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Remove CY8CPROTO_063_BLE target

pull/12909/head
Kyle Kearney 2020-04-28 12:22:31 -07:00
parent af39f0512a
commit 96f9915fa0
36 changed files with 0 additions and 9377 deletions
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36
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg.c
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@ -1,36 +0,0 @@
/*******************************************************************************
* File Name: cycfg.c
*
* Description:
* Wrapper function to initialize all generated code.
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#include "cycfg.h"
void init_cycfg_all(void)
{
init_cycfg_system();
init_cycfg_clocks();
init_cycfg_routing();
init_cycfg_peripherals();
init_cycfg_pins();
}

49
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg.h
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@ -1,49 +0,0 @@
/*******************************************************************************
* File Name: cycfg.h
*
* Description:
* Simple wrapper header containing all generated files.
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_H)
#define CYCFG_H
#if defined(__cplusplus)
extern "C" {
#endif
#include "cycfg_notices.h"
#include "cycfg_system.h"
#include "cycfg_clocks.h"
#include "cycfg_routing.h"
#include "cycfg_peripherals.h"
#include "cycfg_pins.h"
void init_cycfg_all(void);
#if defined(__cplusplus)
}
#endif
#endif /* CYCFG_H */

26
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg.timestamp
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/*******************************************************************************
* File Name: cycfg.timestamp
*
* Description:
* Sentinel file for determining if generated source is up to date.
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/

47
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_clocks.c
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@ -1,47 +0,0 @@
/*******************************************************************************
* File Name: cycfg_clocks.c
*
* Description:
* Clock configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#include "cycfg_clocks.h"
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t CYBSP_I2C_CLK_DIV_obj =
{
.type = CYHAL_RSC_CLOCK,
.block_num = CYBSP_I2C_CLK_DIV_HW,
.channel_num = CYBSP_I2C_CLK_DIV_NUM,
};
#endif //defined (CY_USING_HAL)
void init_cycfg_clocks(void)
{
Cy_SysClk_PeriphDisableDivider(CY_SYSCLK_DIV_8_BIT, 1U);
Cy_SysClk_PeriphSetDivider(CY_SYSCLK_DIV_8_BIT, 1U, 3U);
Cy_SysClk_PeriphEnableDivider(CY_SYSCLK_DIV_8_BIT, 1U);
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&CYBSP_I2C_CLK_DIV_obj);
#endif //defined (CY_USING_HAL)
}

55
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_clocks.h
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/*******************************************************************************
* File Name: cycfg_clocks.h
*
* Description:
* Clock configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_CLOCKS_H)
#define CYCFG_CLOCKS_H
#include "cycfg_notices.h"
#include "cy_sysclk.h"
#if defined (CY_USING_HAL)
#include "cyhal_hwmgr.h"
#endif //defined (CY_USING_HAL)
#if defined(__cplusplus)
extern "C" {
#endif
#define CYBSP_I2C_CLK_DIV_ENABLED 1U
#define CYBSP_I2C_CLK_DIV_HW CY_SYSCLK_DIV_8_BIT
#define CYBSP_I2C_CLK_DIV_NUM 1U
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t CYBSP_I2C_CLK_DIV_obj;
#endif //defined (CY_USING_HAL)
void init_cycfg_clocks(void);
#if defined(__cplusplus)
}
#endif
#endif /* CYCFG_CLOCKS_H */

32
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_notices.h
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/*******************************************************************************
* File Name: cycfg_notices.h
*
* Description:
* Contains warnings and errors that occurred while generating code for the
* design.
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_NOTICES_H)
#define CYCFG_NOTICES_H
#endif /* CYCFG_NOTICES_H */

44
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_peripherals.c
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/*******************************************************************************
* File Name: cycfg_peripherals.c
*
* Description:
* Peripheral Hardware Block configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#include "cycfg_peripherals.h"
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t CYBSP_BLE_obj =
{
.type = CYHAL_RSC_BLESS,
.block_num = 0U,
.channel_num = 0U,
};
#endif //defined (CY_USING_HAL)
void init_cycfg_peripherals(void)
{
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&CYBSP_BLE_obj);
#endif //defined (CY_USING_HAL)
}

59
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_peripherals.h
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@ -1,59 +0,0 @@
/*******************************************************************************
* File Name: cycfg_peripherals.h
*
* Description:
* Peripheral Hardware Block configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_PERIPHERALS_H)
#define CYCFG_PERIPHERALS_H
#include "cycfg_notices.h"
#if defined (CY_USING_HAL)
#include "cyhal_hwmgr.h"
#endif //defined (CY_USING_HAL)
#if defined(__cplusplus)
extern "C" {
#endif
#define CYBSP_BLE_ENABLED 1U
#define CY_BLE_CORE_CORTEX_M4 4U
#define CY_BLE_CORE_CORTEX_M0P 0U
#define CY_BLE_CORE_DUAL 255U
#ifndef CY_BLE_CORE
#define CY_BLE_CORE 4U
#endif
#define CY_BLE_IRQ bless_interrupt_IRQn
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t CYBSP_BLE_obj;
#endif //defined (CY_USING_HAL)
void init_cycfg_peripherals(void);
#if defined(__cplusplus)
}
#endif
#endif /* CYCFG_PERIPHERALS_H */

148
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_pins.c
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/*******************************************************************************
* File Name: cycfg_pins.c
*
* Description:
* Pin configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#include "cycfg_pins.h"
const cy_stc_gpio_pin_config_t WCO_IN_config =
{
.outVal = 1,
.driveMode = CY_GPIO_DM_ANALOG,
.hsiom = WCO_IN_HSIOM,
.intEdge = CY_GPIO_INTR_DISABLE,
.intMask = 0UL,
.vtrip = CY_GPIO_VTRIP_CMOS,
.slewRate = CY_GPIO_SLEW_FAST,
.driveSel = CY_GPIO_DRIVE_1_2,
.vregEn = 0UL,
.ibufMode = 0UL,
.vtripSel = 0UL,
.vrefSel = 0UL,
.vohSel = 0UL,
};
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t WCO_IN_obj =
{
.type = CYHAL_RSC_GPIO,
.block_num = WCO_IN_PORT_NUM,
.channel_num = WCO_IN_PIN,
};
#endif //defined (CY_USING_HAL)
const cy_stc_gpio_pin_config_t WCO_OUT_config =
{
.outVal = 1,
.driveMode = CY_GPIO_DM_ANALOG,
.hsiom = WCO_OUT_HSIOM,
.intEdge = CY_GPIO_INTR_DISABLE,
.intMask = 0UL,
.vtrip = CY_GPIO_VTRIP_CMOS,
.slewRate = CY_GPIO_SLEW_FAST,
.driveSel = CY_GPIO_DRIVE_1_2,
.vregEn = 0UL,
.ibufMode = 0UL,
.vtripSel = 0UL,
.vrefSel = 0UL,
.vohSel = 0UL,
};
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t WCO_OUT_obj =
{
.type = CYHAL_RSC_GPIO,
.block_num = WCO_OUT_PORT_NUM,
.channel_num = WCO_OUT_PIN,
};
#endif //defined (CY_USING_HAL)
const cy_stc_gpio_pin_config_t SWDIO_config =
{
.outVal = 1,
.driveMode = CY_GPIO_DM_PULLUP,
.hsiom = SWDIO_HSIOM,
.intEdge = CY_GPIO_INTR_DISABLE,
.intMask = 0UL,
.vtrip = CY_GPIO_VTRIP_CMOS,
.slewRate = CY_GPIO_SLEW_FAST,
.driveSel = CY_GPIO_DRIVE_1_2,
.vregEn = 0UL,
.ibufMode = 0UL,
.vtripSel = 0UL,
.vrefSel = 0UL,
.vohSel = 0UL,
};
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t SWDIO_obj =
{
.type = CYHAL_RSC_GPIO,
.block_num = SWDIO_PORT_NUM,
.channel_num = SWDIO_PIN,
};
#endif //defined (CY_USING_HAL)
const cy_stc_gpio_pin_config_t SWCLK_config =
{
.outVal = 1,
.driveMode = CY_GPIO_DM_PULLDOWN,
.hsiom = SWCLK_HSIOM,
.intEdge = CY_GPIO_INTR_DISABLE,
.intMask = 0UL,
.vtrip = CY_GPIO_VTRIP_CMOS,
.slewRate = CY_GPIO_SLEW_FAST,
.driveSel = CY_GPIO_DRIVE_1_2,
.vregEn = 0UL,
.ibufMode = 0UL,
.vtripSel = 0UL,
.vrefSel = 0UL,
.vohSel = 0UL,
};
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t SWCLK_obj =
{
.type = CYHAL_RSC_GPIO,
.block_num = SWCLK_PORT_NUM,
.channel_num = SWCLK_PIN,
};
#endif //defined (CY_USING_HAL)
void init_cycfg_pins(void)
{
Cy_GPIO_Pin_Init(WCO_IN_PORT, WCO_IN_PIN, &WCO_IN_config);
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&WCO_IN_obj);
#endif //defined (CY_USING_HAL)
Cy_GPIO_Pin_Init(WCO_OUT_PORT, WCO_OUT_PIN, &WCO_OUT_config);
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&WCO_OUT_obj);
#endif //defined (CY_USING_HAL)
Cy_GPIO_Pin_Init(SWDIO_PORT, SWDIO_PIN, &SWDIO_config);
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&SWDIO_obj);
#endif //defined (CY_USING_HAL)
Cy_GPIO_Pin_Init(SWCLK_PORT, SWCLK_PIN, &SWCLK_config);
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&SWCLK_obj);
#endif //defined (CY_USING_HAL)
}

162
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_pins.h
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@ -1,162 +0,0 @@
/*******************************************************************************
* File Name: cycfg_pins.h
*
* Description:
* Pin configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_PINS_H)
#define CYCFG_PINS_H
#include "cycfg_notices.h"
#include "cy_gpio.h"
#if defined (CY_USING_HAL)
#include "cyhal_hwmgr.h"
#endif //defined (CY_USING_HAL)
#include "cycfg_routing.h"
#if defined(__cplusplus)
extern "C" {
#endif
#define WCO_IN_ENABLED 1U
#define WCO_IN_PORT GPIO_PRT0
#define WCO_IN_PORT_NUM 0U
#define WCO_IN_PIN 0U
#define WCO_IN_NUM 0U
#define WCO_IN_DRIVEMODE CY_GPIO_DM_ANALOG
#define WCO_IN_INIT_DRIVESTATE 1
#ifndef ioss_0_port_0_pin_0_HSIOM
#define ioss_0_port_0_pin_0_HSIOM HSIOM_SEL_GPIO
#endif
#define WCO_IN_HSIOM ioss_0_port_0_pin_0_HSIOM
#define WCO_IN_IRQ ioss_interrupts_gpio_0_IRQn
#if defined (CY_USING_HAL)
#define WCO_IN_HAL_PORT_PIN P0_0
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define WCO_IN_HAL_IRQ CYHAL_GPIO_IRQ_NONE
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define WCO_IN_HAL_DIR CYHAL_GPIO_DIR_INPUT
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define WCO_IN_HAL_DRIVEMODE CYHAL_GPIO_DRIVE_ANALOG
#endif //defined (CY_USING_HAL)
#define WCO_OUT_ENABLED 1U
#define WCO_OUT_PORT GPIO_PRT0
#define WCO_OUT_PORT_NUM 0U
#define WCO_OUT_PIN 1U
#define WCO_OUT_NUM 1U
#define WCO_OUT_DRIVEMODE CY_GPIO_DM_ANALOG
#define WCO_OUT_INIT_DRIVESTATE 1
#ifndef ioss_0_port_0_pin_1_HSIOM
#define ioss_0_port_0_pin_1_HSIOM HSIOM_SEL_GPIO
#endif
#define WCO_OUT_HSIOM ioss_0_port_0_pin_1_HSIOM
#define WCO_OUT_IRQ ioss_interrupts_gpio_0_IRQn
#if defined (CY_USING_HAL)
#define WCO_OUT_HAL_PORT_PIN P0_1
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define WCO_OUT_HAL_IRQ CYHAL_GPIO_IRQ_NONE
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define WCO_OUT_HAL_DIR CYHAL_GPIO_DIR_INPUT
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define WCO_OUT_HAL_DRIVEMODE CYHAL_GPIO_DRIVE_ANALOG
#endif //defined (CY_USING_HAL)
#define SWDIO_ENABLED 1U
#define SWDIO_PORT GPIO_PRT6
#define SWDIO_PORT_NUM 6U
#define SWDIO_PIN 6U
#define SWDIO_NUM 6U
#define SWDIO_DRIVEMODE CY_GPIO_DM_PULLUP
#define SWDIO_INIT_DRIVESTATE 1
#ifndef ioss_0_port_6_pin_6_HSIOM
#define ioss_0_port_6_pin_6_HSIOM HSIOM_SEL_GPIO
#endif
#define SWDIO_HSIOM ioss_0_port_6_pin_6_HSIOM
#define SWDIO_IRQ ioss_interrupts_gpio_6_IRQn
#if defined (CY_USING_HAL)
#define SWDIO_HAL_PORT_PIN P6_6
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define SWDIO_HAL_IRQ CYHAL_GPIO_IRQ_NONE
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define SWDIO_HAL_DIR CYHAL_GPIO_DIR_BIDIRECTIONAL
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define SWDIO_HAL_DRIVEMODE CYHAL_GPIO_DRIVE_PULLUP
#endif //defined (CY_USING_HAL)
#define SWCLK_ENABLED 1U
#define SWCLK_PORT GPIO_PRT6
#define SWCLK_PORT_NUM 6U
#define SWCLK_PIN 7U
#define SWCLK_NUM 7U
#define SWCLK_DRIVEMODE CY_GPIO_DM_PULLDOWN
#define SWCLK_INIT_DRIVESTATE 1
#ifndef ioss_0_port_6_pin_7_HSIOM
#define ioss_0_port_6_pin_7_HSIOM HSIOM_SEL_GPIO
#endif
#define SWCLK_HSIOM ioss_0_port_6_pin_7_HSIOM
#define SWCLK_IRQ ioss_interrupts_gpio_6_IRQn
#if defined (CY_USING_HAL)
#define SWCLK_HAL_PORT_PIN P6_7
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define SWCLK_HAL_IRQ CYHAL_GPIO_IRQ_NONE
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define SWCLK_HAL_DIR CYHAL_GPIO_DIR_BIDIRECTIONAL
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
#define SWCLK_HAL_DRIVEMODE CYHAL_GPIO_DRIVE_PULLDOWN
#endif //defined (CY_USING_HAL)
extern const cy_stc_gpio_pin_config_t WCO_IN_config;
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t WCO_IN_obj;
#endif //defined (CY_USING_HAL)
extern const cy_stc_gpio_pin_config_t WCO_OUT_config;
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t WCO_OUT_obj;
#endif //defined (CY_USING_HAL)
extern const cy_stc_gpio_pin_config_t SWDIO_config;
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t SWDIO_obj;
#endif //defined (CY_USING_HAL)
extern const cy_stc_gpio_pin_config_t SWCLK_config;
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t SWCLK_obj;
#endif //defined (CY_USING_HAL)
void init_cycfg_pins(void);
#if defined(__cplusplus)
}
#endif
#endif /* CYCFG_PINS_H */

31
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_routing.c
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@ -1,31 +0,0 @@
/*******************************************************************************
* File Name: cycfg_routing.c
*
* Description:
* Establishes all necessary connections between hardware elements.
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#include "cycfg_routing.h"
void init_cycfg_routing(void)
{
}

47
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_routing.h
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@ -1,47 +0,0 @@
/*******************************************************************************
* File Name: cycfg_routing.h
*
* Description:
* Establishes all necessary connections between hardware elements.
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_ROUTING_H)
#define CYCFG_ROUTING_H
#if defined(__cplusplus)
extern "C" {
#endif
#include "cycfg_notices.h"
void init_cycfg_routing(void);
#define init_cycfg_connectivity() init_cycfg_routing()
#define ioss_0_port_0_pin_0_ANALOG P0_0_SRSS_WCO_IN
#define ioss_0_port_0_pin_1_ANALOG P0_1_SRSS_WCO_OUT
#define ioss_0_port_6_pin_6_HSIOM P6_6_CPUSS_SWJ_SWDIO_TMS
#define ioss_0_port_6_pin_7_HSIOM P6_7_CPUSS_SWJ_SWCLK_TCLK
#if defined(__cplusplus)
}
#endif
#endif /* CYCFG_ROUTING_H */

528
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/GeneratedSource/cycfg_system.c
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@ -1,528 +0,0 @@
/*******************************************************************************
* File Name: cycfg_system.c
*
* Description:
* System configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#include "cycfg_system.h"
#define CY_CFG_SYSCLK_ECO_ERROR 1
#define CY_CFG_SYSCLK_ALTHF_ERROR 2
#define CY_CFG_SYSCLK_PLL_ERROR 3
#define CY_CFG_SYSCLK_FLL_ERROR 4
#define CY_CFG_SYSCLK_WCO_ERROR 5
#define CY_CFG_SYSCLK_CLKBAK_ENABLED 1
#define CY_CFG_SYSCLK_CLKFAST_ENABLED 1
#define CY_CFG_SYSCLK_FLL_ENABLED 1
#define CY_CFG_SYSCLK_CLKHF0_ENABLED 1
#define CY_CFG_SYSCLK_CLKHF0_FREQ_MHZ 100UL
#define CY_CFG_SYSCLK_CLKHF0_CLKPATH CY_SYSCLK_CLKHF_IN_CLKPATH0
#define CY_CFG_SYSCLK_ILO_ENABLED 1
#define CY_CFG_SYSCLK_IMO_ENABLED 1
#define CY_CFG_SYSCLK_CLKLF_ENABLED 1
#define CY_CFG_SYSCLK_CLKPATH0_ENABLED 1
#define CY_CFG_SYSCLK_CLKPATH0_SOURCE CY_SYSCLK_CLKPATH_IN_IMO
#define CY_CFG_SYSCLK_CLKPATH1_ENABLED 1
#define CY_CFG_SYSCLK_CLKPATH1_SOURCE CY_SYSCLK_CLKPATH_IN_IMO
#define CY_CFG_SYSCLK_CLKPATH2_ENABLED 1
#define CY_CFG_SYSCLK_CLKPATH2_SOURCE CY_SYSCLK_CLKPATH_IN_IMO
#define CY_CFG_SYSCLK_CLKPATH3_ENABLED 1
#define CY_CFG_SYSCLK_CLKPATH3_SOURCE CY_SYSCLK_CLKPATH_IN_IMO
#define CY_CFG_SYSCLK_CLKPATH4_ENABLED 1
#define CY_CFG_SYSCLK_CLKPATH4_SOURCE CY_SYSCLK_CLKPATH_IN_IMO
#define CY_CFG_SYSCLK_CLKPERI_ENABLED 1
#define CY_CFG_SYSCLK_CLKSLOW_ENABLED 1
#define CY_CFG_SYSCLK_WCO_ENABLED 1
#define CY_CFG_PWR_ENABLED 1
#define CY_CFG_PWR_INIT 1
#define CY_CFG_PWR_USING_PMIC 0
#define CY_CFG_PWR_VBACKUP_USING_VDDD 1
#define CY_CFG_PWR_LDO_VOLTAGE CY_SYSPM_LDO_VOLTAGE_LP
#define CY_CFG_PWR_USING_ULP 0
static const cy_stc_fll_manual_config_t srss_0_clock_0_fll_0_fllConfig =
{
.fllMult = 500U,
.refDiv = 20U,
.ccoRange = CY_SYSCLK_FLL_CCO_RANGE4,
.enableOutputDiv = true,
.lockTolerance = 10U,
.igain = 9U,
.pgain = 5U,
.settlingCount = 8U,
.outputMode = CY_SYSCLK_FLLPLL_OUTPUT_OUTPUT,
.cco_Freq = 355U,
};
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t srss_0_clock_0_pathmux_0_obj =
{
.type = CYHAL_RSC_CLKPATH,
.block_num = 0U,
.channel_num = 0U,
};
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t srss_0_clock_0_pathmux_1_obj =
{
.type = CYHAL_RSC_CLKPATH,
.block_num = 1U,
.channel_num = 0U,
};
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t srss_0_clock_0_pathmux_2_obj =
{
.type = CYHAL_RSC_CLKPATH,
.block_num = 2U,
.channel_num = 0U,
};
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t srss_0_clock_0_pathmux_3_obj =
{
.type = CYHAL_RSC_CLKPATH,
.block_num = 3U,
.channel_num = 0U,
};
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
const cyhal_resource_inst_t srss_0_clock_0_pathmux_4_obj =
{
.type = CYHAL_RSC_CLKPATH,
.block_num = 4U,
.channel_num = 0U,
};
#endif //defined (CY_USING_HAL)
__WEAK void cycfg_ClockStartupError(uint32_t error)
{
(void)error; /* Suppress the compiler warning */
while(1);
}
__STATIC_INLINE void Cy_SysClk_ClkBakInit()
{
Cy_SysClk_ClkBakSetSource(CY_SYSCLK_BAK_IN_WCO);
}
__STATIC_INLINE void Cy_SysClk_ClkFastInit()
{
Cy_SysClk_ClkFastSetDivider(0U);
}
__STATIC_INLINE void Cy_SysClk_FllInit()
{
if (CY_SYSCLK_SUCCESS != Cy_SysClk_FllManualConfigure(&srss_0_clock_0_fll_0_fllConfig))
{
cycfg_ClockStartupError(CY_CFG_SYSCLK_FLL_ERROR);
}
if (CY_SYSCLK_SUCCESS != Cy_SysClk_FllEnable(200000UL))
{
cycfg_ClockStartupError(CY_CFG_SYSCLK_FLL_ERROR);
}
}
__STATIC_INLINE void Cy_SysClk_ClkHf0Init()
{
Cy_SysClk_ClkHfSetSource(0U, CY_CFG_SYSCLK_CLKHF0_CLKPATH);
Cy_SysClk_ClkHfSetDivider(0U, CY_SYSCLK_CLKHF_NO_DIVIDE);
}
__STATIC_INLINE void Cy_SysClk_IloInit()
{
/* The WDT is unlocked in the default startup code */
Cy_SysClk_IloEnable();
Cy_SysClk_IloHibernateOn(true);
}
__STATIC_INLINE void Cy_SysClk_ClkLfInit()
{
/* The WDT is unlocked in the default startup code */
Cy_SysClk_ClkLfSetSource(CY_SYSCLK_CLKLF_IN_WCO);
}
__STATIC_INLINE void Cy_SysClk_ClkPath0Init()
{
Cy_SysClk_ClkPathSetSource(0U, CY_CFG_SYSCLK_CLKPATH0_SOURCE);
}
__STATIC_INLINE void Cy_SysClk_ClkPath1Init()
{
Cy_SysClk_ClkPathSetSource(1U, CY_CFG_SYSCLK_CLKPATH1_SOURCE);
}
__STATIC_INLINE void Cy_SysClk_ClkPath2Init()
{
Cy_SysClk_ClkPathSetSource(2U, CY_CFG_SYSCLK_CLKPATH2_SOURCE);
}
__STATIC_INLINE void Cy_SysClk_ClkPath3Init()
{
Cy_SysClk_ClkPathSetSource(3U, CY_CFG_SYSCLK_CLKPATH3_SOURCE);
}
__STATIC_INLINE void Cy_SysClk_ClkPath4Init()
{
Cy_SysClk_ClkPathSetSource(4U, CY_CFG_SYSCLK_CLKPATH4_SOURCE);
}
__STATIC_INLINE void Cy_SysClk_ClkPeriInit()
{
Cy_SysClk_ClkPeriSetDivider(1U);
}
__STATIC_INLINE void Cy_SysClk_ClkSlowInit()
{
Cy_SysClk_ClkSlowSetDivider(0U);
}
__STATIC_INLINE void Cy_SysClk_WcoInit()
{
(void)Cy_GPIO_Pin_FastInit(GPIO_PRT0, 0U, 0x00U, 0x00U, HSIOM_SEL_GPIO);
(void)Cy_GPIO_Pin_FastInit(GPIO_PRT0, 1U, 0x00U, 0x00U, HSIOM_SEL_GPIO);
if (CY_SYSCLK_SUCCESS != Cy_SysClk_WcoEnable(1000000UL))
{
cycfg_ClockStartupError(CY_CFG_SYSCLK_WCO_ERROR);
}
}
__STATIC_INLINE void init_cycfg_power(void)
{
/* Reset the Backup domain on POR, XRES, BOD only if Backup domain is supplied by VDDD */
#if (CY_CFG_PWR_VBACKUP_USING_VDDD)
if (0u == Cy_SysLib_GetResetReason() /* POR, XRES, or BOD */)
{
Cy_SysLib_ResetBackupDomain();
Cy_SysClk_IloDisable();
Cy_SysClk_IloInit();
}
#else /* Dedicated Supply */
Cy_SysPm_BackupSetSupply(CY_SYSPM_VDDBACKUP_VBACKUP);
#endif /* CY_CFG_PWR_VBACKUP_USING_VDDD */
/* Configure core regulator */
#if CY_CFG_PWR_USING_LDO
Cy_SysPm_LdoSetVoltage(CY_SYSPM_LDO_VOLTAGE_LP);
Cy_SysPm_LdoSetMode(CY_SYSPM_LDO_MODE_NORMAL);
#else
Cy_SysPm_BuckEnable(CY_SYSPM_BUCK_OUT1_VOLTAGE_LP);
#endif /* CY_CFG_PWR_USING_LDO */
/* Configure PMIC */
Cy_SysPm_UnlockPmic();
#if CY_CFG_PWR_USING_PMIC
Cy_SysPm_PmicEnableOutput();
#else
Cy_SysPm_PmicDisableOutput();
#endif /* CY_CFG_PWR_USING_PMIC */
}
void init_cycfg_system(void)
{
/* Set worst case memory wait states (! ultra low power, 150 MHz), will update at the end */
Cy_SysLib_SetWaitStates(false, 150UL);
#ifdef CY_CFG_PWR_ENABLED
#ifdef CY_CFG_PWR_INIT
init_cycfg_power();
#else
#warning Power system will not be configured. Update power personality to v1.20 or later.
#endif /* CY_CFG_PWR_INIT */
#endif /* CY_CFG_PWR_ENABLED */
/* Reset the core clock path to default and disable all the FLLs/PLLs */
Cy_SysClk_ClkHfSetDivider(0U, CY_SYSCLK_CLKHF_NO_DIVIDE);
Cy_SysClk_ClkFastSetDivider(0U);
Cy_SysClk_ClkPeriSetDivider(1U);
Cy_SysClk_ClkSlowSetDivider(0U);
for (uint32_t pll = CY_SRSS_NUM_PLL; pll > 0UL; --pll) /* PLL 1 is the first PLL. 0 is invalid. */
{
(void)Cy_SysClk_PllDisable(pll);
}
Cy_SysClk_ClkPathSetSource(CY_SYSCLK_CLKHF_IN_CLKPATH1, CY_SYSCLK_CLKPATH_IN_IMO);
if ((CY_SYSCLK_CLKHF_IN_CLKPATH0 == Cy_SysClk_ClkHfGetSource(0UL)) &&
(CY_SYSCLK_CLKPATH_IN_WCO == Cy_SysClk_ClkPathGetSource(CY_SYSCLK_CLKHF_IN_CLKPATH0)))
{
Cy_SysClk_ClkHfSetSource(0U, CY_SYSCLK_CLKHF_IN_CLKPATH1);
}
Cy_SysClk_FllDisable();
Cy_SysClk_ClkPathSetSource(CY_SYSCLK_CLKHF_IN_CLKPATH0, CY_SYSCLK_CLKPATH_IN_IMO);
Cy_SysClk_ClkHfSetSource(0UL, CY_SYSCLK_CLKHF_IN_CLKPATH0);
#ifdef CY_IP_MXBLESS
(void)Cy_BLE_EcoReset();
#endif
/* Enable all source clocks */
#ifdef CY_CFG_SYSCLK_PILO_ENABLED
Cy_SysClk_PiloInit();
#endif
#ifdef CY_CFG_SYSCLK_WCO_ENABLED
Cy_SysClk_WcoInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKLF_ENABLED
Cy_SysClk_ClkLfInit();
#endif
#ifdef CY_CFG_SYSCLK_ALTHF_ENABLED
Cy_SysClk_AltHfInit();
#endif
#ifdef CY_CFG_SYSCLK_ECO_ENABLED
Cy_SysClk_EcoInit();
#endif
#ifdef CY_CFG_SYSCLK_EXTCLK_ENABLED
Cy_SysClk_ExtClkInit();
#endif
/* Configure CPU clock dividers */
#ifdef CY_CFG_SYSCLK_CLKFAST_ENABLED
Cy_SysClk_ClkFastInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKPERI_ENABLED
Cy_SysClk_ClkPeriInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKSLOW_ENABLED
Cy_SysClk_ClkSlowInit();
#endif
#if ((CY_CFG_SYSCLK_CLKPATH0_SOURCE == CY_SYSCLK_CLKPATH_IN_WCO) && (CY_CFG_SYSCLK_CLKHF0_CLKPATH == CY_SYSCLK_CLKHF_IN_CLKPATH0))
/* Configure HFCLK0 to temporarily run from IMO to initialize other clocks */
Cy_SysClk_ClkPathSetSource(1UL, CY_SYSCLK_CLKPATH_IN_IMO);
Cy_SysClk_ClkHfSetSource(0UL, CY_SYSCLK_CLKHF_IN_CLKPATH1);
#else
#ifdef CY_CFG_SYSCLK_CLKPATH1_ENABLED
Cy_SysClk_ClkPath1Init();
#endif
#endif
/* Configure Path Clocks */
#ifdef CY_CFG_SYSCLK_CLKPATH0_ENABLED
Cy_SysClk_ClkPath0Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH2_ENABLED
Cy_SysClk_ClkPath2Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH3_ENABLED
Cy_SysClk_ClkPath3Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH4_ENABLED
Cy_SysClk_ClkPath4Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH5_ENABLED
Cy_SysClk_ClkPath5Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH6_ENABLED
Cy_SysClk_ClkPath6Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH7_ENABLED
Cy_SysClk_ClkPath7Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH8_ENABLED
Cy_SysClk_ClkPath8Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH9_ENABLED
Cy_SysClk_ClkPath9Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH10_ENABLED
Cy_SysClk_ClkPath10Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH11_ENABLED
Cy_SysClk_ClkPath11Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH12_ENABLED
Cy_SysClk_ClkPath12Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH13_ENABLED
Cy_SysClk_ClkPath13Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH14_ENABLED
Cy_SysClk_ClkPath14Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKPATH15_ENABLED
Cy_SysClk_ClkPath15Init();
#endif
/* Configure and enable FLL */
#ifdef CY_CFG_SYSCLK_FLL_ENABLED
Cy_SysClk_FllInit();
#endif
Cy_SysClk_ClkHf0Init();
#if ((CY_CFG_SYSCLK_CLKPATH0_SOURCE == CY_SYSCLK_CLKPATH_IN_WCO) && (CY_CFG_SYSCLK_CLKHF0_CLKPATH == CY_SYSCLK_CLKHF_IN_CLKPATH0))
#ifdef CY_CFG_SYSCLK_CLKPATH1_ENABLED
/* Apply the ClkPath1 user setting */
Cy_SysClk_ClkPath1Init();
#endif
#endif
/* Configure and enable PLLs */
#ifdef CY_CFG_SYSCLK_PLL0_ENABLED
Cy_SysClk_Pll0Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL1_ENABLED
Cy_SysClk_Pll1Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL2_ENABLED
Cy_SysClk_Pll2Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL3_ENABLED
Cy_SysClk_Pll3Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL4_ENABLED
Cy_SysClk_Pll4Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL5_ENABLED
Cy_SysClk_Pll5Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL6_ENABLED
Cy_SysClk_Pll6Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL7_ENABLED
Cy_SysClk_Pll7Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL8_ENABLED
Cy_SysClk_Pll8Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL9_ENABLED
Cy_SysClk_Pll9Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL10_ENABLED
Cy_SysClk_Pll10Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL11_ENABLED
Cy_SysClk_Pll11Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL12_ENABLED
Cy_SysClk_Pll12Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL13_ENABLED
Cy_SysClk_Pll13Init();
#endif
#ifdef CY_CFG_SYSCLK_PLL14_ENABLED
Cy_SysClk_Pll14Init();
#endif
/* Configure HF clocks */
#ifdef CY_CFG_SYSCLK_CLKHF1_ENABLED
Cy_SysClk_ClkHf1Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF2_ENABLED
Cy_SysClk_ClkHf2Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF3_ENABLED
Cy_SysClk_ClkHf3Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF4_ENABLED
Cy_SysClk_ClkHf4Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF5_ENABLED
Cy_SysClk_ClkHf5Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF6_ENABLED
Cy_SysClk_ClkHf6Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF7_ENABLED
Cy_SysClk_ClkHf7Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF8_ENABLED
Cy_SysClk_ClkHf8Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF9_ENABLED
Cy_SysClk_ClkHf9Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF10_ENABLED
Cy_SysClk_ClkHf10Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF11_ENABLED
Cy_SysClk_ClkHf11Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF12_ENABLED
Cy_SysClk_ClkHf12Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF13_ENABLED
Cy_SysClk_ClkHf13Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF14_ENABLED
Cy_SysClk_ClkHf14Init();
#endif
#ifdef CY_CFG_SYSCLK_CLKHF15_ENABLED
Cy_SysClk_ClkHf15Init();
#endif
/* Configure miscellaneous clocks */
#ifdef CY_CFG_SYSCLK_CLKTIMER_ENABLED
Cy_SysClk_ClkTimerInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKALTSYSTICK_ENABLED
Cy_SysClk_ClkAltSysTickInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKPUMP_ENABLED
Cy_SysClk_ClkPumpInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKBAK_ENABLED
Cy_SysClk_ClkBakInit();
#endif
/* Configure default enabled clocks */
#ifdef CY_CFG_SYSCLK_ILO_ENABLED
Cy_SysClk_IloInit();
#else
Cy_SysClk_IloDisable();
#endif
#ifndef CY_CFG_SYSCLK_IMO_ENABLED
#error the IMO must be enabled for proper chip operation
#endif
#ifdef CY_CFG_SYSCLK_MFO_ENABLED
Cy_SysClk_MfoInit();
#endif
#ifdef CY_CFG_SYSCLK_CLKMF_ENABLED
Cy_SysClk_ClkMfInit();
#endif
/* Set accurate flash wait states */
#if (defined (CY_CFG_PWR_ENABLED) && defined (CY_CFG_SYSCLK_CLKHF0_ENABLED))
Cy_SysLib_SetWaitStates(CY_CFG_PWR_USING_ULP != 0, CY_CFG_SYSCLK_CLKHF0_FREQ_MHZ);
#endif
/* Update System Core Clock values for correct Cy_SysLib_Delay functioning */
SystemCoreClockUpdate();
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&srss_0_clock_0_pathmux_0_obj);
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&srss_0_clock_0_pathmux_1_obj);
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&srss_0_clock_0_pathmux_2_obj);
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&srss_0_clock_0_pathmux_3_obj);
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
cyhal_hwmgr_reserve(&srss_0_clock_0_pathmux_4_obj);
#endif //defined (CY_USING_HAL)
}

