00014; // This effectively has baudrate of ~2MHz
	wbWrite (CARAVEL_UART_CONFIGURATION_ADDR, disabledDeviceConfig);
	wbWrite (CARAVEL_UART_CLEAR_ADDR, 0xF);

	// Read that the config was set correctly
	if (wbRead (CARAVEL_UART_CONFIGURATION_ADDR) != disabledDeviceConfig) testPass = false;
	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0) testPass = false;
	nextTest (testPass);

	// Write peripheral device config and clear
	wbWrite (SOC_UART0_CONFIGURATION_ADDR, enabledDeviceConfig);
	wbWrite (SOC_UART0_CLEAR_ADDR, 0xF);

	// Read that the config was set correctly
	if (wbRead (SOC_UART0_CONFIGURATION_ADDR) != enabledDeviceConfig) testPass = false;
	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
	nextTest (testPass);

	// Send data from caravel
	uint32_t testData[] = { 0xCD, 0x55, 0xBE, 0xEF };

	// Write one byte with the device still disabled to make sure it doesn't send
	wbWrite (CARAVEL_UART_TX__ADDR, testData[0]);

	// Check that the data is there
	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0x8) testPass = false;
	nextTest (testPass);

	// Check that no data has arrived at the SoC UART device
	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
	nextTest (testPass);

	// Now enable the device and send the remaining data
	wbWrite (CARAVEL_UART_CONFIGURATION_ADDR, enabledDeviceConfig);

	wbWrite (CARAVEL_UART_TX__ADDR, testData[1]);
	wbWrite (CARAVEL_UART_TX__ADDR, testData[2]);
	wbWrite (CARAVEL_UART_TX__ADDR, testData[3]);

	// Make sure all of the data has been sent
	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0) testPass = false;
	nextTest (testPass);

	// Read back data from peripheral
	if (wbRead (SOC_UART0_RX_ADDR) != testData[0]) testPass = false;
	if (wbRead (SOC_UART0_RX_ADDR) != testData[1]) testPass = false;
	if (wbRead (SOC_UART0_RX_ADDR) != testData[2]) testPass = false;
	if (wbRead (SOC_UART0_RX_ADDR) != testData[3]) testPass = false;
	nextTest (testPass);

	// Make sure all of the data is marked as read
	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
	nextTest (testPass);

	// Send data from peripheral
	wbWrite (SOC_UART0_TX__ADDR, testData[0]);
	wbWrite (SOC_UART0_TX__ADDR, testData[1]);
	wbWrite (SOC_UART0_TX__ADDR, testData[2]);
	wbWrite (SOC_UART0_TX__ADDR, testData[3]);

	// Make sure all of the data has been sent
	if (wbRead (SOC_UART0_STATUS_ADDR) != 0) testPass = false;
	nextTest (testPass);

	// Read back data from caravel
	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[0]) testPass = false;
	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[1]) testPass = false;
	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[2]) testPass = false;
	if (wbRead (CARAVEL_UART_RX_ADDR) != testData[3]) testPass = false;
	nextTest (testPass);

	// Make sure all of the data is marked as read
	if (wbRead (CARAVEL_UART_STATUS_ADDR) != 0) testPass = false;

	// Finish test
	nextTest (testPass);
	}