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@ -1,102 +0,0 @@
/*******************************************************************************
* File Name: cycfg_system.h
*
* Description:
* System configuration
* This file was automatically generated and should not be modified.
* cfg-backend-cli: 1.2.0.1478
* Device Support Library (../../../../output/psoc6/psoc6pdl): 1.4.0.1571
*
********************************************************************************
* Copyright 2017-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
********************************************************************************/
#if !defined(CYCFG_SYSTEM_H)
#define CYCFG_SYSTEM_H
#include "cycfg_notices.h"
#include "cy_sysclk.h"
#include "cy_ble_clk.h"
#if defined (CY_USING_HAL)
#include "cyhal_hwmgr.h"
#endif //defined (CY_USING_HAL)
#include "cy_gpio.h"
#include "cy_syspm.h"
#if defined(__cplusplus)
extern "C" {
#endif
#define cpuss_0_dap_0_ENABLED 1U
#define srss_0_clock_0_ENABLED 1U
#define srss_0_clock_0_bakclk_0_ENABLED 1U
#define srss_0_clock_0_fastclk_0_ENABLED 1U
#define srss_0_clock_0_fll_0_ENABLED 1U
#define srss_0_clock_0_hfclk_0_ENABLED 1U
#define CY_CFG_SYSCLK_CLKHF0 0UL
#define srss_0_clock_0_ilo_0_ENABLED 1U
#define srss_0_clock_0_imo_0_ENABLED 1U
#define srss_0_clock_0_lfclk_0_ENABLED 1U
#define CY_CFG_SYSCLK_CLKLF_FREQ_HZ 32768
#define srss_0_clock_0_pathmux_0_ENABLED 1U
#define srss_0_clock_0_pathmux_1_ENABLED 1U
#define srss_0_clock_0_pathmux_2_ENABLED 1U
#define srss_0_clock_0_pathmux_3_ENABLED 1U
#define srss_0_clock_0_pathmux_4_ENABLED 1U
#define srss_0_clock_0_periclk_0_ENABLED 1U
#define srss_0_clock_0_slowclk_0_ENABLED 1U
#define srss_0_clock_0_wco_0_ENABLED 1U
#define srss_0_power_0_ENABLED 1U
#define CY_CFG_PWR_MODE_LP 0x01UL
#define CY_CFG_PWR_MODE_ULP 0x02UL
#define CY_CFG_PWR_MODE_ACTIVE 0x04UL
#define CY_CFG_PWR_MODE_SLEEP 0x08UL
#define CY_CFG_PWR_MODE_DEEPSLEEP 0x10UL
#define CY_CFG_PWR_SYS_IDLE_MODE CY_CFG_PWR_MODE_DEEPSLEEP
#define CY_CFG_PWR_SYS_ACTIVE_MODE CY_CFG_PWR_MODE_LP
#define CY_CFG_PWR_DEEPSLEEP_LATENCY 0UL
#define CY_CFG_PWR_USING_LDO 1
#define CY_CFG_PWR_VDDA_MV 3300
#define CY_CFG_PWR_VDDD_MV 3300
#define CY_CFG_PWR_VBACKUP_MV 3300
#define CY_CFG_PWR_VDD_NS_MV 3300
#define CY_CFG_PWR_VDDIO0_MV 3300
#define CY_CFG_PWR_VDDIO1_MV 3300
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t srss_0_clock_0_pathmux_0_obj;
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t srss_0_clock_0_pathmux_1_obj;
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t srss_0_clock_0_pathmux_2_obj;
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t srss_0_clock_0_pathmux_3_obj;
#endif //defined (CY_USING_HAL)
#if defined (CY_USING_HAL)
extern const cyhal_resource_inst_t srss_0_clock_0_pathmux_4_obj;
#endif //defined (CY_USING_HAL)
void init_cycfg_system(void);
#if defined(__cplusplus)
}
#endif
#endif /* CYCFG_SYSTEM_H */

4
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/cyreservedresources.list
View File

@ -1,4 +0,0 @@
[Device=CYBLE-416045-02]
[Blocks]
# Nothing needs to be reserved for this board

208
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/COMPONENT_BSP_DESIGN_MODUS/design.modus
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@ -1,208 +0,0 @@
<?xml version="1.0" encoding="UTF-8"?>
<Design version="12" device_library_hint_path="../../psoc6pdl/devicesupport.xml" xmlns="http://cypress.com/xsd/cydesignfile_v3">
<ToolInfo version="1.0.0"/>
<Devices>
<Device mpn="CYBLE-416045-02">
<BlockConfig>
<Block location="bless[0]">
<Alias value="CYBSP_BLE"/>
<Personality template="mxs40ble" version="1.1">
<Param id="BleSharing" value="0"/>
<Param id="ExtPaLnaEnable" value="false"/>
</Personality>
</Block>
<Block location="cpuss[0].dap[0]">
<Personality template="mxs40dap" version="1.0">
<Param id="dbgMode" value="SWD"/>
<Param id="traceEnable" value="false"/>
</Personality>
</Block>
<Block location="ioss[0].port[0].pin[0]">
<Alias value="WCO_IN"/>
<Personality template="mxs40pin" version="1.1">
<Param id="DriveModes" value="CY_GPIO_DM_ANALOG"/>
<Param id="initialState" value="1"/>
<Param id="vtrip" value="CY_GPIO_VTRIP_CMOS"/>
<Param id="isrTrigger" value="CY_GPIO_INTR_DISABLE"/>
<Param id="slewRate" value="CY_GPIO_SLEW_FAST"/>
<Param id="driveStrength" value="CY_GPIO_DRIVE_1_2"/>
<Param id="sioOutputBuffer" value="true"/>
<Param id="inFlash" value="true"/>
</Personality>
</Block>
<Block location="ioss[0].port[0].pin[1]">
<Alias value="WCO_OUT"/>
<Personality template="mxs40pin" version="1.1">
<Param id="DriveModes" value="CY_GPIO_DM_ANALOG"/>
<Param id="initialState" value="1"/>
<Param id="vtrip" value="CY_GPIO_VTRIP_CMOS"/>
<Param id="isrTrigger" value="CY_GPIO_INTR_DISABLE"/>
<Param id="slewRate" value="CY_GPIO_SLEW_FAST"/>
<Param id="driveStrength" value="CY_GPIO_DRIVE_1_2"/>
<Param id="sioOutputBuffer" value="true"/>
<Param id="inFlash" value="true"/>
</Personality>
</Block>
<Block location="ioss[0].port[6].pin[4]"/>
<Block location="ioss[0].port[6].pin[5]"/>
<Block location="ioss[0].port[6].pin[6]">
<Alias value="SWDIO"/>
<Personality template="mxs40pin" version="1.1">
<Param id="DriveModes" value="CY_GPIO_DM_PULLUP"/>
<Param id="initialState" value="1"/>
<Param id="vtrip" value="CY_GPIO_VTRIP_CMOS"/>
<Param id="isrTrigger" value="CY_GPIO_INTR_DISABLE"/>
<Param id="slewRate" value="CY_GPIO_SLEW_FAST"/>
<Param id="driveStrength" value="CY_GPIO_DRIVE_1_2"/>
<Param id="sioOutputBuffer" value="true"/>
<Param id="inFlash" value="true"/>
</Personality>
</Block>
<Block location="ioss[0].port[6].pin[7]">
<Alias value="SWCLK"/>
<Personality template="mxs40pin" version="1.1">
<Param id="DriveModes" value="CY_GPIO_DM_PULLDOWN"/>
<Param id="initialState" value="1"/>
<Param id="vtrip" value="CY_GPIO_VTRIP_CMOS"/>
<Param id="isrTrigger" value="CY_GPIO_INTR_DISABLE"/>
<Param id="slewRate" value="CY_GPIO_SLEW_FAST"/>
<Param id="driveStrength" value="CY_GPIO_DRIVE_1_2"/>
<Param id="sioOutputBuffer" value="true"/>
<Param id="inFlash" value="true"/>
</Personality>
</Block>
<Block location="peri[0].div_8[1]">
<Alias value="CYBSP_I2C_CLK_DIV"/>
<Personality template="mxs40peripheralclock" version="1.0">
<Param id="intDivider" value="4"/>
<Param id="fracDivider" value="0"/>
<Param id="startOnReset" value="true"/>
</Personality>
</Block>
<Block location="scb[8]"/>
<Block location="srss[0].clock[0]">
<Personality template="mxs40sysclocks" version="1.2"/>
</Block>
<Block location="srss[0].clock[0].bakclk[0]">
<Personality template="mxs40bakclk" version="1.0">
<Param id="sourceClock" value="wco"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].fastclk[0]">
<Personality template="mxs40fastclk" version="1.0">
<Param id="divider" value="1"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].fll[0]">
<Personality template="mxs40fll" version="1.0">
<Param id="configuration" value="auto"/>
<Param id="desiredFrequency" value="100.000"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].hfclk[0]">
<Personality template="mxs40hfclk" version="1.1">
<Param id="sourceClockNumber" value="0"/>
<Param id="divider" value="1"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].ilo[0]">
<Personality template="mxs40ilo" version="1.0">
<Param id="hibernate" value="true"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].imo[0]">
<Personality template="mxs40imo" version="1.0">
<Param id="trim" value="1"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].lfclk[0]">
<Personality template="mxs40lfclk" version="1.1">
<Param id="sourceClock" value="wco"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].pathmux[0]">
<Personality template="mxs40pathmux" version="1.0">
<Param id="sourceClock" value="imo"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].pathmux[1]">
<Personality template="mxs40pathmux" version="1.0">
<Param id="sourceClock" value="imo"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].pathmux[2]">
<Personality template="mxs40pathmux" version="1.0">
<Param id="sourceClock" value="imo"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].pathmux[3]">
<Personality template="mxs40pathmux" version="1.0">
<Param id="sourceClock" value="imo"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].pathmux[4]">
<Personality template="mxs40pathmux" version="1.0">
<Param id="sourceClock" value="imo"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].periclk[0]">
<Personality template="mxs40periclk" version="1.0">
<Param id="divider" value="2"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].slowclk[0]">
<Personality template="mxs40slowclk" version="1.0">
<Param id="divider" value="1"/>
</Personality>
</Block>
<Block location="srss[0].clock[0].wco[0]">
<Personality template="mxs40wco" version="1.0">
<Param id="clockPort" value="CY_SYSCLK_WCO_NOT_BYPASSED"/>
<Param id="clockLostDetection" value="false"/>
<Param id="clockSupervisor" value="CY_SYSCLK_WCO_CSV_SUPERVISOR_ILO"/>
<Param id="lossWindow" value="CY_SYSCLK_CSV_LOSS_4_CYCLES"/>
<Param id="lossAction" value="CY_SYSCLK_CSV_ERROR_FAULT"/>
<Param id="accuracyPpm" value="150"/>
</Personality>
</Block>
<Block location="srss[0].power[0]">
<Personality template="mxs40power" version="1.2">
<Param id="pwrMode" value="LDO_1_1"/>
<Param id="actPwrMode" value="LP"/>
<Param id="coreRegulator" value="CY_SYSPM_LDO_MODE_NORMAL"/>
<Param id="pmicEnable" value="false"/>
<Param id="backupSrc" value="VDDD"/>
<Param id="idlePwrMode" value="CY_CFG_PWR_MODE_DEEPSLEEP"/>
<Param id="deepsleepLatency" value="0"/>
<Param id="vddaMv" value="3300"/>
<Param id="vdddMv" value="3300"/>
<Param id="vBackupMv" value="3300"/>
<Param id="vddNsMv" value="3300"/>
<Param id="vddio0Mv" value="3300"/>
<Param id="vddio1Mv" value="3300"/>
</Personality>
</Block>
</BlockConfig>
<Netlist>
<Net>
<Port name="cpuss[0].dap[0].swj_swclk_tclk[0]"/>
<Port name="ioss[0].port[6].pin[7].digital_in[0]"/>
</Net>
<Net>
<Port name="cpuss[0].dap[0].swj_swdio_tms[0]"/>
<Port name="ioss[0].port[6].pin[6].digital_inout[0]"/>
</Net>
<Net>
<Port name="ioss[0].port[0].pin[0].analog[0]"/>
<Port name="srss[0].clock[0].wco[0].wco_in[0]"/>
</Net>
<Net>
<Port name="ioss[0].port[0].pin[1].analog[0]"/>
<Port name="srss[0].clock[0].wco[0].wco_out[0]"/>
</Net>
</Netlist>
</Device>
</Devices>
<Libraries/>
<ConfiguratorData/>
</Design>

229
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/PeripheralPins.c
View File

@ -1,229 +0,0 @@
/*
* mbed Microcontroller Library
* Copyright (c) 2017-2018 Future Electronics
* Copyright (c) 2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*/
#include "PeripheralNames.h"
#include "PeripheralPins.h"
#include "pinmap.h"
#if DEVICE_SERIAL
//*** SERIAL ***
const PinMap PinMap_UART_RX[] = {
{P5_0, UART_5, CYHAL_PIN_IN_FUNCTION(P5_0_SCB5_UART_RX)},
{P6_4, UART_6, CYHAL_PIN_IN_FUNCTION(P6_4_SCB6_UART_RX)},
{P9_0, UART_2, CYHAL_PIN_IN_FUNCTION(P9_0_SCB2_UART_RX)},
{P10_0, UART_1, CYHAL_PIN_IN_FUNCTION(P10_0_SCB1_UART_RX)},
{NC, NC, 0}
};
const PinMap PinMap_UART_TX[] = {
{P5_1, UART_5, CYHAL_PIN_OUT_FUNCTION(P5_1_SCB5_UART_TX)},
{P6_5, UART_6, CYHAL_PIN_OUT_FUNCTION(P6_5_SCB6_UART_TX)},
{P7_1, UART_4, CYHAL_PIN_OUT_FUNCTION(P7_1_SCB4_UART_TX)},
{P9_1, UART_2, CYHAL_PIN_OUT_FUNCTION(P9_1_SCB2_UART_TX)},
{P10_1, UART_1, CYHAL_PIN_OUT_FUNCTION(P10_1_SCB1_UART_TX)},
{NC, NC, 0}
};
const PinMap PinMap_UART_RTS[] = {
{P0_4, UART_0, CYHAL_PIN_OUT_FUNCTION(P0_4_SCB0_UART_RTS)},
{P5_2, UART_5, CYHAL_PIN_OUT_FUNCTION(P5_2_SCB5_UART_RTS)},
{P6_2, UART_3, CYHAL_PIN_OUT_FUNCTION(P6_2_SCB3_UART_RTS)},
{P6_6, UART_6, CYHAL_PIN_OUT_FUNCTION(P6_6_SCB6_UART_RTS)},
{P7_2, UART_4, CYHAL_PIN_OUT_FUNCTION(P7_2_SCB4_UART_RTS)},
{P9_2, UART_2, CYHAL_PIN_OUT_FUNCTION(P9_2_SCB2_UART_RTS)},
{P10_2, UART_1, CYHAL_PIN_OUT_FUNCTION(P10_2_SCB1_UART_RTS)},
{NC, NC, 0}
};
const PinMap PinMap_UART_CTS[] = {
{P0_5, UART_0, CYHAL_PIN_IN_FUNCTION(P0_5_SCB0_UART_CTS)},
{P5_3, UART_5, CYHAL_PIN_IN_FUNCTION(P5_3_SCB5_UART_CTS)},
{P6_3, UART_3, CYHAL_PIN_IN_FUNCTION(P6_3_SCB3_UART_CTS)},
{P6_7, UART_6, CYHAL_PIN_IN_FUNCTION(P6_7_SCB6_UART_CTS)},
{P9_3, UART_2, CYHAL_PIN_IN_FUNCTION(P9_3_SCB2_UART_CTS)},
{P10_3, UART_1, CYHAL_PIN_IN_FUNCTION(P10_3_SCB1_UART_CTS)},
{NC, NC, 0}
};
#endif // DEVICE_SERIAL
#if DEVICE_I2C
//*** I2C ***
const PinMap PinMap_I2C_SCL[] = {
{P5_0, I2C_5, CYHAL_PIN_OD_FUNCTION(P5_0_SCB5_I2C_SCL)},
{P6_4, I2C_6, CYHAL_PIN_OD_FUNCTION(P6_4_SCB6_I2C_SCL)},
{P6_4, I2C_8, CYHAL_PIN_OD_FUNCTION(P6_4_SCB8_I2C_SCL)},
{P9_0, I2C_2, CYHAL_PIN_OD_FUNCTION(P9_0_SCB2_I2C_SCL)},
{P10_0, I2C_1, CYHAL_PIN_OD_FUNCTION(P10_0_SCB1_I2C_SCL)},
{NC, NC, 0}
};
const PinMap PinMap_I2C_SDA[] = {
{P5_1, I2C_5, CYHAL_PIN_OD_FUNCTION(P5_1_SCB5_I2C_SDA)},
{P6_5, I2C_6, CYHAL_PIN_OD_FUNCTION(P6_5_SCB6_I2C_SDA)},
{P6_5, I2C_8, CYHAL_PIN_OD_FUNCTION(P6_5_SCB8_I2C_SDA)},
{P7_1, I2C_4, CYHAL_PIN_OD_FUNCTION(P7_1_SCB4_I2C_SDA)},
{P9_1, I2C_2, CYHAL_PIN_OD_FUNCTION(P9_1_SCB2_I2C_SDA)},
{P10_1, I2C_1, CYHAL_PIN_OD_FUNCTION(P10_1_SCB1_I2C_SDA)},
{NC, NC, 0}
};
#endif // DEVICE_I2C
#if DEVICE_SPI
//*** SPI ***
const PinMap PinMap_SPI_MOSI[] = {
{P5_0, SPI_5, CYHAL_PIN_OUT_FUNCTION(P5_0_SCB5_SPI_MOSI)},
{P6_4, SPI_6, CYHAL_PIN_OUT_FUNCTION(P6_4_SCB6_SPI_MOSI)},
{P6_4, SPI_8, CYHAL_PIN_OUT_FUNCTION(P6_4_SCB8_SPI_MOSI)},
{P9_0, SPI_2, CYHAL_PIN_OUT_FUNCTION(P9_0_SCB2_SPI_MOSI)},
{P10_0, SPI_1, CYHAL_PIN_OUT_FUNCTION(P10_0_SCB1_SPI_MOSI)},
{NC, NC, 0}
};
const PinMap PinMap_SPI_MISO[] = {
{P5_1, SPI_5, CYHAL_PIN_IN_FUNCTION(P5_1_SCB5_SPI_MISO)},
{P6_5, SPI_6, CYHAL_PIN_IN_FUNCTION(P6_5_SCB6_SPI_MISO)},
{P6_5, SPI_8, CYHAL_PIN_IN_FUNCTION(P6_5_SCB8_SPI_MISO)},
{P7_1, SPI_4, CYHAL_PIN_IN_FUNCTION(P7_1_SCB4_SPI_MISO)},
{P9_1, SPI_2, CYHAL_PIN_IN_FUNCTION(P9_1_SCB2_SPI_MISO)},
{P10_1, SPI_1, CYHAL_PIN_IN_FUNCTION(P10_1_SCB1_SPI_MISO)},
{NC, NC, 0}
};
const PinMap PinMap_SPI_SCLK[] = {
{P0_4, SPI_0, CYHAL_PIN_OUT_FUNCTION(P0_4_SCB0_SPI_CLK)},
{P5_2, SPI_5, CYHAL_PIN_OUT_FUNCTION(P5_2_SCB5_SPI_CLK)},
{P6_2, SPI_3, CYHAL_PIN_OUT_FUNCTION(P6_2_SCB3_SPI_CLK)},
{P6_2, SPI_8, CYHAL_PIN_OUT_FUNCTION(P6_2_SCB8_SPI_CLK)},
{P6_6, SPI_6, CYHAL_PIN_OUT_FUNCTION(P6_6_SCB6_SPI_CLK)},
{P6_6, SPI_8, CYHAL_PIN_OUT_FUNCTION(P6_6_SCB8_SPI_CLK)},
{P7_2, SPI_4, CYHAL_PIN_OUT_FUNCTION(P7_2_SCB4_SPI_CLK)},
{P9_2, SPI_2, CYHAL_PIN_OUT_FUNCTION(P9_2_SCB2_SPI_CLK)},
{P10_2, SPI_1, CYHAL_PIN_OUT_FUNCTION(P10_2_SCB1_SPI_CLK)},
{NC, NC, 0}
};
const PinMap PinMap_SPI_SSEL[] = {
{P0_5, SPI_0, CYHAL_PIN_OUT_FUNCTION(P0_5_SCB0_SPI_SELECT0)},
{P5_3, SPI_5, CYHAL_PIN_OUT_FUNCTION(P5_3_SCB5_SPI_SELECT0)},
{P6_3, SPI_3, CYHAL_PIN_OUT_FUNCTION(P6_3_SCB3_SPI_SELECT0)},
{P6_3, SPI_8, CYHAL_PIN_OUT_FUNCTION(P6_3_SCB8_SPI_SELECT0)},
{P6_7, SPI_6, CYHAL_PIN_OUT_FUNCTION(P6_7_SCB6_SPI_SELECT0)},
{P6_7, SPI_8, CYHAL_PIN_OUT_FUNCTION(P6_7_SCB8_SPI_SELECT0)},
{P9_3, SPI_2, CYHAL_PIN_OUT_FUNCTION(P9_3_SCB2_SPI_SELECT0)},
{P10_3, SPI_1, CYHAL_PIN_OUT_FUNCTION(P10_3_SCB1_SPI_SELECT0)},
{NC, NC, 0}
};
#endif // DEVICE_SPI
#if DEVICE_PWMOUT
//*** PWM ***
const PinMap PinMap_PWM_OUT[] = {
// 16-bit PWM outputs
{P0_0, PWM_16b_0, CYHAL_PIN_OUT_FUNCTION(P0_0_TCPWM1_LINE0)},
{P0_4, PWM_16b_2, CYHAL_PIN_OUT_FUNCTION(P0_4_TCPWM1_LINE2)},
{P5_0, PWM_16b_4, CYHAL_PIN_OUT_FUNCTION(P5_0_TCPWM1_LINE4)},
{P5_2, PWM_16b_5, CYHAL_PIN_OUT_FUNCTION(P5_2_TCPWM1_LINE5)},
{P5_4, PWM_16b_6, CYHAL_PIN_OUT_FUNCTION(P5_4_TCPWM1_LINE6)},
{P5_6, PWM_16b_7, CYHAL_PIN_OUT_FUNCTION(P5_6_TCPWM1_LINE7)},
{P6_2, PWM_16b_9, CYHAL_PIN_OUT_FUNCTION(P6_2_TCPWM1_LINE9)},
{P6_4, PWM_16b_10, CYHAL_PIN_OUT_FUNCTION(P6_4_TCPWM1_LINE10)},
{P6_6, PWM_16b_11, CYHAL_PIN_OUT_FUNCTION(P6_6_TCPWM1_LINE11)},
{P7_2, PWM_16b_13, CYHAL_PIN_OUT_FUNCTION(P7_2_TCPWM1_LINE13)},
{P9_0, PWM_16b_20, CYHAL_PIN_OUT_FUNCTION(P9_0_TCPWM1_LINE20)},
{P9_2, PWM_16b_21, CYHAL_PIN_OUT_FUNCTION(P9_2_TCPWM1_LINE21)},
{P9_4, PWM_16b_0, CYHAL_PIN_OUT_FUNCTION(P9_4_TCPWM1_LINE0)},
{P9_6, PWM_16b_1, CYHAL_PIN_OUT_FUNCTION(P9_6_TCPWM1_LINE1)},
{P10_0, PWM_16b_22, CYHAL_PIN_OUT_FUNCTION(P10_0_TCPWM1_LINE22)},
{P10_2, PWM_16b_23, CYHAL_PIN_OUT_FUNCTION(P10_2_TCPWM1_LINE23)},
{P10_4, PWM_16b_0, CYHAL_PIN_OUT_FUNCTION(P10_4_TCPWM1_LINE0)},
{P10_6, PWM_16b_2, CYHAL_PIN_OUT_FUNCTION(P10_6_TCPWM1_LINE2)},
{P12_6, PWM_16b_7, CYHAL_PIN_OUT_FUNCTION(P12_6_TCPWM1_LINE7)},
// 16-bit PWM inverted outputs
{P0_1, PWM_16b_0, CYHAL_PIN_OUT_FUNCTION(P0_1_TCPWM1_LINE_COMPL0)},
{P0_5, PWM_16b_2, CYHAL_PIN_OUT_FUNCTION(P0_5_TCPWM1_LINE_COMPL2)},
{P5_1, PWM_16b_4, CYHAL_PIN_OUT_FUNCTION(P5_1_TCPWM1_LINE_COMPL4)},
{P5_3, PWM_16b_5, CYHAL_PIN_OUT_FUNCTION(P5_3_TCPWM1_LINE_COMPL5)},
{P5_5, PWM_16b_6, CYHAL_PIN_OUT_FUNCTION(P5_5_TCPWM1_LINE_COMPL6)},
{P6_3, PWM_16b_9, CYHAL_PIN_OUT_FUNCTION(P6_3_TCPWM1_LINE_COMPL9)},
{P6_5, PWM_16b_10, CYHAL_PIN_OUT_FUNCTION(P6_5_TCPWM1_LINE_COMPL10)},
{P6_7, PWM_16b_11, CYHAL_PIN_OUT_FUNCTION(P6_7_TCPWM1_LINE_COMPL11)},
{P7_1, PWM_16b_12, CYHAL_PIN_OUT_FUNCTION(P7_1_TCPWM1_LINE_COMPL12)},
{P7_7, PWM_16b_15, CYHAL_PIN_OUT_FUNCTION(P7_7_TCPWM1_LINE_COMPL15)},
{P9_1, PWM_16b_20, CYHAL_PIN_OUT_FUNCTION(P9_1_TCPWM1_LINE_COMPL20)},
{P9_3, PWM_16b_21, CYHAL_PIN_OUT_FUNCTION(P9_3_TCPWM1_LINE_COMPL21)},
{P9_5, PWM_16b_0, CYHAL_PIN_OUT_FUNCTION(P9_5_TCPWM1_LINE_COMPL0)},
{P10_1, PWM_16b_22, CYHAL_PIN_OUT_FUNCTION(P10_1_TCPWM1_LINE_COMPL22)},
{P10_3, PWM_16b_23, CYHAL_PIN_OUT_FUNCTION(P10_3_TCPWM1_LINE_COMPL23)},
{P10_5, PWM_16b_0, CYHAL_PIN_OUT_FUNCTION(P10_5_TCPWM1_LINE_COMPL0)},
{P12_7, PWM_16b_7, CYHAL_PIN_OUT_FUNCTION(P12_7_TCPWM1_LINE_COMPL7)},
// 32-bit PWM outputs
{P0_0, PWM_32b_0, CYHAL_PIN_OUT_FUNCTION(P0_0_TCPWM0_LINE0)},
{P0_4, PWM_32b_2, CYHAL_PIN_OUT_FUNCTION(P0_4_TCPWM0_LINE2)},
{P5_0, PWM_32b_4, CYHAL_PIN_OUT_FUNCTION(P5_0_TCPWM0_LINE4)},
{P5_2, PWM_32b_5, CYHAL_PIN_OUT_FUNCTION(P5_2_TCPWM0_LINE5)},
{P5_4, PWM_32b_6, CYHAL_PIN_OUT_FUNCTION(P5_4_TCPWM0_LINE6)},
{P5_6, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P5_6_TCPWM0_LINE7)},
{P6_2, PWM_32b_1, CYHAL_PIN_OUT_FUNCTION(P6_2_TCPWM0_LINE1)},
{P6_4, PWM_32b_2, CYHAL_PIN_OUT_FUNCTION(P6_4_TCPWM0_LINE2)},
{P6_6, PWM_32b_3, CYHAL_PIN_OUT_FUNCTION(P6_6_TCPWM0_LINE3)},
{P7_2, PWM_32b_5, CYHAL_PIN_OUT_FUNCTION(P7_2_TCPWM0_LINE5)},
{P9_0, PWM_32b_4, CYHAL_PIN_OUT_FUNCTION(P9_0_TCPWM0_LINE4)},
{P9_2, PWM_32b_5, CYHAL_PIN_OUT_FUNCTION(P9_2_TCPWM0_LINE5)},
{P9_4, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P9_4_TCPWM0_LINE7)},
{P9_6, PWM_32b_0, CYHAL_PIN_OUT_FUNCTION(P9_6_TCPWM0_LINE0)},
{P10_0, PWM_32b_6, CYHAL_PIN_OUT_FUNCTION(P10_0_TCPWM0_LINE6)},
{P10_2, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P10_2_TCPWM0_LINE7)},
{P10_4, PWM_32b_0, CYHAL_PIN_OUT_FUNCTION(P10_4_TCPWM0_LINE0)},
{P10_6, PWM_32b_1, CYHAL_PIN_OUT_FUNCTION(P10_6_TCPWM0_LINE1)},
{P12_6, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P12_6_TCPWM0_LINE7)},
// 32-bit PWM inverted outputs
{P0_1, PWM_32b_0, CYHAL_PIN_OUT_FUNCTION(P0_1_TCPWM0_LINE_COMPL0)},
{P0_5, PWM_32b_2, CYHAL_PIN_OUT_FUNCTION(P0_5_TCPWM0_LINE_COMPL2)},
{P5_1, PWM_32b_4, CYHAL_PIN_OUT_FUNCTION(P5_1_TCPWM0_LINE_COMPL4)},
{P5_3, PWM_32b_5, CYHAL_PIN_OUT_FUNCTION(P5_3_TCPWM0_LINE_COMPL5)},
{P5_5, PWM_32b_6, CYHAL_PIN_OUT_FUNCTION(P5_5_TCPWM0_LINE_COMPL6)},
{P6_3, PWM_32b_1, CYHAL_PIN_OUT_FUNCTION(P6_3_TCPWM0_LINE_COMPL1)},
{P6_5, PWM_32b_2, CYHAL_PIN_OUT_FUNCTION(P6_5_TCPWM0_LINE_COMPL2)},
{P6_7, PWM_32b_3, CYHAL_PIN_OUT_FUNCTION(P6_7_TCPWM0_LINE_COMPL3)},
{P7_1, PWM_32b_4, CYHAL_PIN_OUT_FUNCTION(P7_1_TCPWM0_LINE_COMPL4)},
{P7_7, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P7_7_TCPWM0_LINE_COMPL7)},
{P9_1, PWM_32b_4, CYHAL_PIN_OUT_FUNCTION(P9_1_TCPWM0_LINE_COMPL4)},
{P9_3, PWM_32b_5, CYHAL_PIN_OUT_FUNCTION(P9_3_TCPWM0_LINE_COMPL5)},
{P9_5, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P9_5_TCPWM0_LINE_COMPL7)},
{P10_1, PWM_32b_6, CYHAL_PIN_OUT_FUNCTION(P10_1_TCPWM0_LINE_COMPL6)},
{P10_3, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P10_3_TCPWM0_LINE_COMPL7)},
{P10_5, PWM_32b_0, CYHAL_PIN_OUT_FUNCTION(P10_5_TCPWM0_LINE_COMPL0)},
{P12_7, PWM_32b_7, CYHAL_PIN_OUT_FUNCTION(P12_7_TCPWM0_LINE_COMPL7)},
{NC, NC, 0}
};
#endif // DEVICE_PWMOUT
#if DEVICE_ANALOGIN
const PinMap PinMap_ADC[] = {
{P10_0, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{P10_1, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{P10_2, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{P10_3, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{P10_4, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{P10_5, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{P10_6, ADC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{NC, NC, 0}
};
#endif // DEVICE_ANALOGIN
#if DEVICE_ANALOGOUT
const PinMap PinMap_DAC[] = {
{P9_6, DAC_0, CYHAL_PIN_ANALOG_FUNCTION(HSIOM_SEL_GPIO)},
{NC, NC, 0}
};
#endif // DEVICE_ANALOGIN

128
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/cybsp.c
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/***************************************************************************//**
* \file cybsp.c
*
* Description:
* Provides initialization code for starting up the hardware contained on the
* Cypress board.
*
********************************************************************************
* \copyright
* Copyright 2018-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
#include <stdlib.h>
#include "cy_syspm.h"
#include "cy_sysclk.h"
#include "cybsp.h"
#if defined(CY_USING_HAL)
#include "cyhal_hwmgr.h"
#endif
#if defined(__cplusplus)
extern "C" {
#endif
/* The sysclk deep sleep callback is recommended to be the last callback that
* is executed before entry into deep sleep mode and the first one upon
* exit the deep sleep mode.
* Doing so minimizes the time spent on low power mode entry and exit.
*/
#ifndef CYBSP_SYSCLK_PM_CALLBACK_ORDER
#define CYBSP_SYSCLK_PM_CALLBACK_ORDER (255u)
#endif
#if defined(CYBSP_WIFI_CAPABLE) && defined(CY_USING_HAL)
static cyhal_sdio_t sdio_obj;
cyhal_sdio_t* cybsp_get_wifi_sdio_obj(void)
{
return &sdio_obj;
}
#endif
/**
* Registers a power management callback that prepares the clock system
* for entering deep sleep mode and restore the clocks upon wakeup from deep sleep.
* NOTE: This is called automatically as part of \ref cybsp_init
*/
static cy_rslt_t cybsp_register_sysclk_pm_callback(void)
{
cy_rslt_t result = CY_RSLT_SUCCESS;
static cy_stc_syspm_callback_params_t cybsp_sysclk_pm_callback_param = {NULL, NULL};
static cy_stc_syspm_callback_t cybsp_sysclk_pm_callback = {
.callback = &Cy_SysClk_DeepSleepCallback,
.type = CY_SYSPM_DEEPSLEEP,
.callbackParams = &cybsp_sysclk_pm_callback_param,
.order = CYBSP_SYSCLK_PM_CALLBACK_ORDER
};
if (!Cy_SysPm_RegisterCallback(&cybsp_sysclk_pm_callback))
{
result = CYBSP_RSLT_ERR_SYSCLK_PM_CALLBACK;
}
return result;
}
cy_rslt_t cybsp_init(void)
{
/* Setup hardware manager to track resource usage then initialize all system (clock/power) board configuration */
#if defined(CY_USING_HAL)
cy_rslt_t result = cyhal_hwmgr_init();
#else
cy_rslt_t result = CY_RSLT_SUCCESS;
#endif
#if defined(COMPONENT_BSP_DESIGN_MODUS) || defined(COMPONENT_CUSTOM_DESIGN_MODUS)
init_cycfg_all();
#endif
if (CY_RSLT_SUCCESS == result)
{
result = cybsp_register_sysclk_pm_callback();
}
#if defined(CYBSP_WIFI_CAPABLE) && defined(CY_USING_HAL)
/* Initialize SDIO interface. This must be done before other HAL API calls as some SDIO implementations require
* specific peripheral instances.
* NOTE: The full WiFi interface still needs to be initialized via cybsp_wifi_init_primary(). This is typically
* done when starting up WiFi.
*/
if (CY_RSLT_SUCCESS == result)
{
/* Reserves: CYBSP_WIFI_SDIO, CYBSP_WIFI_SDIO_D0, CYBSP_WIFI_SDIO_D1, CYBSP_WIFI_SDIO_D2, CYBSP_WIFI_SDIO_D3
* CYBSP_WIFI_SDIO_CMD and CYBSP_WIFI_SDIO_CLK.
*/
result = cyhal_sdio_init(
&sdio_obj,
CYBSP_WIFI_SDIO_CMD,
CYBSP_WIFI_SDIO_CLK,
CYBSP_WIFI_SDIO_D0,
CYBSP_WIFI_SDIO_D1,
CYBSP_WIFI_SDIO_D2,
CYBSP_WIFI_SDIO_D3);
}
#endif /* defined(CYBSP_WIFI_CAPABLE) */
/* CYHAL_HWMGR_RSLT_ERR_INUSE error code could be returned if any needed for BSP resource was reserved by
* user previously. Please review the Device Configurator (design.modus) and the BSP reservation list
* (cyreservedresources.list) to make sure no resources are reserved by both.
*/
return result;
}
#if defined(__cplusplus)
}
#endif

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targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/cybsp.h
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/***************************************************************************//**
* \file cybsp.h
*
* \brief
* Basic API for setting up boards containing a Cypress MCU.
*
********************************************************************************
* \copyright
* Copyright 2018-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
#pragma once
#include "cy_result.h"
#include "cybsp_types.h"
#if defined(COMPONENT_BSP_DESIGN_MODUS) || defined(COMPONENT_CUSTOM_DESIGN_MODUS)
#include "cycfg.h"
#endif
#if defined(CYBSP_WIFI_CAPABLE) && defined(CY_USING_HAL)
#include "cyhal_sdio.h"
#endif
#if defined(__cplusplus)
extern "C" {
#endif
/**
* \addtogroup group_bsp_macros Macros
* \{
*/
/** Failed to configure sysclk power management callback */
#define CYBSP_RSLT_ERR_SYSCLK_PM_CALLBACK (CY_RSLT_CREATE(CY_RSLT_TYPE_ERROR, CY_RSLT_MODULE_ABSTRACTION_BSP, 0))
/** \} group_bsp_macros */
/**
* \addtogroup group_bsp_functions Functions
* \{
*/
/**
* \brief Initialize all hardware on the board
* \returns CY_RSLT_SUCCESS if the board is sucessfully initialized, if there is
* a problem initializing any hardware it returns an error code specific
* to the hardware module that had a problem.
*/
cy_rslt_t cybsp_init(void);
#if defined(CYBSP_WIFI_CAPABLE) && defined(CY_USING_HAL)
/**
* \brief Get the initialized sdio object used for communicating with the WiFi Chip.
* \note This function should only be called after cybsp_init();
* \returns The initialized sdio object.
*/
cyhal_sdio_t* cybsp_get_wifi_sdio_obj(void);
#endif /* defined(CYBSP_WIFI_CAPABLE) */
/** \} group_bsp_functions */
#ifdef __cplusplus
}
#endif /* __cplusplus */

155
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/cybsp_types.h
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/***************************************************************************//**
* \file CY8CPROTO-063-BLE/cybsp_types.h
*
* Description:
* Provides APIs for interacting with the hardware contained on the Cypress
* CY8CPROTO-063-BLE kit.
*
********************************************************************************
* \copyright
* Copyright 2018-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
#pragma once
#if defined(CY_USING_HAL)
#include "cyhal_pin_package.h"
#endif
#if defined(__cplusplus)
extern "C" {
#endif
/**
* \addtogroup group_bsp_settings BSP Settings
* \{
*
* <div class="category">Peripheral Default HAL Settings:</div>
* | Resource | Parameter | Value | Remarks |
* | :------: | :-------: | :---: | :------ |
* | ADC | VREF | 1.2 V | |
* | ^ | Measurement type | Single Ended | |
* | ^ | Input voltage range | 0 to 2.4 V (0 to 2*VREF) | |
* | ^ | Output range | 0x000 to 0x7FF | |
* | DAC | Reference source | VDDA | |
* | ^ | Input range | 0x000 to 0xFFF | |
* | ^ | Output range | 0 to VDDA | |
* | ^ | Output type | Unbuffered output | |
* | I2C | Role | Master | Configurable to slave mode through HAL function |
* | ^ | Data rate | 100 kbps | Configurable through HAL function |
* | ^ | Drive mode of SCL & SDA pins | Open Drain (drives low) | External pull-up resistors are required |
* | LpTimer | Uses WCO (32.768 kHz) as clock source & MCWDT as counter. 1 count = 1/32768 second or 32768 counts = 1 second. |||
* | SPI | Data rate | 100 kpbs | Configurable through HAL function |
* | ^ | Slave select polarity | Active low | |
* | UART | Flow control | No flow control | Configurable through HAL function |
* | ^ | Data format | 8N1 | Configurable through HAL function |
* | ^ | Baud rate | 115200 | Configurable through HAL function |
*/
/** \} group_bsp_settings */
/**
* \addtogroup group_bsp_pin_state Pin States
* \{
*/
/** Pin state for the LED on. */
#define CYBSP_LED_STATE_ON (0U)
/** Pin state for the LED off. */
#define CYBSP_LED_STATE_OFF (1U)
/** Pin state for when a button is pressed. */
#define CYBSP_BTN_PRESSED (0U)
/** Pin state for when a button is released. */
#define CYBSP_BTN_OFF (1U)
/** \} group_bsp_pin_state */
#if defined(CY_USING_HAL)
/**
* \addtogroup group_bsp_pins Pin Mappings
* \{
*/
/**
* \addtogroup group_bsp_pins_led LED Pins
* \{
*/
/** LED 3; User LED1 (red) */
#define CYBSP_LED3 (P6_3)
/** LED 4; User LED2 (green) */
#define CYBSP_LED4 (P7_1)
/** LED 3; User LED1 (red) */
#define CYBSP_USER_LED1 (CYBSP_LED3)
/** LED 4; User LED2 (green) */
#define CYBSP_USER_LED2 (CYBSP_LED4)
/** LED 3; User LED1 (red) */
#define CYBSP_USER_LED (CYBSP_USER_LED1)
/** \} group_bsp_pins_led */
/**
* \addtogroup group_bsp_pins_btn Button Pins
* \{
*/
/** Switch 2; User Button 1 */
#define CYBSP_SW2 (P0_4)
/** Switch 2; User Button 1 */
#define CYBSP_USER_BTN1 (CYBSP_SW2)
/** Switch 2; User Button 1 */
#define CYBSP_USER_BTN (CYBSP_USER_BTN1)
/** \} group_bsp_pins_btn */
/**
* \addtogroup group_bsp_pins_comm Communication Pins
* \{
*/
/** Pin: UART RX */
#define CYBSP_UART_RX P5_0
/** Pin: UART TX */
#define CYBSP_UART_TX P5_1
/** Pin: UART RX */
#define CYBSP_DEBUG_UART_RX P5_0
/** Pin: UART TX */
#define CYBSP_DEBUG_UART_TX P5_1
/** Pin: I2C SCL */
#define CYBSP_I2C_SCL P6_4
/** Pin: I2C SDA */
#define CYBSP_I2C_SDA P6_5
/** Pin: SWDIO */
#define CYBSP_SWDIO P6_6
/** Pin: SWDCK */
#define CYBSP_SWDCK P6_7
/** \} group_bsp_pins_comm */
/** \} group_bsp_pins */
#endif /* defined(CY_USING_HAL) */
#if defined(__cplusplus)
}
#endif

311
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/TOOLCHAIN_ARM/cy8c6xx7_cm0plus.sct
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#! armclang -E --target=arm-arm-none-eabi -x c -mcpu=cortex-m0
; The first line specifies a preprocessor command that the linker invokes
; to pass a scatter file through a C preprocessor.
;*******************************************************************************
;* \file cy8c6xx7_cm0plus.sct
;* \version 2.70
;*
;* Linker file for the ARMCC.
;*
;* The main purpose of the linker script is to describe how the sections in the
;* input files should be mapped into the output file, and to control the memory
;* layout of the output file.
;*
;* \note The entry point location is fixed and starts at 0x10000000. The valid
;* application image should be placed there.
;*
;* \note The linker files included with the PDL template projects must be
;* generic and handle all common use cases. Your project may not use every
;* section defined in the linker files. In that case you may see the warnings
;* during the build process: L6314W (no section matches pattern) and/or L6329W
;* (pattern only matches removed unused sections). In your project, you can
;* suppress the warning by passing the "--diag_suppress=L6314W,L6329W" option to
;* the linker, simply comment out or remove the relevant code in the linker
;* file.
;*
;*******************************************************************************
;* \copyright
;* Copyright 2016-2019 Cypress Semiconductor Corporation
;* SPDX-License-Identifier: Apache-2.0
;*
;* 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.
;******************************************************************************/
#if !defined(MBED_ROM_START)
#define MBED_ROM_START 0x10000000
#endif
;* MBED_APP_START is being used by the bootloader build script and
;* will be calculate by the system. Without bootloader the MBED_APP_START
;* is equal to MBED_ROM_START
;*
#if !defined(MBED_APP_START)
#define MBED_APP_START MBED_ROM_START
#endif
#if !defined(MBED_ROM_SIZE)
#define MBED_ROM_SIZE 0x80000
#endif
;* MBED_APP_SIZE is being used by the bootloader build script and
;* will be calculate by the system. Without bootloader the MBED_APP_SIZE
;* is equal to MBED_ROM_SIZE
;*
#if !defined(MBED_APP_SIZE)
#define MBED_APP_SIZE MBED_ROM_SIZE
#endif
#if !defined(MBED_RAM_START)
#define MBED_RAM_START 0x08000000
#endif
#if !defined(MBED_RAM_SIZE)
#define MBED_RAM_SIZE 0x00010000
#endif
#if !defined(MBED_PUBLIC_RAM_SIZE)
#define MBED_PUBLIC_RAM_SIZE 0x200
#endif
; The size of the stack section at the end of CM0+ SRAM
#if !defined(MBED_BOOT_STACK_SIZE)
#define MBED_BOOT_STACK_SIZE 0x400
#endif
#define STACK_SIZE MBED_BOOT_STACK_SIZE
#if !defined(MBED_PUBLIC_RAM_START)
#define MBED_PUBLIC_RAM_START (MBED_RAM_START + MBED_RAM_SIZE - STACK_SIZE - MBED_PUBLIC_RAM_SIZE)
#endif
; The defines below describe the location and size of blocks of memory in the target.
; Use these defines to specify the memory regions available for allocation.
; The following defines control RAM and flash memory allocation for the CM0+ core.
; You can change the memory allocation by editing the RAM and Flash defines.
; Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
; Using this memory region for other purposes will lead to unexpected behavior.
; Your changes must be aligned with the corresponding defines for the CM4 core in 'xx_cm4_dual.scat',
; where 'xx' is the device group; for example, 'cy8c6xx7_cm4_dual.scat'.
; RAM
#define RAM_START MBED_RAM_START
#define RAM_SIZE MBED_RAM_SIZE
; Public RAM
#define PUBLIC_RAM_START MBED_PUBLIC_RAM_START
#define PUBLIC_RAM_SIZE MBED_PUBLIC_RAM_SIZE
; Flash
#define FLASH_START MBED_APP_START
#define FLASH_SIZE MBED_APP_SIZE
; The following defines describe a 32K flash region used for EEPROM emulation.
; This region can also be used as the general purpose flash.
; You can assign sections to this memory region for only one of the cores.
; Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
; Therefore, repurposing this memory region will prevent such middleware from operation.
#define EM_EEPROM_START 0x14000000
#define EM_EEPROM_SIZE 0x8000
; The following defines describe device specific memory regions and must not be changed.
; Supervisory flash: User data
#define SFLASH_USER_DATA_START 0x16000800
#define SFLASH_USER_DATA_SIZE 0x00000800
; Supervisory flash: Normal Access Restrictions (NAR)
#define SFLASH_NAR_START 0x16001A00
#define SFLASH_NAR_SIZE 0x00000200
; Supervisory flash: Public Key
#define SFLASH_PUBLIC_KEY_START 0x16005A00
#define SFLASH_PUBLIC_KEY_SIZE 0x00000C00
; Supervisory flash: Table of Content # 2
#define SFLASH_TOC_2_START 0x16007C00
#define SFLASH_TOC_2_SIZE 0x00000200
; Supervisory flash: Table of Content # 2 Copy
#define SFLASH_RTOC_2_START 0x16007E00
#define SFLASH_RTOC_2_SIZE 0x00000200
; External memory
#define XIP_START 0x18000000
#define XIP_SIZE 0x08000000
; eFuse
#define EFUSE_START 0x90700000
#define EFUSE_SIZE 0x100000
; Cortex-M0+ application flash area
LR_IROM1 FLASH_START (FLASH_SIZE - 0x8000)
{
.cy_app_header +0
{
* (.cy_app_header)
}
ER_FLASH_VECTORS +0
{
* (RESET, +FIRST)
}
ER_FLASH_CODE +0 FIXED
{
* (InRoot$$Sections)
* (+RO)
}
ER_RAM_VECTORS RAM_START UNINIT
{
* (RESET_RAM, +FIRST)
}
RW_RAM_DATA +0
{
* (.cy_ramfunc)
* (+RW, +ZI)
}
; Place variables in the section that should not be initialized during the
; device startup.
RW_IRAM1 +0 UNINIT
{
* (.noinit)
}
RW_IRAM2 PUBLIC_RAM_START UNINIT
{
* (.cy_sharedmem)
}
; Application heap area (HEAP)
ARM_LIB_HEAP +0 EMPTY RAM_START+RAM_SIZE-STACK_SIZE-ImageLimit(RW_IRAM2)
{
}
; Stack region growing down
ARM_LIB_STACK RAM_START+RAM_SIZE EMPTY -STACK_SIZE
{
}
}
; Emulated EEPROM Flash area
LR_EM_EEPROM EM_EEPROM_START EM_EEPROM_SIZE
{
.cy_em_eeprom +0
{
* (.cy_em_eeprom)
}
}
; Supervisory flash: User data
LR_SFLASH_USER_DATA SFLASH_USER_DATA_START SFLASH_USER_DATA_SIZE
{
.cy_sflash_user_data +0
{
* (.cy_sflash_user_data)
}
}
; Supervisory flash: Normal Access Restrictions (NAR)
LR_SFLASH_NAR SFLASH_NAR_START SFLASH_NAR_SIZE
{
.cy_sflash_nar +0
{
* (.cy_sflash_nar)
}
}
; Supervisory flash: Public Key
LR_SFLASH_PUBLIC_KEY SFLASH_PUBLIC_KEY_START SFLASH_PUBLIC_KEY_SIZE
{
.cy_sflash_public_key +0
{
* (.cy_sflash_public_key)
}
}
; Supervisory flash: Table of Content # 2
LR_SFLASH_TOC_2 SFLASH_TOC_2_START SFLASH_TOC_2_SIZE
{
.cy_toc_part2 +0
{
* (.cy_toc_part2)
}
}
; Supervisory flash: Table of Content # 2 Copy
LR_SFLASH_RTOC_2 SFLASH_RTOC_2_START SFLASH_RTOC_2_SIZE
{
.cy_rtoc_part2 +0
{
* (.cy_rtoc_part2)
}
}
; Places the code in the Execute in Place (XIP) section. See the smif driver documentation for details.
LR_EROM XIP_START XIP_SIZE
{
.cy_xip +0
{
* (.cy_xip)
}
}
; eFuse
LR_EFUSE EFUSE_START EFUSE_SIZE
{
.cy_efuse +0
{
* (.cy_efuse)
}
}
; The section is used for additional metadata (silicon revision, Silicon/JTAG ID, etc.) storage.
CYMETA 0x90500000
{
.cymeta +0 { * (.cymeta) }
}
/* The following symbols used by the cymcuelftool. */
/* Flash */
#define __cy_memory_0_start 0x10000000
#define __cy_memory_0_length 0x00100000
#define __cy_memory_0_row_size 0x200
/* Emulated EEPROM Flash area */
#define __cy_memory_1_start 0x14000000
#define __cy_memory_1_length 0x8000
#define __cy_memory_1_row_size 0x200
/* Supervisory Flash */
#define __cy_memory_2_start 0x16000000
#define __cy_memory_2_length 0x8000
#define __cy_memory_2_row_size 0x200
/* XIP */
#define __cy_memory_3_start 0x18000000
#define __cy_memory_3_length 0x08000000
#define __cy_memory_3_row_size 0x200
/* eFuse */
#define __cy_memory_4_start 0x90700000
#define __cy_memory_4_length 0x100000
#define __cy_memory_4_row_size 1
/* [] END OF FILE */

261
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/TOOLCHAIN_ARM/startup_psoc6_01_cm0plus.S
View File

@ -1,261 +0,0 @@
;/**************************************************************************//**
; * @file startup_psoc6_01_cm0plus.S
; * @brief CMSIS Core Device Startup File for
; * ARMCM0plus Device Series
; * @version V5.00
; * @date 02. March 2016
; ******************************************************************************/
;/*
; * Copyright (c) 2009-2016 ARM Limited. All rights reserved.
; *
; * SPDX-License-Identifier: Apache-2.0
; *
; * 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
; *
; * 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.
; */
PRESERVE8
THUMB
; Vector Table Mapped to Address 0 at Reset
AREA RESET, DATA, READONLY
EXPORT __Vectors
EXPORT __Vectors_End
EXPORT __Vectors_Size
IMPORT |Image$$ARM_LIB_STACK$$ZI$$Limit|
__Vectors DCD |Image$$ARM_LIB_STACK$$ZI$$Limit| ; Top of Stack
DCD Reset_Handler ; Reset Handler
DCD 0x0000000D ; NMI Handler located at ROM code
DCD HardFault_Handler ; Hard Fault Handler
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD SVC_Handler ; SVCall Handler
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD PendSV_Handler ; PendSV Handler
DCD SysTick_Handler ; SysTick Handler
; External interrupts Description
DCD NvicMux0_IRQHandler ; CM0+ NVIC Mux input 0
DCD NvicMux1_IRQHandler ; CM0+ NVIC Mux input 1
DCD NvicMux2_IRQHandler ; CM0+ NVIC Mux input 2
DCD NvicMux3_IRQHandler ; CM0+ NVIC Mux input 3
DCD NvicMux4_IRQHandler ; CM0+ NVIC Mux input 4
DCD NvicMux5_IRQHandler ; CM0+ NVIC Mux input 5
DCD NvicMux6_IRQHandler ; CM0+ NVIC Mux input 6
DCD NvicMux7_IRQHandler ; CM0+ NVIC Mux input 7
DCD NvicMux8_IRQHandler ; CM0+ NVIC Mux input 8
DCD NvicMux9_IRQHandler ; CM0+ NVIC Mux input 9
DCD NvicMux10_IRQHandler ; CM0+ NVIC Mux input 10
DCD NvicMux11_IRQHandler ; CM0+ NVIC Mux input 11
DCD NvicMux12_IRQHandler ; CM0+ NVIC Mux input 12
DCD NvicMux13_IRQHandler ; CM0+ NVIC Mux input 13
DCD NvicMux14_IRQHandler ; CM0+ NVIC Mux input 14
DCD NvicMux15_IRQHandler ; CM0+ NVIC Mux input 15
DCD NvicMux16_IRQHandler ; CM0+ NVIC Mux input 16
DCD NvicMux17_IRQHandler ; CM0+ NVIC Mux input 17
DCD NvicMux18_IRQHandler ; CM0+ NVIC Mux input 18
DCD NvicMux19_IRQHandler ; CM0+ NVIC Mux input 19
DCD NvicMux20_IRQHandler ; CM0+ NVIC Mux input 20
DCD NvicMux21_IRQHandler ; CM0+ NVIC Mux input 21
DCD NvicMux22_IRQHandler ; CM0+ NVIC Mux input 22
DCD NvicMux23_IRQHandler ; CM0+ NVIC Mux input 23
DCD NvicMux24_IRQHandler ; CM0+ NVIC Mux input 24
DCD NvicMux25_IRQHandler ; CM0+ NVIC Mux input 25
DCD NvicMux26_IRQHandler ; CM0+ NVIC Mux input 26
DCD NvicMux27_IRQHandler ; CM0+ NVIC Mux input 27
DCD NvicMux28_IRQHandler ; CM0+ NVIC Mux input 28
DCD NvicMux29_IRQHandler ; CM0+ NVIC Mux input 29
DCD NvicMux30_IRQHandler ; CM0+ NVIC Mux input 30
DCD NvicMux31_IRQHandler ; CM0+ NVIC Mux input 31
__Vectors_End
__Vectors_Size EQU __Vectors_End - __Vectors
EXPORT __ramVectors
AREA RESET_RAM, READWRITE, NOINIT
__ramVectors SPACE __Vectors_Size
AREA |.text|, CODE, READONLY
; Weak function for startup customization
;
; Note. The global resources are not yet initialized (for example global variables, peripherals, clocks)
; because this function is executed as the first instruction in the ResetHandler.
; The PDL is also not initialized to use the proper register offsets.
; The user of this function is responsible for initializing the PDL and resources before using them.
;
Cy_OnResetUser PROC
EXPORT Cy_OnResetUser [WEAK]
BX LR
ENDP
; Reset Handler
Reset_Handler PROC
EXPORT Reset_Handler [WEAK]
IMPORT __main
; Define strong function for startup customization
BL Cy_OnResetUser
; Copy vectors from ROM to RAM
LDR r1, =__Vectors
LDR r0, =__ramVectors
LDR r2, =__Vectors_Size
Vectors_Copy
LDR r3, [r1]
STR r3, [r0]
ADDS r0, r0, #4
ADDS r1, r1, #4
SUBS r2, r2, #1
CMP r2, #0
BNE Vectors_Copy
; Update Vector Table Offset Register. */
LDR r0, =__ramVectors
LDR r1, =0xE000ED08
STR r0, [r1]
dsb 0xF
LDR R0, =__main
BLX R0
; Should never get here
B .
ENDP
; Dummy Exception Handlers (infinite loops which can be modified)
NMI_Handler PROC
EXPORT NMI_Handler [WEAK]
B .
ENDP
Cy_SysLib_FaultHandler PROC
EXPORT Cy_SysLib_FaultHandler [WEAK]
B .
ENDP
HardFault_Handler PROC
EXPORT HardFault_Handler [WEAK]
movs r0, #4
mov r1, LR
tst r0, r1
beq L_MSP
mrs r0, PSP
bl L_API_call
L_MSP
mrs r0, MSP
L_API_call
bl Cy_SysLib_FaultHandler
ENDP
SVC_Handler PROC
EXPORT SVC_Handler [WEAK]
B .
ENDP
PendSV_Handler PROC
EXPORT PendSV_Handler [WEAK]
B .
ENDP
SysTick_Handler PROC
EXPORT SysTick_Handler [WEAK]
B .
ENDP
Default_Handler PROC
EXPORT Default_Handler [WEAK]
EXPORT NvicMux0_IRQHandler [WEAK]
EXPORT NvicMux1_IRQHandler [WEAK]
EXPORT NvicMux2_IRQHandler [WEAK]
EXPORT NvicMux3_IRQHandler [WEAK]
EXPORT NvicMux4_IRQHandler [WEAK]
EXPORT NvicMux5_IRQHandler [WEAK]
EXPORT NvicMux6_IRQHandler [WEAK]
EXPORT NvicMux7_IRQHandler [WEAK]
EXPORT NvicMux8_IRQHandler [WEAK]
EXPORT NvicMux9_IRQHandler [WEAK]
EXPORT NvicMux10_IRQHandler [WEAK]
EXPORT NvicMux11_IRQHandler [WEAK]
EXPORT NvicMux12_IRQHandler [WEAK]
EXPORT NvicMux13_IRQHandler [WEAK]
EXPORT NvicMux14_IRQHandler [WEAK]
EXPORT NvicMux15_IRQHandler [WEAK]
EXPORT NvicMux16_IRQHandler [WEAK]
EXPORT NvicMux17_IRQHandler [WEAK]
EXPORT NvicMux18_IRQHandler [WEAK]
EXPORT NvicMux19_IRQHandler [WEAK]
EXPORT NvicMux20_IRQHandler [WEAK]
EXPORT NvicMux21_IRQHandler [WEAK]
EXPORT NvicMux22_IRQHandler [WEAK]
EXPORT NvicMux23_IRQHandler [WEAK]
EXPORT NvicMux24_IRQHandler [WEAK]
EXPORT NvicMux25_IRQHandler [WEAK]
EXPORT NvicMux26_IRQHandler [WEAK]
EXPORT NvicMux27_IRQHandler [WEAK]
EXPORT NvicMux28_IRQHandler [WEAK]
EXPORT NvicMux29_IRQHandler [WEAK]
EXPORT NvicMux30_IRQHandler [WEAK]
EXPORT NvicMux31_IRQHandler [WEAK]
NvicMux0_IRQHandler
NvicMux1_IRQHandler
NvicMux2_IRQHandler
NvicMux3_IRQHandler
NvicMux4_IRQHandler
NvicMux5_IRQHandler
NvicMux6_IRQHandler
NvicMux7_IRQHandler
NvicMux8_IRQHandler
NvicMux9_IRQHandler
NvicMux10_IRQHandler
NvicMux11_IRQHandler
NvicMux12_IRQHandler
NvicMux13_IRQHandler
NvicMux14_IRQHandler
NvicMux15_IRQHandler
NvicMux16_IRQHandler
NvicMux17_IRQHandler
NvicMux18_IRQHandler
NvicMux19_IRQHandler
NvicMux20_IRQHandler
NvicMux21_IRQHandler
NvicMux22_IRQHandler
NvicMux23_IRQHandler
NvicMux24_IRQHandler
NvicMux25_IRQHandler
NvicMux26_IRQHandler
NvicMux27_IRQHandler
NvicMux28_IRQHandler
NvicMux29_IRQHandler
NvicMux30_IRQHandler
NvicMux31_IRQHandler
B .
ENDP
ALIGN
END
; [] END OF FILE

470
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/TOOLCHAIN_GCC_ARM/cy8c6xx7_cm0plus.ld
View File

@ -1,470 +0,0 @@
/***************************************************************************//**
* \file cy8c6xx7_cm0plus.ld
* \version 2.70
*
* Linker file for the GNU C compiler.
*
* The main purpose of the linker script is to describe how the sections in the
* input files should be mapped into the output file, and to control the memory
* layout of the output file.
*
* \note The entry point location is fixed and starts at 0x10000000. The valid
* application image should be placed there.
*
* \note The linker files included with the PDL template projects must be generic
* and handle all common use cases. Your project may not use every section
* defined in the linker files. In that case you may see warnings during the
* build process. In your project, you can simply comment out or remove the
* relevant code in the linker file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
OUTPUT_FORMAT ("elf32-littlearm", "elf32-bigarm", "elf32-littlearm")
SEARCH_DIR(.)
GROUP(-lgcc -lc -lnosys)
ENTRY(Reset_Handler)
#if !defined(MBED_ROM_START)
#define MBED_ROM_START 0x10000000
#endif
/* MBED_APP_START is being used by the bootloader build script and
* will be calculate by the system. Without bootloader the MBED_APP_START
* is equal to MBED_ROM_START
*/
#if !defined(MBED_APP_START)
#define MBED_APP_START MBED_ROM_START
#endif
#if !defined(MBED_ROM_SIZE)
#define MBED_ROM_SIZE 0x80000
#endif
/* MBED_APP_SIZE is being used by the bootloader build script and
* will be calculate by the system. Without bootloader the MBED_APP_SIZE
* is equal to MBED_ROM_SIZE
*/
#if !defined(MBED_APP_SIZE)
#define MBED_APP_SIZE MBED_ROM_SIZE
#endif
#if !defined(MBED_RAM_START)
#define MBED_RAM_START 0x08000000
#endif
#if !defined(MBED_RAM_SIZE)
#define MBED_RAM_SIZE 0x00010000
#endif
#if !defined(MBED_PUBLIC_RAM_SIZE)
#define MBED_PUBLIC_RAM_SIZE 0x200
#endif
/* The size of the stack section at the end of CM0+ SRAM */
#if !defined(MBED_BOOT_STACK_SIZE)
#define MBED_BOOT_STACK_SIZE 0x400
#endif
STACK_SIZE = MBED_BOOT_STACK_SIZE;
#if !defined(MBED_PUBLIC_RAM_START)
#define MBED_PUBLIC_RAM_START (MBED_RAM_START + MBED_RAM_SIZE - STACK_SIZE - MBED_PUBLIC_RAM_SIZE)
#endif
/* Force symbol to be entered in the output file as an undefined symbol. Doing
* this may, for example, trigger linking of additional modules from standard
* libraries. You may list several symbols for each EXTERN, and you may use
* EXTERN multiple times. This command has the same effect as the -u command-line
* option.
*/
EXTERN(Reset_Handler)
/* The MEMORY section below describes the location and size of blocks of memory in the target.
* Use this section to specify the memory regions available for allocation.
*/
MEMORY
{
/* The ram and flash regions control RAM and flash memory allocation for the CM0+ core.
* You can change the memory allocation by editing the 'ram' and 'flash' regions.
* Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
* Using this memory region for other purposes will lead to unexpected behavior.
* Your changes must be aligned with the corresponding memory regions for the CM4 core in 'xx_cm4_dual.ld',
* where 'xx' is the device group; for example, 'cy8c6xx7_cm4_dual.ld'.
*/
ram (rwx) : ORIGIN = MBED_RAM_START, LENGTH = MBED_RAM_SIZE
public_ram (rw) : ORIGIN = MBED_PUBLIC_RAM_START, LENGTH = MBED_PUBLIC_RAM_SIZE
flash (rx) : ORIGIN = MBED_APP_START, LENGTH = (MBED_APP_SIZE - 0x8000)
/* This is a 32K flash region used for EEPROM emulation. This region can also be used as the general purpose flash.
* You can assign sections to this memory region for only one of the cores.
* Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
* Therefore, repurposing this memory region will prevent such middleware from operation.
*/
em_eeprom (rx) : ORIGIN = 0x14000000, LENGTH = 0x8000 /* 32 KB */
/* The following regions define device specific memory regions and must not be changed. */
sflash_user_data (rx) : ORIGIN = 0x16000800, LENGTH = 0x800 /* Supervisory flash: User data */
sflash_nar (rx) : ORIGIN = 0x16001A00, LENGTH = 0x200 /* Supervisory flash: Normal Access Restrictions (NAR) */
sflash_public_key (rx) : ORIGIN = 0x16005A00, LENGTH = 0xC00 /* Supervisory flash: Public Key */
sflash_toc_2 (rx) : ORIGIN = 0x16007C00, LENGTH = 0x200 /* Supervisory flash: Table of Content # 2 */
sflash_rtoc_2 (rx) : ORIGIN = 0x16007E00, LENGTH = 0x200 /* Supervisory flash: Table of Content # 2 Copy */
xip (rx) : ORIGIN = 0x18000000, LENGTH = 0x8000000 /* 128 MB */
efuse (r) : ORIGIN = 0x90700000, LENGTH = 0x100000 /* 1 MB */
}
/* Library configurations */
GROUP(libgcc.a libc.a libm.a libnosys.a)
/* Linker script to place sections and symbol values. Should be used together
* with other linker script that defines memory regions FLASH and RAM.
* It references following symbols, which must be defined in code:
* Reset_Handler : Entry of reset handler
*
* It defines following symbols, which code can use without definition:
* __exidx_start
* __exidx_end
* __copy_table_start__
* __copy_table_end__
* __zero_table_start__
* __zero_table_end__
* __etext
* __data_start__
* __preinit_array_start
* __preinit_array_end
* __init_array_start
* __init_array_end
* __fini_array_start
* __fini_array_end
* __data_end__
* __bss_start__
* __bss_end__
* __end__
* end
* __HeapLimit
* __StackLimit
* __StackTop
* __stack
* __Vectors_End
* __Vectors_Size
*/
SECTIONS
{
.cy_app_header :
{
KEEP(*(.cy_app_header))
} > flash
/* Cortex-M0+ application flash area */
.text :
{
. = ALIGN(4);
__Vectors = . ;
KEEP(*(.vectors))
. = ALIGN(4);
__Vectors_End = .;
__Vectors_Size = __Vectors_End - __Vectors;
__end__ = .;
. = ALIGN(4);
*(.text*)
KEEP(*(.init))
KEEP(*(.fini))
/* .ctors */
*crtbegin.o(.ctors)
*crtbegin?.o(.ctors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .ctors)
*(SORT(.ctors.*))
*(.ctors)
/* .dtors */
*crtbegin.o(.dtors)
*crtbegin?.o(.dtors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .dtors)
*(SORT(.dtors.*))
*(.dtors)
/* Read-only code (constants). */
*(.rodata .rodata.* .constdata .constdata.* .conststring .conststring.*)
KEEP(*(.eh_frame*))
} > flash
.ARM.extab :
{
*(.ARM.extab* .gnu.linkonce.armextab.*)
} > flash
__exidx_start = .;
.ARM.exidx :
{
*(.ARM.exidx* .gnu.linkonce.armexidx.*)
} > flash
__exidx_end = .;
/* To copy multiple ROM to RAM sections,
* uncomment .copy.table section and,
* define __STARTUP_COPY_MULTIPLE in startup_psoc6_01_cm0plus.S */
.copy.table :
{
. = ALIGN(4);
__copy_table_start__ = .;
/* Copy interrupt vectors from flash to RAM */
LONG (__Vectors) /* From */
LONG (__ram_vectors_start__) /* To */
LONG (__Vectors_End - __Vectors) /* Size */
/* Copy data section to RAM */
LONG (__etext) /* From */
LONG (__data_start__) /* To */
LONG (__data_end__ - __data_start__) /* Size */
__copy_table_end__ = .;
} > flash
/* To clear multiple BSS sections,
* uncomment .zero.table section and,
* define __STARTUP_CLEAR_BSS_MULTIPLE in startup_psoc6_01_cm0plus.S */
.zero.table :
{
. = ALIGN(4);
__zero_table_start__ = .;
LONG (__bss_start__)
LONG (__bss_end__ - __bss_start__)
__zero_table_end__ = .;
} > flash
__etext = . ;
.ramVectors (NOLOAD) : ALIGN(8)
{
__ram_vectors_start__ = .;
KEEP(*(.ram_vectors))
__ram_vectors_end__ = .;
} > ram
.data __ram_vectors_end__ : AT (__etext)
{
__data_start__ = .;
*(vtable)
*(.data*)
. = ALIGN(4);
/* preinit data */
PROVIDE_HIDDEN (__preinit_array_start = .);
KEEP(*(.preinit_array))
PROVIDE_HIDDEN (__preinit_array_end = .);
. = ALIGN(4);
/* init data */
PROVIDE_HIDDEN (__init_array_start = .);
KEEP(*(SORT(.init_array.*)))
KEEP(*(.init_array))
PROVIDE_HIDDEN (__init_array_end = .);
. = ALIGN(4);
/* finit data */
PROVIDE_HIDDEN (__fini_array_start = .);
KEEP(*(SORT(.fini_array.*)))
KEEP(*(.fini_array))
PROVIDE_HIDDEN (__fini_array_end = .);
KEEP(*(.jcr*))
. = ALIGN(4);
KEEP(*(.cy_ramfunc*))
. = ALIGN(4);
__data_end__ = .;
} > ram
/* Place variables in the section that should not be initialized during the
* device startup.
*/
.noinit (NOLOAD) : ALIGN(8)
{
KEEP(*(.noinit))
} > ram
/* The uninitialized global or static variables are placed in this section.
*
* The NOLOAD attribute tells linker that .bss section does not consume
* any space in the image. The NOLOAD attribute changes the .bss type to
* NOBITS, and that makes linker to A) not allocate section in memory, and
* A) put information to clear the section with all zeros during application
* loading.
*
* Without the NOLOAD attribute, the .bss section might get PROGBITS type.
* This makes linker to A) allocate zeroed section in memory, and B) copy
* this section to RAM during application loading.
*/
.bss (NOLOAD):
{
. = ALIGN(4);
__bss_start__ = .;
*(.bss*)
*(COMMON)
. = ALIGN(4);
__bss_end__ = .;
} > ram
.heap (NOLOAD):
{
__HeapBase = .;
__end__ = .;
end = __end__;
KEEP(*(.heap*))
. = ORIGIN(ram) + LENGTH(ram) - STACK_SIZE;
__HeapLimit = .;
} > ram
/* .stack_dummy section doesn't contains any symbols. It is only
* used for linker to calculate size of stack sections, and assign
* values to stack symbols later */
.stack_dummy (NOLOAD):
{
KEEP(*(.stack*))
} > ram
/* Public RAM */
.cy_sharedmem (NOLOAD):
{
. = ALIGN(4);
KEEP(*(.cy_sharedmem))
} > public_ram
/* Set stack top to end of RAM, and stack limit move down by
* size of stack_dummy section */
__StackTop = ORIGIN(ram) + LENGTH(ram);
__StackLimit = __StackTop - STACK_SIZE;
PROVIDE(__stack = __StackTop);
/* Check if data + heap + stack exceeds RAM limit */
ASSERT(__StackLimit >= __HeapLimit, "region RAM overflowed with stack")
/* Emulated EEPROM Flash area */
.cy_em_eeprom :
{
KEEP(*(.cy_em_eeprom))
} > em_eeprom
/* Supervisory Flash: User data */
.cy_sflash_user_data :
{
KEEP(*(.cy_sflash_user_data))
} > sflash_user_data
/* Supervisory Flash: Normal Access Restrictions (NAR) */
.cy_sflash_nar :
{
KEEP(*(.cy_sflash_nar))
} > sflash_nar
/* Supervisory Flash: Public Key */
.cy_sflash_public_key :
{
KEEP(*(.cy_sflash_public_key))
} > sflash_public_key
/* Supervisory Flash: Table of Content # 2 */
.cy_toc_part2 :
{
KEEP(*(.cy_toc_part2))
} > sflash_toc_2
/* Supervisory Flash: Table of Content # 2 Copy */
.cy_rtoc_part2 :
{
KEEP(*(.cy_rtoc_part2))
} > sflash_rtoc_2
/* Places the code in the Execute in Place (XIP) section. See the smif driver
* documentation for details.
*/
.cy_xip :
{
KEEP(*(.cy_xip))
} > xip
/* eFuse */
.cy_efuse :
{
KEEP(*(.cy_efuse))
} > efuse
/* These sections are used for additional metadata (silicon revision,
* Silicon/JTAG ID, etc.) storage.
*/
.cymeta 0x90500000 : { KEEP(*(.cymeta)) } :NONE
}
/* The following symbols used by the cymcuelftool. */
/* Flash */
__cy_memory_0_start = 0x10000000;
__cy_memory_0_length = 0x00100000;
__cy_memory_0_row_size = 0x200;
/* Emulated EEPROM Flash area */
__cy_memory_1_start = 0x14000000;
__cy_memory_1_length = 0x8000;
__cy_memory_1_row_size = 0x200;
/* Supervisory Flash */
__cy_memory_2_start = 0x16000000;
__cy_memory_2_length = 0x8000;
__cy_memory_2_row_size = 0x200;
/* XIP */
__cy_memory_3_start = 0x18000000;
__cy_memory_3_length = 0x08000000;
__cy_memory_3_row_size = 0x200;
/* eFuse */
__cy_memory_4_start = 0x90700000;
__cy_memory_4_length = 0x100000;
__cy_memory_4_row_size = 1;
/* EOF */

399
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/TOOLCHAIN_GCC_ARM/startup_psoc6_01_cm0plus.S
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@ -1,399 +0,0 @@
/**************************************************************************//**
* @file startup_psoc6_01_cm0plus.S
* @brief CMSIS Core Device Startup File for
* ARMCM0plus Device Series
* @version V5.00
* @date 02. March 2016
******************************************************************************/
/*
* Copyright (c) 2009-2016 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* 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
*
* 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.
*/
/* Address of the NMI handler */
#define CY_NMI_HANLDER_ADDR 0x0000000D
/* The CPU VTOR register */
#define CY_CPU_VTOR_ADDR 0xE000ED08
/* Copy flash vectors and data section to RAM */
#define __STARTUP_COPY_MULTIPLE
/* Clear single BSS section */
#define __STARTUP_CLEAR_BSS
.syntax unified
.arch armv6-m
.section .stack
.align 3
#ifdef __STACK_SIZE
.equ Stack_Size, __STACK_SIZE
#else
.equ Stack_Size, 0x00001000
#endif
.globl __StackTop
.globl __StackLimit
__StackLimit:
.space Stack_Size
.size __StackLimit, . - __StackLimit
__StackTop:
.size __StackTop, . - __StackTop
.section .heap
.align 3
#ifdef __HEAP_SIZE
.equ Heap_Size, __HEAP_SIZE
#else
.equ Heap_Size, 0x00000400
#endif
.globl __HeapBase
.globl __HeapLimit
__HeapBase:
.if Heap_Size
.space Heap_Size
.endif
.size __HeapBase, . - __HeapBase
__HeapLimit:
.size __HeapLimit, . - __HeapLimit
.section .vectors
.align 2
.globl __Vectors
__Vectors:
.long __StackTop /* Top of Stack */
.long Reset_Handler /* Reset Handler */
.long CY_NMI_HANLDER_ADDR /* NMI Handler */
.long HardFault_Handler /* Hard Fault Handler */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long SVC_Handler /* SVCall Handler */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long PendSV_Handler /* PendSV Handler */
.long SysTick_Handler /* SysTick Handler */
/* External interrupts Description */
.long NvicMux0_IRQHandler /* CM0+ NVIC Mux input 0 */
.long NvicMux1_IRQHandler /* CM0+ NVIC Mux input 1 */
.long NvicMux2_IRQHandler /* CM0+ NVIC Mux input 2 */
.long NvicMux3_IRQHandler /* CM0+ NVIC Mux input 3 */
.long NvicMux4_IRQHandler /* CM0+ NVIC Mux input 4 */
.long NvicMux5_IRQHandler /* CM0+ NVIC Mux input 5 */
.long NvicMux6_IRQHandler /* CM0+ NVIC Mux input 6 */
.long NvicMux7_IRQHandler /* CM0+ NVIC Mux input 7 */
.long NvicMux8_IRQHandler /* CM0+ NVIC Mux input 8 */
.long NvicMux9_IRQHandler /* CM0+ NVIC Mux input 9 */
.long NvicMux10_IRQHandler /* CM0+ NVIC Mux input 10 */
.long NvicMux11_IRQHandler /* CM0+ NVIC Mux input 11 */
.long NvicMux12_IRQHandler /* CM0+ NVIC Mux input 12 */
.long NvicMux13_IRQHandler /* CM0+ NVIC Mux input 13 */
.long NvicMux14_IRQHandler /* CM0+ NVIC Mux input 14 */
.long NvicMux15_IRQHandler /* CM0+ NVIC Mux input 15 */
.long NvicMux16_IRQHandler /* CM0+ NVIC Mux input 16 */
.long NvicMux17_IRQHandler /* CM0+ NVIC Mux input 17 */
.long NvicMux18_IRQHandler /* CM0+ NVIC Mux input 18 */
.long NvicMux19_IRQHandler /* CM0+ NVIC Mux input 19 */
.long NvicMux20_IRQHandler /* CM0+ NVIC Mux input 20 */
.long NvicMux21_IRQHandler /* CM0+ NVIC Mux input 21 */
.long NvicMux22_IRQHandler /* CM0+ NVIC Mux input 22 */
.long NvicMux23_IRQHandler /* CM0+ NVIC Mux input 23 */
.long NvicMux24_IRQHandler /* CM0+ NVIC Mux input 24 */
.long NvicMux25_IRQHandler /* CM0+ NVIC Mux input 25 */
.long NvicMux26_IRQHandler /* CM0+ NVIC Mux input 26 */
.long NvicMux27_IRQHandler /* CM0+ NVIC Mux input 27 */
.long NvicMux28_IRQHandler /* CM0+ NVIC Mux input 28 */
.long NvicMux29_IRQHandler /* CM0+ NVIC Mux input 29 */
.long NvicMux30_IRQHandler /* CM0+ NVIC Mux input 30 */
.long NvicMux31_IRQHandler /* CM0+ NVIC Mux input 31 */
.size __Vectors, . - __Vectors
.equ __VectorsSize, . - __Vectors
.section .ram_vectors
.align 2
.globl __ramVectors
__ramVectors:
.space __VectorsSize
.size __ramVectors, . - __ramVectors
.text
.thumb
.thumb_func
.align 2
/*
* Device startup customization
*
* Note. The global resources are not yet initialized (for example global variables, peripherals, clocks)
* because this function is executed as the first instruction in the ResetHandler.
* The PDL is also not initialized to use the proper register offsets.
* The user of this function is responsible for initializing the PDL and resources before using them.
*/
.weak Cy_OnResetUser
.func Cy_OnResetUser, Cy_OnResetUser
.type Cy_OnResetUser, %function
Cy_OnResetUser:
bx lr
.size Cy_OnResetUser, . - Cy_OnResetUser
.endfunc
/* Reset handler */
.weak Reset_Handler
.type Reset_Handler, %function
Reset_Handler:
bl Cy_OnResetUser
/* Firstly it copies data from read only memory to RAM. There are two schemes
* to copy. One can copy more than one sections. Another can only copy
* one section. The former scheme needs more instructions and read-only
* data to implement than the latter.
* Macro __STARTUP_COPY_MULTIPLE is used to choose between two schemes. */
#ifdef __STARTUP_COPY_MULTIPLE
/* Multiple sections scheme.
*
* Between symbol address __copy_table_start__ and __copy_table_end__,
* there are array of triplets, each of which specify:
* offset 0: LMA of start of a section to copy from
* offset 4: VMA of start of a section to copy to
* offset 8: size of the section to copy. Must be multiply of 4
*
* All addresses must be aligned to 4 bytes boundary.
*/
ldr r4, =__copy_table_start__
ldr r5, =__copy_table_end__
.L_loop0:
cmp r4, r5
bge .L_loop0_done
ldr r1, [r4]
ldr r2, [r4, #4]
ldr r3, [r4, #8]
.L_loop0_0:
subs r3, #4
blt .L_loop0_0_done
ldr r0, [r1, r3]
str r0, [r2, r3]
b .L_loop0_0
.L_loop0_0_done:
adds r4, #12
b .L_loop0
.L_loop0_done:
#else
/* Single section scheme.
*
* The ranges of copy from/to are specified by following symbols
* __etext: LMA of start of the section to copy from. Usually end of text
* __data_start__: VMA of start of the section to copy to
* __data_end__: VMA of end of the section to copy to
*
* All addresses must be aligned to 4 bytes boundary.
*/
ldr r1, =__etext
ldr r2, =__data_start__
ldr r3, =__data_end__
subs r3, r2
ble .L_loop1_done
.L_loop1:
subs r3, #4
ldr r0, [r1,r3]
str r0, [r2,r3]
bgt .L_loop1
.L_loop1_done:
#endif /*__STARTUP_COPY_MULTIPLE */
/* This part of work usually is done in C library startup code. Otherwise,
* define this macro to enable it in this startup.
*
* There are two schemes too. One can clear multiple BSS sections. Another
* can only clear one section. The former is more size expensive than the
* latter.
*
* Define macro __STARTUP_CLEAR_BSS_MULTIPLE to choose the former.
* Otherwise define macro __STARTUP_CLEAR_BSS to choose the later.
*/
#ifdef __STARTUP_CLEAR_BSS_MULTIPLE
/* Multiple sections scheme.
*
* Between symbol address __copy_table_start__ and __copy_table_end__,
* there are array of tuples specifying:
* offset 0: Start of a BSS section
* offset 4: Size of this BSS section. Must be multiply of 4
*/
ldr r3, =__zero_table_start__
ldr r4, =__zero_table_end__
.L_loop2:
cmp r3, r4
bge .L_loop2_done
ldr r1, [r3]
ldr r2, [r3, #4]
movs r0, 0
.L_loop2_0:
subs r2, #4
blt .L_loop2_0_done
str r0, [r1, r2]
b .L_loop2_0
.L_loop2_0_done:
adds r3, #8
b .L_loop2
.L_loop2_done:
#elif defined (__STARTUP_CLEAR_BSS)
/* Single BSS section scheme.
*
* The BSS section is specified by following symbols
* __bss_start__: start of the BSS section.
* __bss_end__: end of the BSS section.
*
* Both addresses must be aligned to 4 bytes boundary.
*/
ldr r1, =__bss_start__
ldr r2, =__bss_end__
movs r0, 0
subs r2, r1
ble .L_loop3_done
.L_loop3:
subs r2, #4
str r0, [r1, r2]
bgt .L_loop3
.L_loop3_done:
#endif /* __STARTUP_CLEAR_BSS_MULTIPLE || __STARTUP_CLEAR_BSS */
/* Update Vector Table Offset Register. */
ldr r0, =__ramVectors
ldr r1, =CY_CPU_VTOR_ADDR
str r0, [r1]
dsb 0xF
bl _start
/* Should never get here */
b .
.pool
.size Reset_Handler, . - Reset_Handler
.align 1
.thumb_func
.weak Default_Handler
.type Default_Handler, %function
Default_Handler:
b .
.size Default_Handler, . - Default_Handler
.weak Cy_SysLib_FaultHandler
.type Cy_SysLib_FaultHandler, %function
Cy_SysLib_FaultHandler:
b .
.size Cy_SysLib_FaultHandler, . - Cy_SysLib_FaultHandler
.type Fault_Handler, %function
Fault_Handler:
/* Storing LR content for Creator call stack trace */
push {LR}
movs r0, #4
mov r1, LR
tst r0, r1
beq .L_MSP
mrs r0, PSP
b .L_API_call
.L_MSP:
mrs r0, MSP
.L_API_call:
/* Compensation of stack pointer address due to pushing 4 bytes of LR */
adds r0, r0, #4
bl Cy_SysLib_FaultHandler
b .
.size Fault_Handler, . - Fault_Handler
.macro def_fault_Handler fault_handler_name
.weak \fault_handler_name
.set \fault_handler_name, Fault_Handler
.endm
/* Macro to define default handlers. Default handler
* will be weak symbol and just dead loops. They can be
* overwritten by other handlers */
.macro def_irq_handler handler_name
.weak \handler_name
.set \handler_name, Default_Handler
.endm
def_irq_handler NMI_Handler
def_fault_Handler HardFault_Handler
def_irq_handler SVC_Handler
def_irq_handler PendSV_Handler
def_irq_handler SysTick_Handler
def_irq_handler NvicMux0_IRQHandler /* CM0+ NVIC Mux input 0 */
def_irq_handler NvicMux1_IRQHandler /* CM0+ NVIC Mux input 1 */
def_irq_handler NvicMux2_IRQHandler /* CM0+ NVIC Mux input 2 */
def_irq_handler NvicMux3_IRQHandler /* CM0+ NVIC Mux input 3 */
def_irq_handler NvicMux4_IRQHandler /* CM0+ NVIC Mux input 4 */
def_irq_handler NvicMux5_IRQHandler /* CM0+ NVIC Mux input 5 */
def_irq_handler NvicMux6_IRQHandler /* CM0+ NVIC Mux input 6 */
def_irq_handler NvicMux7_IRQHandler /* CM0+ NVIC Mux input 7 */
def_irq_handler NvicMux8_IRQHandler /* CM0+ NVIC Mux input 8 */
def_irq_handler NvicMux9_IRQHandler /* CM0+ NVIC Mux input 9 */
def_irq_handler NvicMux10_IRQHandler /* CM0+ NVIC Mux input 10 */
def_irq_handler NvicMux11_IRQHandler /* CM0+ NVIC Mux input 11 */
def_irq_handler NvicMux12_IRQHandler /* CM0+ NVIC Mux input 12 */
def_irq_handler NvicMux13_IRQHandler /* CM0+ NVIC Mux input 13 */
def_irq_handler NvicMux14_IRQHandler /* CM0+ NVIC Mux input 14 */
def_irq_handler NvicMux15_IRQHandler /* CM0+ NVIC Mux input 15 */
def_irq_handler NvicMux16_IRQHandler /* CM0+ NVIC Mux input 16 */
def_irq_handler NvicMux17_IRQHandler /* CM0+ NVIC Mux input 17 */
def_irq_handler NvicMux18_IRQHandler /* CM0+ NVIC Mux input 18 */
def_irq_handler NvicMux19_IRQHandler /* CM0+ NVIC Mux input 19 */
def_irq_handler NvicMux20_IRQHandler /* CM0+ NVIC Mux input 20 */
def_irq_handler NvicMux21_IRQHandler /* CM0+ NVIC Mux input 21 */
def_irq_handler NvicMux22_IRQHandler /* CM0+ NVIC Mux input 22 */
def_irq_handler NvicMux23_IRQHandler /* CM0+ NVIC Mux input 23 */
def_irq_handler NvicMux24_IRQHandler /* CM0+ NVIC Mux input 24 */
def_irq_handler NvicMux25_IRQHandler /* CM0+ NVIC Mux input 25 */
def_irq_handler NvicMux26_IRQHandler /* CM0+ NVIC Mux input 26 */
def_irq_handler NvicMux27_IRQHandler /* CM0+ NVIC Mux input 27 */
def_irq_handler NvicMux28_IRQHandler /* CM0+ NVIC Mux input 28 */
def_irq_handler NvicMux29_IRQHandler /* CM0+ NVIC Mux input 29 */
def_irq_handler NvicMux30_IRQHandler /* CM0+ NVIC Mux input 30 */
def_irq_handler NvicMux31_IRQHandler /* CM0+ NVIC Mux input 31 */
.end
/* [] END OF FILE */

287
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/TOOLCHAIN_IAR/cy8c6xx7_cm0plus.icf
View File

@ -1,287 +0,0 @@
/***************************************************************************//**
* \file cy8c6xx7_cm0plus.icf
* \version 2.70
*
* Linker file for the IAR compiler.
*
* The main purpose of the linker script is to describe how the sections in the
* input files should be mapped into the output file, and to control the memory
* layout of the output file.
*
* \note The entry point is fixed and starts at 0x10000000. The valid application
* image should be placed there.
*
* \note The linker files included with the PDL template projects must be generic
* and handle all common use cases. Your project may not use every section
* defined in the linker files. In that case you may see warnings during the
* build process. In your project, you can simply comment out or remove the
* relevant code in the linker file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
/*###ICF### Section handled by ICF editor, don't touch! ****/
/*-Editor annotation file-*/
/* IcfEditorFile="$TOOLKIT_DIR$\config\ide\IcfEditor\cortex_v1_4.xml" */
/*-Specials-*/
define symbol __ICFEDIT_intvec_start__ = 0x00000000;
if (!isdefinedsymbol(MBED_ROM_START)) {
define symbol MBED_ROM_START = 0x10000000;
}
/* MBED_APP_START is being used by the bootloader build script and
* will be calculate by the system. Without bootloader the MBED_APP_START
* is equal to MBED_ROM_START
*/
if (!isdefinedsymbol(MBED_APP_START)) {
define symbol MBED_APP_START = MBED_ROM_START;
}
if (!isdefinedsymbol(MBED_ROM_SIZE)) {
define symbol MBED_ROM_SIZE = 0x80000;
}
/* MBED_APP_SIZE is being used by the bootloader build script and
* will be calculate by the system. Without bootloader the MBED_APP_SIZE
* is equal to MBED_ROM_SIZE
*/
if (!isdefinedsymbol(MBED_APP_SIZE)) {
define symbol MBED_APP_SIZE = MBED_ROM_SIZE;
}
if (!isdefinedsymbol(MBED_RAM_START)) {
define symbol MBED_RAM_START = 0x08000000;
}
if (!isdefinedsymbol(MBED_RAM_SIZE)) {
define symbol MBED_RAM_SIZE = 0x00010000;
}
/*-Sizes-*/
if (!isdefinedsymbol(MBED_PUBLIC_RAM_SIZE)) {
define symbol MBED_PUBLIC_RAM_SIZE = 0x200;
}
if (!isdefinedsymbol(MBED_BOOT_STACK_SIZE)) {
if (!isdefinedsymbol(__STACK_SIZE)) {
define symbol MBED_BOOT_STACK_SIZE = 0x0400;
} else {
define symbol MBED_BOOT_STACK_SIZE = __STACK_SIZE;
}
}
define symbol __ICFEDIT_size_cstack__ = MBED_BOOT_STACK_SIZE;
define symbol __ICFEDIT_size_proc_stack__ = 0x0;
/* Defines the minimum heap size. The actual heap size will be expanded to the end of the stack region */
if (!isdefinedsymbol(__HEAP_SIZE)) {
define symbol __ICFEDIT_size_heap__ = 0x0400;
} else {
define symbol __ICFEDIT_size_heap__ = __HEAP_SIZE;
}
if (!isdefinedsymbol(MBED_PUBLIC_RAM_START)) {
define symbol MBED_PUBLIC_RAM_START = (MBED_RAM_START + MBED_RAM_SIZE - __ICFEDIT_size_cstack__ - MBED_PUBLIC_RAM_SIZE);
}
/* The symbols below define the location and size of blocks of memory in the target.
* Use these symbols to specify the memory regions available for allocation.
*/
/* The following symbols control RAM and flash memory allocation for the CM0+ core.
* You can change the memory allocation by editing RAM and Flash symbols.
* Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
* Using this memory region for other purposes will lead to unexpected behavior.
* Your changes must be aligned with the corresponding symbols for CM4 core in 'xx_cm4_dual.icf',
* where 'xx' is the device group; for example, 'cy8c6xx7_cm4_dual.icf'.
*/
/* RAM */
define symbol __ICFEDIT_region_IRAM1_start__ = MBED_RAM_START;
define symbol __ICFEDIT_region_IRAM1_end__ = (MBED_RAM_START + MBED_RAM_SIZE);
/* Public RAM */
define symbol __ICFEDIT_region_IRAM2_start__ = MBED_PUBLIC_RAM_START;
define symbol __ICFEDIT_region_IRAM2_end__ = (MBED_PUBLIC_RAM_START + MBED_PUBLIC_RAM_SIZE);
/* Flash */
define symbol __ICFEDIT_region_IROM1_start__ = MBED_APP_START;
define symbol __ICFEDIT_region_IROM1_end__ = (MBED_APP_START + MBED_APP_SIZE - 0x8000);
/* The following symbols define a 32K flash region used for EEPROM emulation.
* This region can also be used as the general purpose flash.
* You can assign sections to this memory region for only one of the cores.
* Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
* Therefore, repurposing this memory region will prevent such middleware from operation.
*/
define symbol __ICFEDIT_region_IROM2_start__ = 0x14000000;
define symbol __ICFEDIT_region_IROM2_end__ = 0x14007FFF;
/* The following symbols define device specific memory regions and must not be changed. */
/* Supervisory FLASH - User Data */
define symbol __ICFEDIT_region_IROM3_start__ = 0x16000800;
define symbol __ICFEDIT_region_IROM3_end__ = 0x160007FF;
/* Supervisory FLASH - Normal Access Restrictions (NAR) */
define symbol __ICFEDIT_region_IROM4_start__ = 0x16001A00;
define symbol __ICFEDIT_region_IROM4_end__ = 0x16001BFF;
/* Supervisory FLASH - Public Key */
define symbol __ICFEDIT_region_IROM5_start__ = 0x16005A00;
define symbol __ICFEDIT_region_IROM5_end__ = 0x160065FF;
/* Supervisory FLASH - Table of Content # 2 */
define symbol __ICFEDIT_region_IROM6_start__ = 0x16007C00;
define symbol __ICFEDIT_region_IROM6_end__ = 0x16007DFF;
/* Supervisory FLASH - Table of Content # 2 Copy */
define symbol __ICFEDIT_region_IROM7_start__ = 0x16007E00;
define symbol __ICFEDIT_region_IROM7_end__ = 0x16007FFF;
/* eFuse */
define symbol __ICFEDIT_region_IROM8_start__ = 0x90700000;
define symbol __ICFEDIT_region_IROM8_end__ = 0x907FFFFF;
/* XIP */
define symbol __ICFEDIT_region_EROM1_start__ = 0x18000000;
define symbol __ICFEDIT_region_EROM1_end__ = 0x1FFFFFFF;
define symbol __ICFEDIT_region_EROM2_start__ = 0x0;
define symbol __ICFEDIT_region_EROM2_end__ = 0x0;
define symbol __ICFEDIT_region_EROM3_start__ = 0x0;
define symbol __ICFEDIT_region_EROM3_end__ = 0x0;
define symbol __ICFEDIT_region_ERAM1_start__ = 0x0;
define symbol __ICFEDIT_region_ERAM1_end__ = 0x0;
define symbol __ICFEDIT_region_ERAM2_start__ = 0x0;
define symbol __ICFEDIT_region_ERAM2_end__ = 0x0;
define symbol __ICFEDIT_region_ERAM3_start__ = 0x0;
define symbol __ICFEDIT_region_ERAM3_end__ = 0x0;
/**** End of ICF editor section. ###ICF###*/
define memory mem with size = 4G;
define region IROM1_region = mem:[from __ICFEDIT_region_IROM1_start__ to __ICFEDIT_region_IROM1_end__];
define region IROM2_region = mem:[from __ICFEDIT_region_IROM2_start__ to __ICFEDIT_region_IROM2_end__];
define region IROM3_region = mem:[from __ICFEDIT_region_IROM3_start__ to __ICFEDIT_region_IROM3_end__];
define region IROM4_region = mem:[from __ICFEDIT_region_IROM4_start__ to __ICFEDIT_region_IROM4_end__];
define region IROM5_region = mem:[from __ICFEDIT_region_IROM5_start__ to __ICFEDIT_region_IROM5_end__];
define region IROM6_region = mem:[from __ICFEDIT_region_IROM6_start__ to __ICFEDIT_region_IROM6_end__];
define region IROM7_region = mem:[from __ICFEDIT_region_IROM7_start__ to __ICFEDIT_region_IROM7_end__];
define region IROM8_region = mem:[from __ICFEDIT_region_IROM8_start__ to __ICFEDIT_region_IROM8_end__];
define region EROM1_region = mem:[from __ICFEDIT_region_EROM1_start__ to __ICFEDIT_region_EROM1_end__];
define region IRAM1_region = mem:[from __ICFEDIT_region_IRAM1_start__ to __ICFEDIT_region_IRAM1_end__];
define region IRAM2_region = mem:[from __ICFEDIT_region_IRAM2_start__ to __ICFEDIT_region_IRAM2_end__];
define block RAM_DATA {readwrite section .data};
define block RAM_OTHER {readwrite section * };
define block RAM_NOINIT {readwrite section .noinit};
define block RAM_BSS {readwrite section .bss};
define block RAM with fixed order {block RAM_DATA, block RAM_OTHER, block RAM_NOINIT, block RAM_BSS};
define block CSTACK with alignment = 8, size = __ICFEDIT_size_cstack__ { };
define block PROC_STACK with alignment = 8, size = __ICFEDIT_size_proc_stack__ { };
define block HEAP with expanding size, alignment = 8, minimum size = __ICFEDIT_size_heap__ { };
define block HSTACK {block HEAP, block PROC_STACK, last block CSTACK};
define block RO {first section .intvec, readonly};
/*-Initializations-*/
initialize by copy { readwrite };
do not initialize { section .noinit, section .intvec_ram };
/*-Placement-*/
/* Flash - Cortex-M0+ application */
".cy_app_header" : place at start of IROM1_region { section .cy_app_header };
place in IROM1_region { block RO };
/* Emulated EEPROM Flash area */
".cy_em_eeprom" : place at start of IROM2_region { section .cy_em_eeprom };
/* Supervisory Flash - User Data */
".cy_sflash_user_data" : place at start of IROM3_region { section .cy_sflash_user_data };
/* Supervisory Flash - NAR */
".cy_sflash_nar" : place at start of IROM4_region { section .cy_sflash_nar };
/* Supervisory Flash - Public Key */
".cy_sflash_public_key" : place at start of IROM5_region { section .cy_sflash_public_key };
/* Supervisory Flash - TOC2 */
".cy_toc_part2" : place at start of IROM6_region { section .cy_toc_part2 };
/* Supervisory Flash - RTOC2 */
".cy_rtoc_part2" : place at start of IROM7_region { section .cy_rtoc_part2 };
/* eFuse */
".cy_efuse" : place at start of IROM8_region { section .cy_efuse };
/* Execute in Place (XIP). See the smif driver documentation for details. */
".cy_xip" : place at start of EROM1_region { section .cy_xip };
/* RAM */
place at start of IRAM1_region { readwrite section .intvec_ram};
place in IRAM1_region { block RAM};
place in IRAM1_region { readwrite section .cy_ramfunc };
place at end of IRAM1_region { block HSTACK };
/* Public RAM */
place at start of IRAM2_region { section .cy_sharedmem };
/* These sections are used for additional metadata (silicon revision, Silicon/JTAG ID, etc.) storage. */
".cymeta" : place at address mem : 0x90500000 { readonly section .cymeta };
keep { section .cy_app_header,
section .cy_em_eeprom,
section .cy_sflash_user_data,
section .cy_sflash_nar,
section .cy_sflash_public_key,
section .cy_toc_part2,
section .cy_rtoc_part2,
section .cy_efuse,
section .cy_xip,
section .cymeta,
};
/* The following symbols used by the cymcuelftool. */
/* Flash */
define exported symbol __cy_memory_0_start = 0x10000000;
define exported symbol __cy_memory_0_length = 0x00100000;
define exported symbol __cy_memory_0_row_size = 0x200;
/* Emulated EEPROM Flash area */
define exported symbol __cy_memory_1_start = 0x14000000;
define exported symbol __cy_memory_1_length = 0x8000;
define exported symbol __cy_memory_1_row_size = 0x200;
/* Supervisory Flash */
define exported symbol __cy_memory_2_start = 0x16000000;
define exported symbol __cy_memory_2_length = 0x8000;
define exported symbol __cy_memory_2_row_size = 0x200;
/* XIP */
define exported symbol __cy_memory_3_start = 0x18000000;
define exported symbol __cy_memory_3_length = 0x08000000;
define exported symbol __cy_memory_3_row_size = 0x200;
/* eFuse */
define exported symbol __cy_memory_4_start = 0x90700000;
define exported symbol __cy_memory_4_length = 0x100000;
define exported symbol __cy_memory_4_row_size = 1;
/* EOF */

413
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/TOOLCHAIN_IAR/startup_psoc6_01_cm0plus.S
View File

@ -1,413 +0,0 @@
;/**************************************************************************//**
; * @file startup_psoc6_01_cm0plus.S
; * @brief CMSIS Core Device Startup File for
; * ARMCM0plus Device Series
; * @version V5.00
; * @date 08. March 2016
; ******************************************************************************/
;/*
; * Copyright (c) 2009-2016 ARM Limited. All rights reserved.
; *
; * SPDX-License-Identifier: Apache-2.0
; *
; * 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
; *
; * 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.
; */
;
; The modules in this file are included in the libraries, and may be replaced
; by any user-defined modules that define the PUBLIC symbol _program_start or
; a user defined start symbol.
; To override the cstartup defined in the library, simply add your modified
; version to the workbench project.
;
; The vector table is normally located at address 0.
; When debugging in RAM, it can be located in RAM, aligned to at least 2^6.
; The name "__vector_table" has special meaning for C-SPY:
; it is where the SP start value is found, and the NVIC vector
; table register (VTOR) is initialized to this address if != 0.
;
; Cortex-M version
;
MODULE ?cstartup
;; Forward declaration of sections.
SECTION CSTACK:DATA:NOROOT(3)
SECTION .intvec_ram:DATA:NOROOT(2)
SECTION .intvec:CODE:NOROOT(2)
EXTERN __iar_program_start
EXTERN SystemInit
EXTERN __iar_data_init3
PUBLIC __vector_table
PUBLIC __vector_table_0x1c
PUBLIC __Vectors
PUBLIC __Vectors_End
PUBLIC __Vectors_Size
PUBLIC __ramVectors
DATA
__vector_table
DCD sfe(CSTACK)
DCD Reset_Handler
DCD 0x0000000D ; NMI_Handler is defined in ROM code
DCD HardFault_Handler
DCD 0
DCD 0
DCD 0
__vector_table_0x1c
DCD 0
DCD 0
DCD 0
DCD 0
DCD SVC_Handler
DCD 0
DCD 0
DCD PendSV_Handler
DCD SysTick_Handler
; External interrupts Description
DCD NvicMux0_IRQHandler ; CM0+ NVIC Mux input 0
DCD NvicMux1_IRQHandler ; CM0+ NVIC Mux input 1
DCD NvicMux2_IRQHandler ; CM0+ NVIC Mux input 2
DCD NvicMux3_IRQHandler ; CM0+ NVIC Mux input 3
DCD NvicMux4_IRQHandler ; CM0+ NVIC Mux input 4
DCD NvicMux5_IRQHandler ; CM0+ NVIC Mux input 5
DCD NvicMux6_IRQHandler ; CM0+ NVIC Mux input 6
DCD NvicMux7_IRQHandler ; CM0+ NVIC Mux input 7
DCD NvicMux8_IRQHandler ; CM0+ NVIC Mux input 8
DCD NvicMux9_IRQHandler ; CM0+ NVIC Mux input 9
DCD NvicMux10_IRQHandler ; CM0+ NVIC Mux input 10
DCD NvicMux11_IRQHandler ; CM0+ NVIC Mux input 11
DCD NvicMux12_IRQHandler ; CM0+ NVIC Mux input 12
DCD NvicMux13_IRQHandler ; CM0+ NVIC Mux input 13
DCD NvicMux14_IRQHandler ; CM0+ NVIC Mux input 14
DCD NvicMux15_IRQHandler ; CM0+ NVIC Mux input 15
DCD NvicMux16_IRQHandler ; CM0+ NVIC Mux input 16
DCD NvicMux17_IRQHandler ; CM0+ NVIC Mux input 17
DCD NvicMux18_IRQHandler ; CM0+ NVIC Mux input 18
DCD NvicMux19_IRQHandler ; CM0+ NVIC Mux input 19
DCD NvicMux20_IRQHandler ; CM0+ NVIC Mux input 20
DCD NvicMux21_IRQHandler ; CM0+ NVIC Mux input 21
DCD NvicMux22_IRQHandler ; CM0+ NVIC Mux input 22
DCD NvicMux23_IRQHandler ; CM0+ NVIC Mux input 23
DCD NvicMux24_IRQHandler ; CM0+ NVIC Mux input 24
DCD NvicMux25_IRQHandler ; CM0+ NVIC Mux input 25
DCD NvicMux26_IRQHandler ; CM0+ NVIC Mux input 26
DCD NvicMux27_IRQHandler ; CM0+ NVIC Mux input 27
DCD NvicMux28_IRQHandler ; CM0+ NVIC Mux input 28
DCD NvicMux29_IRQHandler ; CM0+ NVIC Mux input 29
DCD NvicMux30_IRQHandler ; CM0+ NVIC Mux input 30
DCD NvicMux31_IRQHandler ; CM0+ NVIC Mux input 31
__Vectors_End
__Vectors EQU __vector_table
__Vectors_Size EQU __Vectors_End - __Vectors
SECTION .intvec_ram:DATA:REORDER:NOROOT(2)
__ramVectors
DS32 __Vectors_Size
THUMB
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; Default handlers
;;
PUBWEAK Default_Handler
SECTION .text:CODE:REORDER:NOROOT(2)
Default_Handler
B Default_Handler
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; Weak function for startup customization
;;
;; Note. The global resources are not yet initialized (for example global variables, peripherals, clocks)
;; because this function is executed as the first instruction in the ResetHandler.
;; The PDL is also not initialized to use the proper register offsets.
;; The user of this function is responsible for initializing the PDL and resources before using them.
;;
PUBWEAK Cy_OnResetUser
SECTION .text:CODE:REORDER:NOROOT(2)
Cy_OnResetUser
BX LR
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; Define strong version to return zero for
;; __iar_program_start to skip data sections
;; initialization.
;;
PUBLIC __low_level_init
SECTION .text:CODE:REORDER:NOROOT(2)
__low_level_init
MOVS R0, #0
BX LR
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;
;; Default interrupt handlers.
;;
THUMB
PUBWEAK Reset_Handler
SECTION .text:CODE:REORDER:NOROOT(2)
Reset_Handler
; Define strong function for startup customization
LDR R0, =Cy_OnResetUser
BLX R0
; Copy vectors from ROM to RAM
LDR r1, =__vector_table
LDR r0, =__ramVectors
LDR r2, =__Vectors_Size
intvec_copy
LDR r3, [r1]
STR r3, [r0]
ADDS r0, r0, #4
ADDS r1, r1, #4
SUBS r2, r2, #1
CMP r2, #0
BNE intvec_copy
; Update Vector Table Offset Register
LDR r0, =__ramVectors
LDR r1, =0xE000ED08
STR r0, [r1]
dsb
LDR R0, =__iar_program_start
BLX R0
; Should never get here
Cy_Main_Exited
B Cy_Main_Exited
PUBWEAK NMI_Handler
SECTION .text:CODE:REORDER:NOROOT(1)
NMI_Handler
B NMI_Handler
PUBWEAK Cy_SysLib_FaultHandler
SECTION .text:CODE:REORDER:NOROOT(1)
Cy_SysLib_FaultHandler
B Cy_SysLib_FaultHandler
PUBWEAK HardFault_Handler
SECTION .text:CODE:REORDER:NOROOT(1)
HardFault_Handler
IMPORT Cy_SysLib_FaultHandler
movs r0, #4
mov r1, LR
tst r0, r1
beq L_MSP
mrs r0, PSP
b L_API_call
L_MSP
mrs r0, MSP
L_API_call
; Storing LR content for Creator call stack trace
push {LR}
bl Cy_SysLib_FaultHandler
PUBWEAK SVC_Handler
SECTION .text:CODE:REORDER:NOROOT(1)
SVC_Handler
B SVC_Handler
PUBWEAK PendSV_Handler
SECTION .text:CODE:REORDER:NOROOT(1)
PendSV_Handler
B PendSV_Handler
PUBWEAK SysTick_Handler
SECTION .text:CODE:REORDER:NOROOT(1)
SysTick_Handler
B SysTick_Handler
; External interrupts
PUBWEAK NvicMux0_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux0_IRQHandler
B NvicMux0_IRQHandler
PUBWEAK NvicMux1_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux1_IRQHandler
B NvicMux1_IRQHandler
PUBWEAK NvicMux2_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux2_IRQHandler
B NvicMux2_IRQHandler
PUBWEAK NvicMux3_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux3_IRQHandler
B NvicMux3_IRQHandler
PUBWEAK NvicMux4_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux4_IRQHandler
B NvicMux4_IRQHandler
PUBWEAK NvicMux5_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux5_IRQHandler
B NvicMux5_IRQHandler
PUBWEAK NvicMux6_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux6_IRQHandler
B NvicMux6_IRQHandler
PUBWEAK NvicMux7_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux7_IRQHandler
B NvicMux7_IRQHandler
PUBWEAK NvicMux8_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux8_IRQHandler
B NvicMux8_IRQHandler
PUBWEAK NvicMux9_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux9_IRQHandler
B NvicMux9_IRQHandler
PUBWEAK NvicMux10_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux10_IRQHandler
B NvicMux10_IRQHandler
PUBWEAK NvicMux11_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux11_IRQHandler
B NvicMux11_IRQHandler
PUBWEAK NvicMux12_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux12_IRQHandler
B NvicMux12_IRQHandler
PUBWEAK NvicMux13_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux13_IRQHandler
B NvicMux13_IRQHandler
PUBWEAK NvicMux14_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux14_IRQHandler
B NvicMux14_IRQHandler
PUBWEAK NvicMux15_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux15_IRQHandler
B NvicMux15_IRQHandler
PUBWEAK NvicMux16_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux16_IRQHandler
B NvicMux16_IRQHandler
PUBWEAK NvicMux17_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux17_IRQHandler
B NvicMux17_IRQHandler
PUBWEAK NvicMux18_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux18_IRQHandler
B NvicMux18_IRQHandler
PUBWEAK NvicMux19_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux19_IRQHandler
B NvicMux19_IRQHandler
PUBWEAK NvicMux20_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux20_IRQHandler
B NvicMux20_IRQHandler
PUBWEAK NvicMux21_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux21_IRQHandler
B NvicMux21_IRQHandler
PUBWEAK NvicMux22_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux22_IRQHandler
B NvicMux22_IRQHandler
PUBWEAK NvicMux23_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux23_IRQHandler
B NvicMux23_IRQHandler
PUBWEAK NvicMux24_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux24_IRQHandler
B NvicMux24_IRQHandler
PUBWEAK NvicMux25_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux25_IRQHandler
B NvicMux25_IRQHandler
PUBWEAK NvicMux26_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux26_IRQHandler
B NvicMux26_IRQHandler
PUBWEAK NvicMux27_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux27_IRQHandler
B NvicMux27_IRQHandler
PUBWEAK NvicMux28_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux28_IRQHandler
B NvicMux28_IRQHandler
PUBWEAK NvicMux29_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux29_IRQHandler
B NvicMux29_IRQHandler
PUBWEAK NvicMux30_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux30_IRQHandler
B NvicMux30_IRQHandler
PUBWEAK NvicMux31_IRQHandler
SECTION .text:CODE:REORDER:NOROOT(1)
NvicMux31_IRQHandler
B NvicMux31_IRQHandler
END
; [] END OF FILE

526
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM0P/system_psoc6_cm0plus.c
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@ -1,526 +0,0 @@
/***************************************************************************//**
* \file system_psoc6_cm0plus.c
* \version 2.70
*
* The device system-source file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
#include <stdbool.h>
#include "system_psoc6.h"
#include "cy_device.h"
#include "cy_device_headers.h"
#include "cy_syslib.h"
#include "cy_sysclk.h"
#include "cy_wdt.h"
#if !defined(CY_IPC_DEFAULT_CFG_DISABLE)
#include "cy_ipc_sema.h"
#include "cy_ipc_pipe.h"
#include "cy_ipc_drv.h"
#if defined(CY_DEVICE_PSOC6ABLE2)
#include "cy_flash.h"
#endif /* defined(CY_DEVICE_PSOC6ABLE2) */
#endif /* !defined(CY_IPC_DEFAULT_CFG_DISABLE) */
/*******************************************************************************
* SystemCoreClockUpdate()
*******************************************************************************/
/** Default HFClk frequency in Hz */
#define CY_CLK_HFCLK0_FREQ_HZ_DEFAULT (8000000UL)
/** Default PeriClk frequency in Hz */
#define CY_CLK_PERICLK_FREQ_HZ_DEFAULT (4000000UL)
/** Default SlowClk system core frequency in Hz */
#define CY_CLK_SYSTEM_FREQ_HZ_DEFAULT (4000000UL)
/**
* Holds the SlowClk (Cortex-M0+) or FastClk (Cortex-M4) system core clock,
* which is the system clock frequency supplied to the SysTick timer and the
* processor core clock.
* This variable implements CMSIS Core global variable.
* Refer to the [CMSIS documentation]
* (http://www.keil.com/pack/doc/CMSIS/Core/html/group__system__init__gr.html "System and Clock Configuration")
* for more details.
* This variable can be used by debuggers to query the frequency
* of the debug timer or to configure the trace clock speed.
*
* \attention Compilers must be configured to avoid removing this variable in case
* the application program is not using it. Debugging systems require the variable
* to be physically present in memory so that it can be examined to configure the debugger. */
uint32_t SystemCoreClock = CY_CLK_SYSTEM_FREQ_HZ_DEFAULT;
/** Holds the HFClk0 clock frequency. Updated by \ref SystemCoreClockUpdate(). */
uint32_t cy_Hfclk0FreqHz = CY_CLK_HFCLK0_FREQ_HZ_DEFAULT;
/** Holds the PeriClk clock frequency. Updated by \ref SystemCoreClockUpdate(). */
uint32_t cy_PeriClkFreqHz = CY_CLK_PERICLK_FREQ_HZ_DEFAULT;
/** Holds the Alternate high frequency clock in Hz. Updated by \ref Cy_BLE_EcoConfigure(). */
uint32_t cy_BleEcoClockFreqHz = 0UL;
/*******************************************************************************
* SystemInit()
*******************************************************************************/
/* CLK_FLL_CONFIG default values */
#define CY_FB_CLK_FLL_CONFIG_VALUE (0x01000000u)
#define CY_FB_CLK_FLL_CONFIG2_VALUE (0x00020001u)
#define CY_FB_CLK_FLL_CONFIG3_VALUE (0x00002800u)
#define CY_FB_CLK_FLL_CONFIG4_VALUE (0x000000FFu)
/*******************************************************************************
* SystemCoreClockUpdate (void)
*******************************************************************************/
/* Do not use these definitions directly in your application */
#define CY_DELAY_MS_OVERFLOW_THRESHOLD (0x8000u)
#define CY_DELAY_1K_THRESHOLD (1000u)
#define CY_DELAY_1M_THRESHOLD (1000000u)
uint32_t cy_delayFreqKhz = CY_SYSLIB_DIV_ROUNDUP(CY_CLK_SYSTEM_FREQ_HZ_DEFAULT, CY_DELAY_1K_THRESHOLD);
uint8_t cy_delayFreqMhz = (uint8_t)CY_SYSLIB_DIV_ROUNDUP(CY_CLK_SYSTEM_FREQ_HZ_DEFAULT, CY_DELAY_1M_THRESHOLD);
uint32_t cy_delay32kMs = CY_DELAY_MS_OVERFLOW_THRESHOLD *
CY_SYSLIB_DIV_ROUNDUP(CY_CLK_SYSTEM_FREQ_HZ_DEFAULT, CY_DELAY_1K_THRESHOLD);
/*******************************************************************************
* Cy_SysEnableCM4(), Cy_SysRetainCM4(), and Cy_SysResetCM4()
*******************************************************************************/
#define CY_SYS_CM4_PWR_CTL_KEY_OPEN (0x05FAUL)
#define CY_SYS_CM4_PWR_CTL_KEY_CLOSE (0xFA05UL)
#define CY_SYS_CM4_VECTOR_TABLE_VALID_ADDR (0x000003FFUL)
/*******************************************************************************
* Function Name: SystemInit
****************************************************************************//**
*
* Initializes the system:
* - Restores FLL registers to the default state.
* - Unlocks and disables WDT.
* - Calls Cy_PDL_Init() function to define the driver library.
* - Calls the Cy_SystemInit() function, if compiled from PSoC Creator.
* - Calls \ref SystemCoreClockUpdate().
*
*******************************************************************************/
void SystemInit(void)
{
Cy_PDL_Init(CY_DEVICE_CFG);
/* Restore FLL registers to the default state as they are not restored by the ROM code */
uint32_t copy = SRSS->CLK_FLL_CONFIG;
copy &= ~SRSS_CLK_FLL_CONFIG_FLL_ENABLE_Msk;
SRSS->CLK_FLL_CONFIG = copy;
copy = SRSS->CLK_ROOT_SELECT[0u];
copy &= ~SRSS_CLK_ROOT_SELECT_ROOT_DIV_Msk; /* Set ROOT_DIV = 0*/
SRSS->CLK_ROOT_SELECT[0u] = copy;
SRSS->CLK_FLL_CONFIG = CY_FB_CLK_FLL_CONFIG_VALUE;
SRSS->CLK_FLL_CONFIG2 = CY_FB_CLK_FLL_CONFIG2_VALUE;
SRSS->CLK_FLL_CONFIG3 = CY_FB_CLK_FLL_CONFIG3_VALUE;
SRSS->CLK_FLL_CONFIG4 = CY_FB_CLK_FLL_CONFIG4_VALUE;
/* Unlock and disable WDT */
Cy_WDT_Unlock();
Cy_WDT_Disable();
Cy_SystemInit();
SystemCoreClockUpdate();
/* Clear data register of IPC structure #7, reserved for the Deep-Sleep operations. */
REG_IPC_STRUCT_DATA(CY_IPC_STRUCT_PTR(CY_IPC_CHAN_DDFT)) = 0UL;
/* Release IPC structure #7 to avoid deadlocks in case of SW or WDT reset during Deep-Sleep entering. */
REG_IPC_STRUCT_RELEASE(CY_IPC_STRUCT_PTR(CY_IPC_CHAN_DDFT)) = 0UL;
#if !defined(CY_IPC_DEFAULT_CFG_DISABLE)
/* Allocate and initialize semaphores for the system operations. */
CY_SECTION(".cy_sharedmem")
static uint32_t ipcSemaArray[CY_IPC_SEMA_COUNT / CY_IPC_SEMA_PER_WORD];
(void) Cy_IPC_Sema_Init(CY_IPC_CHAN_SEMA, CY_IPC_SEMA_COUNT, ipcSemaArray);
/********************************************************************************
*
* Initializes the system pipes. The system pipes are used by BLE and Flash.
*
* If the default startup file is not used, or SystemInit() is not called in your
* project, call the following three functions prior to executing any flash or
* EmEEPROM write or erase operation:
* -# Cy_IPC_Sema_Init()
* -# Cy_IPC_Pipe_Config()
* -# Cy_IPC_Pipe_Init()
* -# Cy_Flash_Init()
*
*******************************************************************************/
/* Create an array of endpoint structures */
static cy_stc_ipc_pipe_ep_t systemIpcPipeEpArray[CY_IPC_MAX_ENDPOINTS];
Cy_IPC_Pipe_Config(systemIpcPipeEpArray);
static cy_ipc_pipe_callback_ptr_t systemIpcPipeSysCbArray[CY_SYS_CYPIPE_CLIENT_CNT];
static const cy_stc_ipc_pipe_config_t systemIpcPipeConfigCm0 =
{
/* .ep0ConfigData */
{
/* .ipcNotifierNumber */ CY_IPC_INTR_CYPIPE_EP0,
/* .ipcNotifierPriority */ CY_SYS_INTR_CYPIPE_PRIOR_EP0,
/* .ipcNotifierMuxNumber */ CY_SYS_INTR_CYPIPE_MUX_EP0,
/* .epAddress */ CY_IPC_EP_CYPIPE_CM0_ADDR,
/* .epConfig */ CY_SYS_CYPIPE_CONFIG_EP0
},
/* .ep1ConfigData */
{
/* .ipcNotifierNumber */ CY_IPC_INTR_CYPIPE_EP1,
/* .ipcNotifierPriority */ CY_SYS_INTR_CYPIPE_PRIOR_EP1,
/* .ipcNotifierMuxNumber */ 0u,
/* .epAddress */ CY_IPC_EP_CYPIPE_CM4_ADDR,
/* .epConfig */ CY_SYS_CYPIPE_CONFIG_EP1
},
/* .endpointClientsCount */ CY_SYS_CYPIPE_CLIENT_CNT,
/* .endpointsCallbacksArray */ systemIpcPipeSysCbArray,
/* .userPipeIsrHandler */ &Cy_SysIpcPipeIsrCm0
};
Cy_IPC_Pipe_Init(&systemIpcPipeConfigCm0);
#if defined(CY_DEVICE_PSOC6ABLE2)
Cy_Flash_Init();
#endif /* defined(CY_DEVICE_PSOC6ABLE2) */
#endif /* !defined(CY_IPC_DEFAULT_CFG_DISABLE) */
}
/*******************************************************************************
* Function Name: Cy_SystemInit
****************************************************************************//**
*
* The function is called during device startup. Once project compiled as part of
* the PSoC Creator project, the Cy_SystemInit() function is generated by the
* PSoC Creator.
*
* The function generated by PSoC Creator performs all of the necessary device
* configuration based on the design settings. This includes settings from the
* Design Wide Resources (DWR) such as Clocks and Pins as well as any component
* configuration that is necessary.
*
*******************************************************************************/
__WEAK void Cy_SystemInit(void)
{
/* Empty weak function. The actual implementation to be in the PSoC Creator
* generated strong function.
*/
}
/*******************************************************************************
* Function Name: SystemCoreClockUpdate
****************************************************************************//**
*
* Gets core clock frequency and updates \ref SystemCoreClock.
*
* Updates global variables used by the \ref Cy_SysLib_Delay(), \ref
* Cy_SysLib_DelayUs(), and \ref Cy_SysLib_DelayCycles().
*
*******************************************************************************/
void SystemCoreClockUpdate (void)
{
uint32 locHf0Clock = Cy_SysClk_ClkHfGetFrequency(0UL);
if (0UL != locHf0Clock)
{
cy_Hfclk0FreqHz = locHf0Clock;
cy_PeriClkFreqHz = locHf0Clock / (1UL + (uint32_t)Cy_SysClk_ClkPeriGetDivider());
SystemCoreClock = cy_PeriClkFreqHz / (1UL + (uint32_t)Cy_SysClk_ClkSlowGetDivider());
/* Sets clock frequency for Delay API */
cy_delayFreqMhz = (uint8_t)CY_SYSLIB_DIV_ROUNDUP(SystemCoreClock, CY_DELAY_1M_THRESHOLD);
cy_delayFreqKhz = CY_SYSLIB_DIV_ROUNDUP(SystemCoreClock, CY_DELAY_1K_THRESHOLD);
cy_delay32kMs = CY_DELAY_MS_OVERFLOW_THRESHOLD * cy_delayFreqKhz;
}
}
#if (CY_SYSTEM_CPU_CM0P == 1UL) || defined(CY_DOXYGEN)
/*******************************************************************************
* Function Name: Cy_SysGetCM4Status
****************************************************************************//**
*
* Returns the Cortex-M4 core power mode.
*
* \return \ref group_system_config_cm4_status_macro
*
*******************************************************************************/
uint32_t Cy_SysGetCM4Status(void)
{
uint32_t regValue;
/* Get current power mode */
regValue = CPUSS->CM4_PWR_CTL & CPUSS_CM4_PWR_CTL_PWR_MODE_Msk;
return (regValue);
}
/*******************************************************************************
* Function Name: Cy_SysEnableCM4
****************************************************************************//**
*
* Sets vector table base address and enables the Cortex-M4 core.
*
* \note If the CPU is already enabled, it is reset and then enabled.
*
* \param vectorTableOffset The offset of the vector table base address from
* memory address 0x00000000. The offset should be multiple to 1024 bytes.
*
*******************************************************************************/
void Cy_SysEnableCM4(uint32_t vectorTableOffset)
{
uint32_t regValue;
uint32_t interruptState;
uint32_t cpuState;
CY_ASSERT_L2((vectorTableOffset & CY_SYS_CM4_VECTOR_TABLE_VALID_ADDR) == 0UL);
interruptState = Cy_SysLib_EnterCriticalSection();
cpuState = Cy_SysGetCM4Status();
if (CY_SYS_CM4_STATUS_ENABLED == cpuState)
{
Cy_SysResetCM4();
}
CPUSS->CM4_VECTOR_TABLE_BASE = vectorTableOffset;
regValue = CPUSS->CM4_PWR_CTL & ~(CPUSS_CM4_PWR_CTL_VECTKEYSTAT_Msk | CPUSS_CM4_PWR_CTL_PWR_MODE_Msk);
regValue |= _VAL2FLD(CPUSS_CM4_PWR_CTL_VECTKEYSTAT, CY_SYS_CM4_PWR_CTL_KEY_OPEN);
regValue |= CY_SYS_CM4_STATUS_ENABLED;
CPUSS->CM4_PWR_CTL = regValue;
while((CPUSS->CM4_STATUS & CPUSS_CM4_STATUS_PWR_DONE_Msk) == 0UL)
{
/* Wait for the power mode to take effect */
}
Cy_SysLib_ExitCriticalSection(interruptState);
}
/*******************************************************************************
* Function Name: Cy_SysDisableCM4
****************************************************************************//**
*
* Disables the Cortex-M4 core and waits for the mode to take the effect.
*
* \warning Do not call the function while the Cortex-M4 is executing because
* such a call may corrupt/abort a pending bus-transaction by the CPU and cause
* unexpected behavior in the system including a deadlock. Call the function
* while the Cortex-M4 core is in the Sleep or Deep Sleep low-power mode. Use
* the \ref group_syspm Power Management (syspm) API to put the CPU into the
* low-power modes. Use the \ref Cy_SysPm_ReadStatus() to get a status of the
* CPU.
*
*******************************************************************************/
void Cy_SysDisableCM4(void)
{
uint32_t interruptState;
uint32_t regValue;
interruptState = Cy_SysLib_EnterCriticalSection();
regValue = CPUSS->CM4_PWR_CTL & ~(CPUSS_CM4_PWR_CTL_VECTKEYSTAT_Msk | CPUSS_CM4_PWR_CTL_PWR_MODE_Msk);
regValue |= _VAL2FLD(CPUSS_CM4_PWR_CTL_VECTKEYSTAT, CY_SYS_CM4_PWR_CTL_KEY_OPEN);
regValue |= CY_SYS_CM4_STATUS_DISABLED;
CPUSS->CM4_PWR_CTL = regValue;
while((CPUSS->CM4_STATUS & CPUSS_CM4_STATUS_PWR_DONE_Msk) == 0UL)
{
/* Wait for the power mode to take effect */
}
Cy_SysLib_ExitCriticalSection(interruptState);
}
/*******************************************************************************
* Function Name: Cy_SysRetainCM4
****************************************************************************//**
*
* Retains the Cortex-M4 core and exists without waiting for the mode to take
* effect.
*
* \note The retained mode can be entered only from the enabled mode.
*
* \warning Do not call the function while the Cortex-M4 is executing because
* such a call may corrupt/abort a pending bus-transaction by the CPU and cause
* unexpected behavior in the system including a deadlock. Call the function
* while the Cortex-M4 core is in the Sleep or Deep Sleep low-power mode. Use
* the \ref group_syspm Power Management (syspm) API to put the CPU into the
* low-power modes. Use the \ref Cy_SysPm_ReadStatus() to get a status of the CPU.
*
*******************************************************************************/
void Cy_SysRetainCM4(void)
{
uint32_t interruptState;
uint32_t regValue;
interruptState = Cy_SysLib_EnterCriticalSection();
regValue = CPUSS->CM4_PWR_CTL & ~(CPUSS_CM4_PWR_CTL_VECTKEYSTAT_Msk | CPUSS_CM4_PWR_CTL_PWR_MODE_Msk);
regValue |= _VAL2FLD(CPUSS_CM4_PWR_CTL_VECTKEYSTAT, CY_SYS_CM4_PWR_CTL_KEY_OPEN);
regValue |= CY_SYS_CM4_STATUS_RETAINED;
CPUSS->CM4_PWR_CTL = regValue;
Cy_SysLib_ExitCriticalSection(interruptState);
}
/*******************************************************************************
* Function Name: Cy_SysResetCM4
****************************************************************************//**
*
* Resets the Cortex-M4 core and waits for the mode to take the effect.
*
* \note The reset mode can not be entered from the retained mode.
*
* \warning Do not call the function while the Cortex-M4 is executing because
* such a call may corrupt/abort a pending bus-transaction by the CPU and cause
* unexpected behavior in the system including a deadlock. Call the function
* while the Cortex-M4 core is in the Sleep or Deep Sleep low-power mode. Use
* the \ref group_syspm Power Management (syspm) API to put the CPU into the
* low-power modes. Use the \ref Cy_SysPm_ReadStatus() to get a status of the CPU.
*
*******************************************************************************/
void Cy_SysResetCM4(void)
{
uint32_t interruptState;
uint32_t regValue;
interruptState = Cy_SysLib_EnterCriticalSection();
regValue = CPUSS->CM4_PWR_CTL & ~(CPUSS_CM4_PWR_CTL_VECTKEYSTAT_Msk | CPUSS_CM4_PWR_CTL_PWR_MODE_Msk);
regValue |= _VAL2FLD(CPUSS_CM4_PWR_CTL_VECTKEYSTAT, CY_SYS_CM4_PWR_CTL_KEY_OPEN);
regValue |= CY_SYS_CM4_STATUS_RESET;
CPUSS->CM4_PWR_CTL = regValue;
while((CPUSS->CM4_STATUS & CPUSS_CM4_STATUS_PWR_DONE_Msk) == 0UL)
{
/* Wait for the power mode to take effect */
}
Cy_SysLib_ExitCriticalSection(interruptState);
}
#endif /* #if (CY_SYSTEM_CPU_CM0P == 1UL) || defined(CY_DOXYGEN) */
#if !defined(CY_IPC_DEFAULT_CFG_DISABLE)
/*******************************************************************************
* Function Name: Cy_SysIpcPipeIsrCm0
****************************************************************************//**
*
* This is the interrupt service routine for the system pipe.
*
*******************************************************************************/
void Cy_SysIpcPipeIsrCm0(void)
{
Cy_IPC_Pipe_ExecuteCallback(CY_IPC_EP_CYPIPE_CM0_ADDR);
}
#endif
/*******************************************************************************
* Function Name: Cy_MemorySymbols
****************************************************************************//**
*
* The intention of the function is to declare boundaries of the memories for the
* MDK compilers. For the rest of the supported compilers, this is done using
* linker configuration files. The following symbols used by the cymcuelftool.
*
*******************************************************************************/
#if defined (__ARMCC_VERSION) && (__ARMCC_VERSION < 6010050)
__asm void Cy_MemorySymbols(void)
{
/* Flash */
EXPORT __cy_memory_0_start
EXPORT __cy_memory_0_length
EXPORT __cy_memory_0_row_size
/* Working Flash */
EXPORT __cy_memory_1_start
EXPORT __cy_memory_1_length
EXPORT __cy_memory_1_row_size
/* Supervisory Flash */
EXPORT __cy_memory_2_start
EXPORT __cy_memory_2_length
EXPORT __cy_memory_2_row_size
/* XIP */
EXPORT __cy_memory_3_start
EXPORT __cy_memory_3_length
EXPORT __cy_memory_3_row_size
/* eFuse */
EXPORT __cy_memory_4_start
EXPORT __cy_memory_4_length
EXPORT __cy_memory_4_row_size
/* Flash */
__cy_memory_0_start EQU __cpp(CY_FLASH_BASE)
__cy_memory_0_length EQU __cpp(CY_FLASH_SIZE)
__cy_memory_0_row_size EQU 0x200
/* Flash region for EEPROM emulation */
__cy_memory_1_start EQU __cpp(CY_EM_EEPROM_BASE)
__cy_memory_1_length EQU __cpp(CY_EM_EEPROM_SIZE)
__cy_memory_1_row_size EQU 0x200
/* Supervisory Flash */
__cy_memory_2_start EQU __cpp(CY_SFLASH_BASE)
__cy_memory_2_length EQU __cpp(CY_SFLASH_SIZE)
__cy_memory_2_row_size EQU 0x200
/* XIP */
__cy_memory_3_start EQU __cpp(CY_XIP_BASE)
__cy_memory_3_length EQU __cpp(CY_XIP_SIZE)
__cy_memory_3_row_size EQU 0x200
/* eFuse */
__cy_memory_4_start EQU __cpp(0x90700000)
__cy_memory_4_length EQU __cpp(0x100000)
__cy_memory_4_row_size EQU __cpp(1)
}
#endif /* defined (__ARMCC_VERSION) && (__ARMCC_VERSION < 6010050) */
/* [] END OF FILE */

311
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/TOOLCHAIN_ARM/cy8c6xx7_cm4_dual.sct
View File

@ -1,311 +0,0 @@
#! armclang -E --target=arm-arm-none-eabi -x c -mcpu=cortex-m4
; The first line specifies a preprocessor command that the linker invokes
; to pass a scatter file through a C preprocessor.
;*******************************************************************************
;* \file cy8c6xx7_cm4_dual.sct
;* \version 2.70
;*
;* Linker file for the ARMCC.
;*
;* The main purpose of the linker script is to describe how the sections in the
;* input files should be mapped into the output file, and to control the memory
;* layout of the output file.
;*
;* \note The entry point location is fixed and starts at 0x10000000. The valid
;* application image should be placed there.
;*
;* \note The linker files included with the PDL template projects must be
;* generic and handle all common use cases. Your project may not use every
;* section defined in the linker files. In that case you may see the warnings
;* during the build process: L6314W (no section matches pattern) and/or L6329W
;* (pattern only matches removed unused sections). In your project, you can
;* suppress the warning by passing the "--diag_suppress=L6314W,L6329W" option to
;* the linker, simply comment out or remove the relevant code in the linker
;* file.
;*
;*******************************************************************************
;* \copyright
;* Copyright 2016-2019 Cypress Semiconductor Corporation
;* SPDX-License-Identifier: Apache-2.0
;*
;* 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.
;******************************************************************************/
; The size of the Cortex-M0+ application flash image
#define FLASH_CM0P_SIZE 0x2000
#if !defined(MBED_ROM_START)
#define MBED_ROM_START 0x10000000
#endif
;* MBED_APP_START is being used by the bootloader build script and
;* will be calculate by the system. In case if MBED_APP_START address is
;* customized by the bootloader config, the application image should not
;* include CM0p prebuilt image.
;*
#if !defined(MBED_APP_START)
#define MBED_APP_START (MBED_ROM_START + FLASH_CM0P_SIZE)
#endif
#if !defined(MBED_ROM_SIZE)
#define MBED_ROM_SIZE 0x00100000
#endif
;* MBED_APP_SIZE is being used by the bootloader build script and
;* will be calculate by the system.
;*
#if !defined(MBED_APP_SIZE)
#define MBED_APP_SIZE (MBED_ROM_SIZE - FLASH_CM0P_SIZE)
#endif
#if !defined(MBED_RAM_START)
#define MBED_RAM_START 0x08002000
#endif
#if !defined(MBED_RAM_SIZE)
#define MBED_RAM_SIZE 0x00045800
#endif
#if !defined(MBED_BOOT_STACK_SIZE)
#define MBED_BOOT_STACK_SIZE 0x400
#endif
; The size of the stack section at the end of CM4 SRAM
#define STACK_SIZE MBED_BOOT_STACK_SIZE
; The defines below describe the location and size of blocks of memory in the target.
; Use these defines to specify the memory regions available for allocation.
; The following defines control RAM and flash memory allocation for the CM4 core.
; You can change the memory allocation by editing RAM and Flash defines.
; Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
; Using this memory region for other purposes will lead to unexpected behavior.
; Your changes must be aligned with the corresponding defines for CM0+ core in 'xx_cm0plus.scat',
; where 'xx' is the device group; for example, 'cy8c6xx7_cm0plus.scat'.
; RAM
#define RAM_START MBED_RAM_START
#define RAM_SIZE MBED_RAM_SIZE
; Flash
#define FLASH_START MBED_APP_START
#define FLASH_SIZE MBED_APP_SIZE
; The following defines describe a 32K flash region used for EEPROM emulation.
; This region can also be used as the general purpose flash.
; You can assign sections to this memory region for only one of the cores.
; Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
; Therefore, repurposing this memory region will prevent such middleware from operation.
#define EM_EEPROM_START 0x14000000
#define EM_EEPROM_SIZE 0x8000
; The following defines describe device specific memory regions and must not be changed.
; Supervisory flash: User data
#define SFLASH_USER_DATA_START 0x16000800
#define SFLASH_USER_DATA_SIZE 0x00000800
; Supervisory flash: Normal Access Restrictions (NAR)
#define SFLASH_NAR_START 0x16001A00
#define SFLASH_NAR_SIZE 0x00000200
; Supervisory flash: Public Key
#define SFLASH_PUBLIC_KEY_START 0x16005A00
#define SFLASH_PUBLIC_KEY_SIZE 0x00000C00
; Supervisory flash: Table of Content # 2
#define SFLASH_TOC_2_START 0x16007C00
#define SFLASH_TOC_2_SIZE 0x00000200
; Supervisory flash: Table of Content # 2 Copy
#define SFLASH_RTOC_2_START 0x16007E00
#define SFLASH_RTOC_2_SIZE 0x00000200
; External memory
#define XIP_START 0x18000000
#define XIP_SIZE 0x08000000
; eFuse
#define EFUSE_START 0x90700000
#define EFUSE_SIZE 0x100000
; Cortex-M0+ application flash image area
LR_IROM MBED_ROM_START FLASH_CM0P_SIZE
{
.cy_m0p_image +0 FLASH_CM0P_SIZE
{
* (.cy_m0p_image)
}
}
; Cortex-M4 application flash area
LR_IROM1 FLASH_START FLASH_SIZE
{
ER_FLASH_VECTORS +0
{
* (RESET, +FIRST)
}
ER_FLASH_CODE +0 FIXED
{
* (InRoot$$Sections)
* (+RO)
}
ER_RAM_VECTORS RAM_START UNINIT
{
* (RESET_RAM, +FIRST)
}
RW_RAM_DATA +0
{
* (.cy_ramfunc)
* (+RW, +ZI)
}
; Place variables in the section that should not be initialized during the
; device startup.
RW_IRAM1 +0 UNINIT
{
* (.noinit)
}
; Application heap area (HEAP)
ARM_LIB_HEAP +0 EMPTY RAM_START+RAM_SIZE-STACK_SIZE-ImageLimit(RW_IRAM1)
{
}
; Stack region growing down
ARM_LIB_STACK RAM_START+RAM_SIZE EMPTY -STACK_SIZE
{
}
; Used for the digital signature of the secure application and the
; Bootloader SDK application. The size of the section depends on the required
; data size.
.cy_app_signature (MBED_ROM_START + MBED_ROM_SIZE - 256) 256
{
* (.cy_app_signature)
}
}
; Emulated EEPROM Flash area
LR_EM_EEPROM EM_EEPROM_START EM_EEPROM_SIZE
{
.cy_em_eeprom +0
{
* (.cy_em_eeprom)
}
}
; Supervisory flash: User data
LR_SFLASH_USER_DATA SFLASH_USER_DATA_START SFLASH_USER_DATA_SIZE
{
.cy_sflash_user_data +0
{
* (.cy_sflash_user_data)
}
}
; Supervisory flash: Normal Access Restrictions (NAR)
LR_SFLASH_NAR SFLASH_NAR_START SFLASH_NAR_SIZE
{
.cy_sflash_nar +0
{
* (.cy_sflash_nar)
}
}
; Supervisory flash: Public Key
LR_SFLASH_PUBLIC_KEY SFLASH_PUBLIC_KEY_START SFLASH_PUBLIC_KEY_SIZE
{
.cy_sflash_public_key +0
{
* (.cy_sflash_public_key)
}
}
; Supervisory flash: Table of Content # 2
LR_SFLASH_TOC_2 SFLASH_TOC_2_START SFLASH_TOC_2_SIZE
{
.cy_toc_part2 +0
{
* (.cy_toc_part2)
}
}
; Supervisory flash: Table of Content # 2 Copy
LR_SFLASH_RTOC_2 SFLASH_RTOC_2_START SFLASH_RTOC_2_SIZE
{
.cy_rtoc_part2 +0
{
* (.cy_rtoc_part2)
}
}
; Places the code in the Execute in Place (XIP) section. See the smif driver documentation for details.
LR_EROM XIP_START XIP_SIZE
{
.cy_xip +0
{
* (.cy_xip)
}
}
; eFuse
LR_EFUSE EFUSE_START EFUSE_SIZE
{
.cy_efuse +0
{
* (.cy_efuse)
}
}
; The section is used for additional metadata (silicon revision, Silicon/JTAG ID, etc.) storage.
CYMETA 0x90500000
{
.cymeta +0 { * (.cymeta) }
}
/* The following symbols used by the cymcuelftool. */
/* Flash */
#define __cy_memory_0_start 0x10000000
#define __cy_memory_0_length 0x00100000
#define __cy_memory_0_row_size 0x200
/* Emulated EEPROM Flash area */
#define __cy_memory_1_start 0x14000000
#define __cy_memory_1_length 0x8000
#define __cy_memory_1_row_size 0x200
/* Supervisory Flash */
#define __cy_memory_2_start 0x16000000
#define __cy_memory_2_length 0x8000
#define __cy_memory_2_row_size 0x200
/* XIP */
#define __cy_memory_3_start 0x18000000
#define __cy_memory_3_length 0x08000000
#define __cy_memory_3_row_size 0x200
/* eFuse */
#define __cy_memory_4_start 0x90700000
#define __cy_memory_4_length 0x100000
#define __cy_memory_4_row_size 1
/* [] END OF FILE */

638
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/TOOLCHAIN_ARM/startup_psoc6_01_cm4.S
View File

@ -1,638 +0,0 @@
;/**************************************************************************//**
; * @file startup_psoc6_01_cm4.S
; * @brief CMSIS Core Device Startup File for
; * ARMCM4 Device Series
; * @version V5.00
; * @date 02. March 2016
; ******************************************************************************/
;/*
; * Copyright (c) 2009-2016 ARM Limited. All rights reserved.
; *
; * SPDX-License-Identifier: Apache-2.0
; *
; * 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
; *
; * 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.
; */
PRESERVE8
THUMB
; Vector Table Mapped to Address 0 at Reset
AREA RESET, DATA, READONLY
EXPORT __Vectors
EXPORT __Vectors_End
EXPORT __Vectors_Size
IMPORT |Image$$ARM_LIB_STACK$$ZI$$Limit|
__Vectors DCD |Image$$ARM_LIB_STACK$$ZI$$Limit| ; Top of Stack
DCD Reset_Handler ; Reset Handler
DCD 0x0000000D ; NMI Handler located at ROM code
DCD HardFault_Handler ; Hard Fault Handler
DCD MemManage_Handler ; MPU Fault Handler
DCD BusFault_Handler ; Bus Fault Handler
DCD UsageFault_Handler ; Usage Fault Handler
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD 0 ; Reserved
DCD SVC_Handler ; SVCall Handler
DCD DebugMon_Handler ; Debug Monitor Handler
DCD 0 ; Reserved
DCD PendSV_Handler ; PendSV Handler
DCD SysTick_Handler ; SysTick Handler
; External interrupts Description
DCD ioss_interrupts_gpio_0_IRQHandler ; GPIO Port Interrupt #0
DCD ioss_interrupts_gpio_1_IRQHandler ; GPIO Port Interrupt #1
DCD ioss_interrupts_gpio_2_IRQHandler ; GPIO Port Interrupt #2
DCD ioss_interrupts_gpio_3_IRQHandler ; GPIO Port Interrupt #3
DCD ioss_interrupts_gpio_4_IRQHandler ; GPIO Port Interrupt #4
DCD ioss_interrupts_gpio_5_IRQHandler ; GPIO Port Interrupt #5
DCD ioss_interrupts_gpio_6_IRQHandler ; GPIO Port Interrupt #6
DCD ioss_interrupts_gpio_7_IRQHandler ; GPIO Port Interrupt #7
DCD ioss_interrupts_gpio_8_IRQHandler ; GPIO Port Interrupt #8
DCD ioss_interrupts_gpio_9_IRQHandler ; GPIO Port Interrupt #9
DCD ioss_interrupts_gpio_10_IRQHandler ; GPIO Port Interrupt #10
DCD ioss_interrupts_gpio_11_IRQHandler ; GPIO Port Interrupt #11
DCD ioss_interrupts_gpio_12_IRQHandler ; GPIO Port Interrupt #12
DCD ioss_interrupts_gpio_13_IRQHandler ; GPIO Port Interrupt #13
DCD ioss_interrupts_gpio_14_IRQHandler ; GPIO Port Interrupt #14
DCD ioss_interrupt_gpio_IRQHandler ; GPIO All Ports
DCD ioss_interrupt_vdd_IRQHandler ; GPIO Supply Detect Interrupt
DCD lpcomp_interrupt_IRQHandler ; Low Power Comparator Interrupt
DCD scb_8_interrupt_IRQHandler ; Serial Communication Block #8 (DeepSleep capable)
DCD srss_interrupt_mcwdt_0_IRQHandler ; Multi Counter Watchdog Timer interrupt
DCD srss_interrupt_mcwdt_1_IRQHandler ; Multi Counter Watchdog Timer interrupt
DCD srss_interrupt_backup_IRQHandler ; Backup domain interrupt
DCD srss_interrupt_IRQHandler ; Other combined Interrupts for SRSS (LVD, WDT, CLKCAL)
DCD pass_interrupt_ctbs_IRQHandler ; CTBm Interrupt (all CTBms)
DCD bless_interrupt_IRQHandler ; Bluetooth Radio interrupt
DCD cpuss_interrupts_ipc_0_IRQHandler ; CPUSS Inter Process Communication Interrupt #0
DCD cpuss_interrupts_ipc_1_IRQHandler ; CPUSS Inter Process Communication Interrupt #1
DCD cpuss_interrupts_ipc_2_IRQHandler ; CPUSS Inter Process Communication Interrupt #2
DCD cpuss_interrupts_ipc_3_IRQHandler ; CPUSS Inter Process Communication Interrupt #3
DCD cpuss_interrupts_ipc_4_IRQHandler ; CPUSS Inter Process Communication Interrupt #4
DCD cpuss_interrupts_ipc_5_IRQHandler ; CPUSS Inter Process Communication Interrupt #5
DCD cpuss_interrupts_ipc_6_IRQHandler ; CPUSS Inter Process Communication Interrupt #6
DCD cpuss_interrupts_ipc_7_IRQHandler ; CPUSS Inter Process Communication Interrupt #7
DCD cpuss_interrupts_ipc_8_IRQHandler ; CPUSS Inter Process Communication Interrupt #8
DCD cpuss_interrupts_ipc_9_IRQHandler ; CPUSS Inter Process Communication Interrupt #9
DCD cpuss_interrupts_ipc_10_IRQHandler ; CPUSS Inter Process Communication Interrupt #10
DCD cpuss_interrupts_ipc_11_IRQHandler ; CPUSS Inter Process Communication Interrupt #11
DCD cpuss_interrupts_ipc_12_IRQHandler ; CPUSS Inter Process Communication Interrupt #12
DCD cpuss_interrupts_ipc_13_IRQHandler ; CPUSS Inter Process Communication Interrupt #13
DCD cpuss_interrupts_ipc_14_IRQHandler ; CPUSS Inter Process Communication Interrupt #14
DCD cpuss_interrupts_ipc_15_IRQHandler ; CPUSS Inter Process Communication Interrupt #15
DCD scb_0_interrupt_IRQHandler ; Serial Communication Block #0
DCD scb_1_interrupt_IRQHandler ; Serial Communication Block #1
DCD scb_2_interrupt_IRQHandler ; Serial Communication Block #2
DCD scb_3_interrupt_IRQHandler ; Serial Communication Block #3
DCD scb_4_interrupt_IRQHandler ; Serial Communication Block #4
DCD scb_5_interrupt_IRQHandler ; Serial Communication Block #5
DCD scb_6_interrupt_IRQHandler ; Serial Communication Block #6
DCD scb_7_interrupt_IRQHandler ; Serial Communication Block #7
DCD csd_interrupt_IRQHandler ; CSD (Capsense) interrupt
DCD cpuss_interrupts_dw0_0_IRQHandler ; CPUSS DataWire #0, Channel #0
DCD cpuss_interrupts_dw0_1_IRQHandler ; CPUSS DataWire #0, Channel #1
DCD cpuss_interrupts_dw0_2_IRQHandler ; CPUSS DataWire #0, Channel #2
DCD cpuss_interrupts_dw0_3_IRQHandler ; CPUSS DataWire #0, Channel #3
DCD cpuss_interrupts_dw0_4_IRQHandler ; CPUSS DataWire #0, Channel #4
DCD cpuss_interrupts_dw0_5_IRQHandler ; CPUSS DataWire #0, Channel #5
DCD cpuss_interrupts_dw0_6_IRQHandler ; CPUSS DataWire #0, Channel #6
DCD cpuss_interrupts_dw0_7_IRQHandler ; CPUSS DataWire #0, Channel #7
DCD cpuss_interrupts_dw0_8_IRQHandler ; CPUSS DataWire #0, Channel #8
DCD cpuss_interrupts_dw0_9_IRQHandler ; CPUSS DataWire #0, Channel #9
DCD cpuss_interrupts_dw0_10_IRQHandler ; CPUSS DataWire #0, Channel #10
DCD cpuss_interrupts_dw0_11_IRQHandler ; CPUSS DataWire #0, Channel #11
DCD cpuss_interrupts_dw0_12_IRQHandler ; CPUSS DataWire #0, Channel #12
DCD cpuss_interrupts_dw0_13_IRQHandler ; CPUSS DataWire #0, Channel #13
DCD cpuss_interrupts_dw0_14_IRQHandler ; CPUSS DataWire #0, Channel #14
DCD cpuss_interrupts_dw0_15_IRQHandler ; CPUSS DataWire #0, Channel #15
DCD cpuss_interrupts_dw1_0_IRQHandler ; CPUSS DataWire #1, Channel #0
DCD cpuss_interrupts_dw1_1_IRQHandler ; CPUSS DataWire #1, Channel #1
DCD cpuss_interrupts_dw1_2_IRQHandler ; CPUSS DataWire #1, Channel #2
DCD cpuss_interrupts_dw1_3_IRQHandler ; CPUSS DataWire #1, Channel #3
DCD cpuss_interrupts_dw1_4_IRQHandler ; CPUSS DataWire #1, Channel #4
DCD cpuss_interrupts_dw1_5_IRQHandler ; CPUSS DataWire #1, Channel #5
DCD cpuss_interrupts_dw1_6_IRQHandler ; CPUSS DataWire #1, Channel #6
DCD cpuss_interrupts_dw1_7_IRQHandler ; CPUSS DataWire #1, Channel #7
DCD cpuss_interrupts_dw1_8_IRQHandler ; CPUSS DataWire #1, Channel #8
DCD cpuss_interrupts_dw1_9_IRQHandler ; CPUSS DataWire #1, Channel #9
DCD cpuss_interrupts_dw1_10_IRQHandler ; CPUSS DataWire #1, Channel #10
DCD cpuss_interrupts_dw1_11_IRQHandler ; CPUSS DataWire #1, Channel #11
DCD cpuss_interrupts_dw1_12_IRQHandler ; CPUSS DataWire #1, Channel #12
DCD cpuss_interrupts_dw1_13_IRQHandler ; CPUSS DataWire #1, Channel #13
DCD cpuss_interrupts_dw1_14_IRQHandler ; CPUSS DataWire #1, Channel #14
DCD cpuss_interrupts_dw1_15_IRQHandler ; CPUSS DataWire #1, Channel #15
DCD cpuss_interrupts_fault_0_IRQHandler ; CPUSS Fault Structure Interrupt #0
DCD cpuss_interrupts_fault_1_IRQHandler ; CPUSS Fault Structure Interrupt #1
DCD cpuss_interrupt_crypto_IRQHandler ; CRYPTO Accelerator Interrupt
DCD cpuss_interrupt_fm_IRQHandler ; FLASH Macro Interrupt
DCD cpuss_interrupts_cm0_cti_0_IRQHandler ; CM0+ CTI #0
DCD cpuss_interrupts_cm0_cti_1_IRQHandler ; CM0+ CTI #1
DCD cpuss_interrupts_cm4_cti_0_IRQHandler ; CM4 CTI #0
DCD cpuss_interrupts_cm4_cti_1_IRQHandler ; CM4 CTI #1
DCD tcpwm_0_interrupts_0_IRQHandler ; TCPWM #0, Counter #0
DCD tcpwm_0_interrupts_1_IRQHandler ; TCPWM #0, Counter #1
DCD tcpwm_0_interrupts_2_IRQHandler ; TCPWM #0, Counter #2
DCD tcpwm_0_interrupts_3_IRQHandler ; TCPWM #0, Counter #3
DCD tcpwm_0_interrupts_4_IRQHandler ; TCPWM #0, Counter #4
DCD tcpwm_0_interrupts_5_IRQHandler ; TCPWM #0, Counter #5
DCD tcpwm_0_interrupts_6_IRQHandler ; TCPWM #0, Counter #6
DCD tcpwm_0_interrupts_7_IRQHandler ; TCPWM #0, Counter #7
DCD tcpwm_1_interrupts_0_IRQHandler ; TCPWM #1, Counter #0
DCD tcpwm_1_interrupts_1_IRQHandler ; TCPWM #1, Counter #1
DCD tcpwm_1_interrupts_2_IRQHandler ; TCPWM #1, Counter #2
DCD tcpwm_1_interrupts_3_IRQHandler ; TCPWM #1, Counter #3
DCD tcpwm_1_interrupts_4_IRQHandler ; TCPWM #1, Counter #4
DCD tcpwm_1_interrupts_5_IRQHandler ; TCPWM #1, Counter #5
DCD tcpwm_1_interrupts_6_IRQHandler ; TCPWM #1, Counter #6
DCD tcpwm_1_interrupts_7_IRQHandler ; TCPWM #1, Counter #7
DCD tcpwm_1_interrupts_8_IRQHandler ; TCPWM #1, Counter #8
DCD tcpwm_1_interrupts_9_IRQHandler ; TCPWM #1, Counter #9
DCD tcpwm_1_interrupts_10_IRQHandler ; TCPWM #1, Counter #10
DCD tcpwm_1_interrupts_11_IRQHandler ; TCPWM #1, Counter #11
DCD tcpwm_1_interrupts_12_IRQHandler ; TCPWM #1, Counter #12
DCD tcpwm_1_interrupts_13_IRQHandler ; TCPWM #1, Counter #13
DCD tcpwm_1_interrupts_14_IRQHandler ; TCPWM #1, Counter #14
DCD tcpwm_1_interrupts_15_IRQHandler ; TCPWM #1, Counter #15
DCD tcpwm_1_interrupts_16_IRQHandler ; TCPWM #1, Counter #16
DCD tcpwm_1_interrupts_17_IRQHandler ; TCPWM #1, Counter #17
DCD tcpwm_1_interrupts_18_IRQHandler ; TCPWM #1, Counter #18
DCD tcpwm_1_interrupts_19_IRQHandler ; TCPWM #1, Counter #19
DCD tcpwm_1_interrupts_20_IRQHandler ; TCPWM #1, Counter #20
DCD tcpwm_1_interrupts_21_IRQHandler ; TCPWM #1, Counter #21
DCD tcpwm_1_interrupts_22_IRQHandler ; TCPWM #1, Counter #22
DCD tcpwm_1_interrupts_23_IRQHandler ; TCPWM #1, Counter #23
DCD udb_interrupts_0_IRQHandler ; UDB Interrupt #0
DCD udb_interrupts_1_IRQHandler ; UDB Interrupt #1
DCD udb_interrupts_2_IRQHandler ; UDB Interrupt #2
DCD udb_interrupts_3_IRQHandler ; UDB Interrupt #3
DCD udb_interrupts_4_IRQHandler ; UDB Interrupt #4
DCD udb_interrupts_5_IRQHandler ; UDB Interrupt #5
DCD udb_interrupts_6_IRQHandler ; UDB Interrupt #6
DCD udb_interrupts_7_IRQHandler ; UDB Interrupt #7
DCD udb_interrupts_8_IRQHandler ; UDB Interrupt #8
DCD udb_interrupts_9_IRQHandler ; UDB Interrupt #9
DCD udb_interrupts_10_IRQHandler ; UDB Interrupt #10
DCD udb_interrupts_11_IRQHandler ; UDB Interrupt #11
DCD udb_interrupts_12_IRQHandler ; UDB Interrupt #12
DCD udb_interrupts_13_IRQHandler ; UDB Interrupt #13
DCD udb_interrupts_14_IRQHandler ; UDB Interrupt #14
DCD udb_interrupts_15_IRQHandler ; UDB Interrupt #15
DCD pass_interrupt_sar_IRQHandler ; SAR ADC interrupt
DCD audioss_interrupt_i2s_IRQHandler ; I2S Audio interrupt
DCD audioss_interrupt_pdm_IRQHandler ; PDM/PCM Audio interrupt
DCD profile_interrupt_IRQHandler ; Energy Profiler interrupt
DCD smif_interrupt_IRQHandler ; Serial Memory Interface interrupt
DCD usb_interrupt_hi_IRQHandler ; USB Interrupt
DCD usb_interrupt_med_IRQHandler ; USB Interrupt
DCD usb_interrupt_lo_IRQHandler ; USB Interrupt
DCD pass_interrupt_dacs_IRQHandler ; Consolidated interrrupt for all DACs
__Vectors_End
__Vectors_Size EQU __Vectors_End - __Vectors
EXPORT __ramVectors
AREA RESET_RAM, READWRITE, NOINIT
__ramVectors SPACE __Vectors_Size
AREA |.text|, CODE, READONLY
; Weak function for startup customization
;
; Note. The global resources are not yet initialized (for example global variables, peripherals, clocks)
; because this function is executed as the first instruction in the ResetHandler.
; The PDL is also not initialized to use the proper register offsets.
; The user of this function is responsible for initializing the PDL and resources before using them.
;
Cy_OnResetUser PROC
EXPORT Cy_OnResetUser [WEAK]
BX LR
ENDP
; Reset Handler
Reset_Handler PROC
EXPORT Reset_Handler [WEAK]
IMPORT Cy_SystemInitFpuEnable
IMPORT __main
; Define strong function for startup customization
BL Cy_OnResetUser
; Disable global interrupts
CPSID I
; Copy vectors from ROM to RAM
LDR r1, =__Vectors
LDR r0, =__ramVectors
LDR r2, =__Vectors_Size
Vectors_Copy
LDR r3, [r1]
STR r3, [r0]
ADDS r0, r0, #4
ADDS r1, r1, #4
SUBS r2, r2, #1
CMP r2, #0
BNE Vectors_Copy
; Update Vector Table Offset Register. */
LDR r0, =__ramVectors
LDR r1, =0xE000ED08
STR r0, [r1]
dsb 0xF
; Enable the FPU if used
LDR R0, =Cy_SystemInitFpuEnable
BLX R0
LDR R0, =__main
BLX R0
; Should never get here
B .
ENDP
; Dummy Exception Handlers (infinite loops which can be modified)
NMI_Handler PROC
EXPORT NMI_Handler [WEAK]
B .
ENDP
Cy_SysLib_FaultHandler PROC
EXPORT Cy_SysLib_FaultHandler [WEAK]
B .
ENDP
HardFault_Wrapper\
PROC
EXPORT HardFault_Wrapper [WEAK]
movs r0, #4
mov r1, LR
tst r0, r1
beq L_MSP
mrs r0, PSP
bl L_API_call
L_MSP
mrs r0, MSP
L_API_call
bl Cy_SysLib_FaultHandler
ENDP
HardFault_Handler\
PROC
EXPORT HardFault_Handler [WEAK]
B HardFault_Wrapper
ENDP
MemManage_Handler\
PROC
EXPORT MemManage_Handler [WEAK]
B HardFault_Wrapper
ENDP
BusFault_Handler\
PROC
EXPORT BusFault_Handler [WEAK]
B HardFault_Wrapper
ENDP
UsageFault_Handler\
PROC
EXPORT UsageFault_Handler [WEAK]
B HardFault_Wrapper
ENDP
SVC_Handler PROC
EXPORT SVC_Handler [WEAK]
B .
ENDP
DebugMon_Handler\
PROC
EXPORT DebugMon_Handler [WEAK]
B .
ENDP
PendSV_Handler PROC
EXPORT PendSV_Handler [WEAK]
B .
ENDP
SysTick_Handler PROC
EXPORT SysTick_Handler [WEAK]
B .
ENDP
Default_Handler PROC
EXPORT Default_Handler [WEAK]
EXPORT ioss_interrupts_gpio_0_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_1_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_2_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_3_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_4_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_5_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_6_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_7_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_8_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_9_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_10_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_11_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_12_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_13_IRQHandler [WEAK]
EXPORT ioss_interrupts_gpio_14_IRQHandler [WEAK]
EXPORT ioss_interrupt_gpio_IRQHandler [WEAK]
EXPORT ioss_interrupt_vdd_IRQHandler [WEAK]
EXPORT lpcomp_interrupt_IRQHandler [WEAK]
EXPORT scb_8_interrupt_IRQHandler [WEAK]
EXPORT srss_interrupt_mcwdt_0_IRQHandler [WEAK]
EXPORT srss_interrupt_mcwdt_1_IRQHandler [WEAK]
EXPORT srss_interrupt_backup_IRQHandler [WEAK]
EXPORT srss_interrupt_IRQHandler [WEAK]
EXPORT pass_interrupt_ctbs_IRQHandler [WEAK]
EXPORT bless_interrupt_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_0_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_1_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_2_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_3_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_4_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_5_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_6_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_7_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_8_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_9_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_10_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_11_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_12_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_13_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_14_IRQHandler [WEAK]
EXPORT cpuss_interrupts_ipc_15_IRQHandler [WEAK]
EXPORT scb_0_interrupt_IRQHandler [WEAK]
EXPORT scb_1_interrupt_IRQHandler [WEAK]
EXPORT scb_2_interrupt_IRQHandler [WEAK]
EXPORT scb_3_interrupt_IRQHandler [WEAK]
EXPORT scb_4_interrupt_IRQHandler [WEAK]
EXPORT scb_5_interrupt_IRQHandler [WEAK]
EXPORT scb_6_interrupt_IRQHandler [WEAK]
EXPORT scb_7_interrupt_IRQHandler [WEAK]
EXPORT csd_interrupt_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_0_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_1_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_2_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_3_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_4_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_5_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_6_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_7_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_8_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_9_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_10_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_11_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_12_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_13_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_14_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw0_15_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_0_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_1_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_2_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_3_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_4_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_5_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_6_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_7_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_8_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_9_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_10_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_11_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_12_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_13_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_14_IRQHandler [WEAK]
EXPORT cpuss_interrupts_dw1_15_IRQHandler [WEAK]
EXPORT cpuss_interrupts_fault_0_IRQHandler [WEAK]
EXPORT cpuss_interrupts_fault_1_IRQHandler [WEAK]
EXPORT cpuss_interrupt_crypto_IRQHandler [WEAK]
EXPORT cpuss_interrupt_fm_IRQHandler [WEAK]
EXPORT cpuss_interrupts_cm0_cti_0_IRQHandler [WEAK]
EXPORT cpuss_interrupts_cm0_cti_1_IRQHandler [WEAK]
EXPORT cpuss_interrupts_cm4_cti_0_IRQHandler [WEAK]
EXPORT cpuss_interrupts_cm4_cti_1_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_0_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_1_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_2_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_3_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_4_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_5_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_6_IRQHandler [WEAK]
EXPORT tcpwm_0_interrupts_7_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_0_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_1_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_2_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_3_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_4_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_5_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_6_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_7_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_8_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_9_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_10_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_11_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_12_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_13_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_14_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_15_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_16_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_17_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_18_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_19_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_20_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_21_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_22_IRQHandler [WEAK]
EXPORT tcpwm_1_interrupts_23_IRQHandler [WEAK]
EXPORT udb_interrupts_0_IRQHandler [WEAK]
EXPORT udb_interrupts_1_IRQHandler [WEAK]
EXPORT udb_interrupts_2_IRQHandler [WEAK]
EXPORT udb_interrupts_3_IRQHandler [WEAK]
EXPORT udb_interrupts_4_IRQHandler [WEAK]
EXPORT udb_interrupts_5_IRQHandler [WEAK]
EXPORT udb_interrupts_6_IRQHandler [WEAK]
EXPORT udb_interrupts_7_IRQHandler [WEAK]
EXPORT udb_interrupts_8_IRQHandler [WEAK]
EXPORT udb_interrupts_9_IRQHandler [WEAK]
EXPORT udb_interrupts_10_IRQHandler [WEAK]
EXPORT udb_interrupts_11_IRQHandler [WEAK]
EXPORT udb_interrupts_12_IRQHandler [WEAK]
EXPORT udb_interrupts_13_IRQHandler [WEAK]
EXPORT udb_interrupts_14_IRQHandler [WEAK]
EXPORT udb_interrupts_15_IRQHandler [WEAK]
EXPORT pass_interrupt_sar_IRQHandler [WEAK]
EXPORT audioss_interrupt_i2s_IRQHandler [WEAK]
EXPORT audioss_interrupt_pdm_IRQHandler [WEAK]
EXPORT profile_interrupt_IRQHandler [WEAK]
EXPORT smif_interrupt_IRQHandler [WEAK]
EXPORT usb_interrupt_hi_IRQHandler [WEAK]
EXPORT usb_interrupt_med_IRQHandler [WEAK]
EXPORT usb_interrupt_lo_IRQHandler [WEAK]
EXPORT pass_interrupt_dacs_IRQHandler [WEAK]
ioss_interrupts_gpio_0_IRQHandler
ioss_interrupts_gpio_1_IRQHandler
ioss_interrupts_gpio_2_IRQHandler
ioss_interrupts_gpio_3_IRQHandler
ioss_interrupts_gpio_4_IRQHandler
ioss_interrupts_gpio_5_IRQHandler
ioss_interrupts_gpio_6_IRQHandler
ioss_interrupts_gpio_7_IRQHandler
ioss_interrupts_gpio_8_IRQHandler
ioss_interrupts_gpio_9_IRQHandler
ioss_interrupts_gpio_10_IRQHandler
ioss_interrupts_gpio_11_IRQHandler
ioss_interrupts_gpio_12_IRQHandler
ioss_interrupts_gpio_13_IRQHandler
ioss_interrupts_gpio_14_IRQHandler
ioss_interrupt_gpio_IRQHandler
ioss_interrupt_vdd_IRQHandler
lpcomp_interrupt_IRQHandler
scb_8_interrupt_IRQHandler
srss_interrupt_mcwdt_0_IRQHandler
srss_interrupt_mcwdt_1_IRQHandler
srss_interrupt_backup_IRQHandler
srss_interrupt_IRQHandler
pass_interrupt_ctbs_IRQHandler
bless_interrupt_IRQHandler
cpuss_interrupts_ipc_0_IRQHandler
cpuss_interrupts_ipc_1_IRQHandler
cpuss_interrupts_ipc_2_IRQHandler
cpuss_interrupts_ipc_3_IRQHandler
cpuss_interrupts_ipc_4_IRQHandler
cpuss_interrupts_ipc_5_IRQHandler
cpuss_interrupts_ipc_6_IRQHandler
cpuss_interrupts_ipc_7_IRQHandler
cpuss_interrupts_ipc_8_IRQHandler
cpuss_interrupts_ipc_9_IRQHandler
cpuss_interrupts_ipc_10_IRQHandler
cpuss_interrupts_ipc_11_IRQHandler
cpuss_interrupts_ipc_12_IRQHandler
cpuss_interrupts_ipc_13_IRQHandler
cpuss_interrupts_ipc_14_IRQHandler
cpuss_interrupts_ipc_15_IRQHandler
scb_0_interrupt_IRQHandler
scb_1_interrupt_IRQHandler
scb_2_interrupt_IRQHandler
scb_3_interrupt_IRQHandler
scb_4_interrupt_IRQHandler
scb_5_interrupt_IRQHandler
scb_6_interrupt_IRQHandler
scb_7_interrupt_IRQHandler
csd_interrupt_IRQHandler
cpuss_interrupts_dw0_0_IRQHandler
cpuss_interrupts_dw0_1_IRQHandler
cpuss_interrupts_dw0_2_IRQHandler
cpuss_interrupts_dw0_3_IRQHandler
cpuss_interrupts_dw0_4_IRQHandler
cpuss_interrupts_dw0_5_IRQHandler
cpuss_interrupts_dw0_6_IRQHandler
cpuss_interrupts_dw0_7_IRQHandler
cpuss_interrupts_dw0_8_IRQHandler
cpuss_interrupts_dw0_9_IRQHandler
cpuss_interrupts_dw0_10_IRQHandler
cpuss_interrupts_dw0_11_IRQHandler
cpuss_interrupts_dw0_12_IRQHandler
cpuss_interrupts_dw0_13_IRQHandler
cpuss_interrupts_dw0_14_IRQHandler
cpuss_interrupts_dw0_15_IRQHandler
cpuss_interrupts_dw1_0_IRQHandler
cpuss_interrupts_dw1_1_IRQHandler
cpuss_interrupts_dw1_2_IRQHandler
cpuss_interrupts_dw1_3_IRQHandler
cpuss_interrupts_dw1_4_IRQHandler
cpuss_interrupts_dw1_5_IRQHandler
cpuss_interrupts_dw1_6_IRQHandler
cpuss_interrupts_dw1_7_IRQHandler
cpuss_interrupts_dw1_8_IRQHandler
cpuss_interrupts_dw1_9_IRQHandler
cpuss_interrupts_dw1_10_IRQHandler
cpuss_interrupts_dw1_11_IRQHandler
cpuss_interrupts_dw1_12_IRQHandler
cpuss_interrupts_dw1_13_IRQHandler
cpuss_interrupts_dw1_14_IRQHandler
cpuss_interrupts_dw1_15_IRQHandler
cpuss_interrupts_fault_0_IRQHandler
cpuss_interrupts_fault_1_IRQHandler
cpuss_interrupt_crypto_IRQHandler
cpuss_interrupt_fm_IRQHandler
cpuss_interrupts_cm0_cti_0_IRQHandler
cpuss_interrupts_cm0_cti_1_IRQHandler
cpuss_interrupts_cm4_cti_0_IRQHandler
cpuss_interrupts_cm4_cti_1_IRQHandler
tcpwm_0_interrupts_0_IRQHandler
tcpwm_0_interrupts_1_IRQHandler
tcpwm_0_interrupts_2_IRQHandler
tcpwm_0_interrupts_3_IRQHandler
tcpwm_0_interrupts_4_IRQHandler
tcpwm_0_interrupts_5_IRQHandler
tcpwm_0_interrupts_6_IRQHandler
tcpwm_0_interrupts_7_IRQHandler
tcpwm_1_interrupts_0_IRQHandler
tcpwm_1_interrupts_1_IRQHandler
tcpwm_1_interrupts_2_IRQHandler
tcpwm_1_interrupts_3_IRQHandler
tcpwm_1_interrupts_4_IRQHandler
tcpwm_1_interrupts_5_IRQHandler
tcpwm_1_interrupts_6_IRQHandler
tcpwm_1_interrupts_7_IRQHandler
tcpwm_1_interrupts_8_IRQHandler
tcpwm_1_interrupts_9_IRQHandler
tcpwm_1_interrupts_10_IRQHandler
tcpwm_1_interrupts_11_IRQHandler
tcpwm_1_interrupts_12_IRQHandler
tcpwm_1_interrupts_13_IRQHandler
tcpwm_1_interrupts_14_IRQHandler
tcpwm_1_interrupts_15_IRQHandler
tcpwm_1_interrupts_16_IRQHandler
tcpwm_1_interrupts_17_IRQHandler
tcpwm_1_interrupts_18_IRQHandler
tcpwm_1_interrupts_19_IRQHandler
tcpwm_1_interrupts_20_IRQHandler
tcpwm_1_interrupts_21_IRQHandler
tcpwm_1_interrupts_22_IRQHandler
tcpwm_1_interrupts_23_IRQHandler
udb_interrupts_0_IRQHandler
udb_interrupts_1_IRQHandler
udb_interrupts_2_IRQHandler
udb_interrupts_3_IRQHandler
udb_interrupts_4_IRQHandler
udb_interrupts_5_IRQHandler
udb_interrupts_6_IRQHandler
udb_interrupts_7_IRQHandler
udb_interrupts_8_IRQHandler
udb_interrupts_9_IRQHandler
udb_interrupts_10_IRQHandler
udb_interrupts_11_IRQHandler
udb_interrupts_12_IRQHandler
udb_interrupts_13_IRQHandler
udb_interrupts_14_IRQHandler
udb_interrupts_15_IRQHandler
pass_interrupt_sar_IRQHandler
audioss_interrupt_i2s_IRQHandler
audioss_interrupt_pdm_IRQHandler
profile_interrupt_IRQHandler
smif_interrupt_IRQHandler
usb_interrupt_hi_IRQHandler
usb_interrupt_med_IRQHandler
usb_interrupt_lo_IRQHandler
pass_interrupt_dacs_IRQHandler
B .
ENDP
ALIGN
END
; [] END OF FILE

461
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/TOOLCHAIN_GCC_ARM/cy8c6xx7_cm4_dual.ld
View File

@ -1,461 +0,0 @@
/***************************************************************************//**
* \file cy8c6xx7_cm4_dual.ld
* \version 2.70
*
* Linker file for the GNU C compiler.
*
* The main purpose of the linker script is to describe how the sections in the
* input files should be mapped into the output file, and to control the memory
* layout of the output file.
*
* \note The entry point location is fixed and starts at 0x10000000. The valid
* application image should be placed there.
*
* \note The linker files included with the PDL template projects must be generic
* and handle all common use cases. Your project may not use every section
* defined in the linker files. In that case you may see warnings during the
* build process. In your project, you can simply comment out or remove the
* relevant code in the linker file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
OUTPUT_FORMAT ("elf32-littlearm", "elf32-bigarm", "elf32-littlearm")
SEARCH_DIR(.)
GROUP(-lgcc -lc -lnosys)
ENTRY(Reset_Handler)
/* The size of the Cortex-M0+ application image at the start of FLASH */
FLASH_CM0P_SIZE = 0x2000;
#if !defined(MBED_ROM_START)
#define MBED_ROM_START 0x10000000
#endif
/* MBED_APP_START is being used by the bootloader build script and
* will be calculate by the system. In case if MBED_APP_START address is
* customized by the bootloader config, the application image should not
* include CM0p prebuilt image.
*/
#if !defined(MBED_APP_START)
#define MBED_APP_START (MBED_ROM_START + FLASH_CM0P_SIZE)
#endif
#if !defined(MBED_ROM_SIZE)
#define MBED_ROM_SIZE 0x00100000
#endif
/* MBED_APP_SIZE is being used by the bootloader build script and
* will be calculate by the system.
*/
#if !defined(MBED_APP_SIZE)
#define MBED_APP_SIZE (MBED_ROM_SIZE - FLASH_CM0P_SIZE)
#endif
#if !defined(MBED_RAM_START)
#define MBED_RAM_START 0x08002000
#endif
#if !defined(MBED_RAM_SIZE)
#define MBED_RAM_SIZE 0x00045800
#endif
#if !defined(MBED_BOOT_STACK_SIZE)
#define MBED_BOOT_STACK_SIZE 0x400
#endif
/* The size of the stack section at the end of CM4 SRAM */
STACK_SIZE = MBED_BOOT_STACK_SIZE;
/* Force symbol to be entered in the output file as an undefined symbol. Doing
* this may, for example, trigger linking of additional modules from standard
* libraries. You may list several symbols for each EXTERN, and you may use
* EXTERN multiple times. This command has the same effect as the -u command-line
* option.
*/
EXTERN(Reset_Handler)
/* The MEMORY section below describes the location and size of blocks of memory in the target.
* Use this section to specify the memory regions available for allocation.
*/
MEMORY
{
/* The ram and flash regions control RAM and flash memory allocation for the CM4 core.
* You can change the memory allocation by editing the 'ram' and 'flash' regions.
* Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
* Using this memory region for other purposes will lead to unexpected behavior.
* Your changes must be aligned with the corresponding memory regions for CM0+ core in 'xx_cm0plus.ld',
* where 'xx' is the device group; for example, 'cy8c6xx7_cm0plus.ld'.
*/
ram (rwx) : ORIGIN = MBED_RAM_START, LENGTH = MBED_RAM_SIZE
cm0p_image (rx) : ORIGIN = MBED_ROM_START, LENGTH = FLASH_CM0P_SIZE
flash (rx) : ORIGIN = MBED_APP_START, LENGTH = MBED_APP_SIZE
/* This is a 32K flash region used for EEPROM emulation. This region can also be used as the general purpose flash.
* You can assign sections to this memory region for only one of the cores.
* Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
* Therefore, repurposing this memory region will prevent such middleware from operation.
*/
em_eeprom (rx) : ORIGIN = 0x14000000, LENGTH = 0x8000 /* 32 KB */
/* The following regions define device specific memory regions and must not be changed. */
sflash_user_data (rx) : ORIGIN = 0x16000800, LENGTH = 0x800 /* Supervisory flash: User data */
sflash_nar (rx) : ORIGIN = 0x16001A00, LENGTH = 0x200 /* Supervisory flash: Normal Access Restrictions (NAR) */
sflash_public_key (rx) : ORIGIN = 0x16005A00, LENGTH = 0xC00 /* Supervisory flash: Public Key */
sflash_toc_2 (rx) : ORIGIN = 0x16007C00, LENGTH = 0x200 /* Supervisory flash: Table of Content # 2 */
sflash_rtoc_2 (rx) : ORIGIN = 0x16007E00, LENGTH = 0x200 /* Supervisory flash: Table of Content # 2 Copy */
xip (rx) : ORIGIN = 0x18000000, LENGTH = 0x8000000 /* 128 MB */
efuse (r) : ORIGIN = 0x90700000, LENGTH = 0x100000 /* 1 MB */
}
/* Library configurations */
GROUP(libgcc.a libc.a libm.a libnosys.a)
/* Linker script to place sections and symbol values. Should be used together
* with other linker script that defines memory regions FLASH and RAM.
* It references following symbols, which must be defined in code:
* Reset_Handler : Entry of reset handler
*
* It defines following symbols, which code can use without definition:
* __exidx_start
* __exidx_end
* __copy_table_start__
* __copy_table_end__
* __zero_table_start__
* __zero_table_end__
* __etext
* __data_start__
* __preinit_array_start
* __preinit_array_end
* __init_array_start
* __init_array_end
* __fini_array_start
* __fini_array_end
* __data_end__
* __bss_start__
* __bss_end__
* __end__
* end
* __HeapLimit
* __StackLimit
* __StackTop
* __stack
* __Vectors_End
* __Vectors_Size
*/
SECTIONS
{
/* Cortex-M0+ application flash image area */
.cy_m0p_image ORIGIN(cm0p_image) :
{
. = ALIGN(4);
__cy_m0p_code_start = . ;
KEEP(*(.cy_m0p_image))
__cy_m0p_code_end = . ;
} > cm0p_image
/* Cortex-M4 application flash area */
.text ORIGIN(flash) :
{
. = ALIGN(4);
__Vectors = . ;
KEEP(*(.vectors))
. = ALIGN(4);
__Vectors_End = .;
__Vectors_Size = __Vectors_End - __Vectors;
__end__ = .;
. = ALIGN(4);
*(.text*)
KEEP(*(.init))
KEEP(*(.fini))
/* .ctors */
*crtbegin.o(.ctors)
*crtbegin?.o(.ctors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .ctors)
*(SORT(.ctors.*))
*(.ctors)
/* .dtors */
*crtbegin.o(.dtors)
*crtbegin?.o(.dtors)
*(EXCLUDE_FILE(*crtend?.o *crtend.o) .dtors)
*(SORT(.dtors.*))
*(.dtors)
/* Read-only code (constants). */
*(.rodata .rodata.* .constdata .constdata.* .conststring .conststring.*)
KEEP(*(.eh_frame*))
} > flash
.ARM.extab :
{
*(.ARM.extab* .gnu.linkonce.armextab.*)
} > flash
__exidx_start = .;
.ARM.exidx :
{
*(.ARM.exidx* .gnu.linkonce.armexidx.*)
} > flash
__exidx_end = .;
/* To copy multiple ROM to RAM sections,
* uncomment .copy.table section and,
* define __STARTUP_COPY_MULTIPLE in startup_psoc6_01_cm4.S */
.copy.table :
{
. = ALIGN(4);
__copy_table_start__ = .;
/* Copy interrupt vectors from flash to RAM */
LONG (__Vectors) /* From */
LONG (__ram_vectors_start__) /* To */
LONG (__Vectors_End - __Vectors) /* Size */
/* Copy data section to RAM */
LONG (__etext) /* From */
LONG (__data_start__) /* To */
LONG (__data_end__ - __data_start__) /* Size */
__copy_table_end__ = .;
} > flash
/* To clear multiple BSS sections,
* uncomment .zero.table section and,
* define __STARTUP_CLEAR_BSS_MULTIPLE in startup_psoc6_01_cm4.S */
.zero.table :
{
. = ALIGN(4);
__zero_table_start__ = .;
LONG (__bss_start__)
LONG (__bss_end__ - __bss_start__)
__zero_table_end__ = .;
} > flash
__etext = . ;
.ramVectors (NOLOAD) : ALIGN(8)
{
__ram_vectors_start__ = .;
KEEP(*(.ram_vectors))
__ram_vectors_end__ = .;
} > ram
.data __ram_vectors_end__ : AT (__etext)
{
__data_start__ = .;
*(vtable)
*(.data*)
. = ALIGN(4);
/* preinit data */
PROVIDE_HIDDEN (__preinit_array_start = .);
KEEP(*(.preinit_array))
PROVIDE_HIDDEN (__preinit_array_end = .);
. = ALIGN(4);
/* init data */
PROVIDE_HIDDEN (__init_array_start = .);
KEEP(*(SORT(.init_array.*)))
KEEP(*(.init_array))
PROVIDE_HIDDEN (__init_array_end = .);
. = ALIGN(4);
/* finit data */
PROVIDE_HIDDEN (__fini_array_start = .);
KEEP(*(SORT(.fini_array.*)))
KEEP(*(.fini_array))
PROVIDE_HIDDEN (__fini_array_end = .);
KEEP(*(.jcr*))
. = ALIGN(4);
KEEP(*(.cy_ramfunc*))
. = ALIGN(4);
__data_end__ = .;
} > ram
/* Place variables in the section that should not be initialized during the
* device startup.
*/
.noinit (NOLOAD) : ALIGN(8)
{
KEEP(*(.noinit))
} > ram
/* The uninitialized global or static variables are placed in this section.
*
* The NOLOAD attribute tells linker that .bss section does not consume
* any space in the image. The NOLOAD attribute changes the .bss type to
* NOBITS, and that makes linker to A) not allocate section in memory, and
* A) put information to clear the section with all zeros during application
* loading.
*
* Without the NOLOAD attribute, the .bss section might get PROGBITS type.
* This makes linker to A) allocate zeroed section in memory, and B) copy
* this section to RAM during application loading.
*/
.bss (NOLOAD):
{
. = ALIGN(4);
__bss_start__ = .;
*(.bss*)
*(COMMON)
. = ALIGN(4);
__bss_end__ = .;
} > ram
.heap (NOLOAD):
{
__HeapBase = .;
__end__ = .;
end = __end__;
KEEP(*(.heap*))
. = ORIGIN(ram) + LENGTH(ram) - STACK_SIZE;
__HeapLimit = .;
} > ram
/* Set stack top to end of RAM, and stack limit move down by
* size of stack_dummy section */
__StackTop = ORIGIN(ram) + LENGTH(ram);
__StackLimit = __StackTop - STACK_SIZE;
PROVIDE(__stack = __StackTop);
/* Check if data + heap + stack exceeds RAM limit */
ASSERT(__StackLimit >= __HeapLimit, "region RAM overflowed with stack")
/* Used for the digital signature of the secure application and the Bootloader SDK application.
* The size of the section depends on the required data size. */
.cy_app_signature ORIGIN(flash) + LENGTH(flash) - 256 :
{
KEEP(*(.cy_app_signature))
} > flash
/* Emulated EEPROM Flash area */
.cy_em_eeprom :
{
KEEP(*(.cy_em_eeprom))
} > em_eeprom
/* Supervisory Flash: User data */
.cy_sflash_user_data :
{
KEEP(*(.cy_sflash_user_data))
} > sflash_user_data
/* Supervisory Flash: Normal Access Restrictions (NAR) */
.cy_sflash_nar :
{
KEEP(*(.cy_sflash_nar))
} > sflash_nar
/* Supervisory Flash: Public Key */
.cy_sflash_public_key :
{
KEEP(*(.cy_sflash_public_key))
} > sflash_public_key
/* Supervisory Flash: Table of Content # 2 */
.cy_toc_part2 :
{
KEEP(*(.cy_toc_part2))
} > sflash_toc_2
/* Supervisory Flash: Table of Content # 2 Copy */
.cy_rtoc_part2 :
{
KEEP(*(.cy_rtoc_part2))
} > sflash_rtoc_2
/* Places the code in the Execute in Place (XIP) section. See the smif driver
* documentation for details.
*/
.cy_xip :
{
KEEP(*(.cy_xip))
} > xip
/* eFuse */
.cy_efuse :
{
KEEP(*(.cy_efuse))
} > efuse
/* These sections are used for additional metadata (silicon revision,
* Silicon/JTAG ID, etc.) storage.
*/
.cymeta 0x90500000 : { KEEP(*(.cymeta)) } :NONE
}
/* The following symbols used by the cymcuelftool. */
/* Flash */
__cy_memory_0_start = 0x10000000;
__cy_memory_0_length = 0x00100000;
__cy_memory_0_row_size = 0x200;
/* Emulated EEPROM Flash area */
__cy_memory_1_start = 0x14000000;
__cy_memory_1_length = 0x8000;
__cy_memory_1_row_size = 0x200;
/* Supervisory Flash */
__cy_memory_2_start = 0x16000000;
__cy_memory_2_length = 0x8000;
__cy_memory_2_row_size = 0x200;
/* XIP */
__cy_memory_3_start = 0x18000000;
__cy_memory_3_length = 0x08000000;
__cy_memory_3_row_size = 0x200;
/* eFuse */
__cy_memory_4_start = 0x90700000;
__cy_memory_4_length = 0x100000;
__cy_memory_4_row_size = 1;
/* EOF */

631
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/TOOLCHAIN_GCC_ARM/startup_psoc6_01_cm4.S
View File

@ -1,631 +0,0 @@
/**************************************************************************//**
* @file startup_psoc6_01_cm4.S
* @brief CMSIS Core Device Startup File for
* ARMCM4 Device Series
* @version V5.00
* @date 02. March 2016
******************************************************************************/
/*
* Copyright (c) 2009-2016 ARM Limited. All rights reserved.
*
* SPDX-License-Identifier: Apache-2.0
*
* 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
*
* 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.
*/
/* Address of the NMI handler */
#define CY_NMI_HANLDER_ADDR 0x0000000D
/* The CPU VTOR register */
#define CY_CPU_VTOR_ADDR 0xE000ED08
/* Copy flash vectors and data section to RAM */
#define __STARTUP_COPY_MULTIPLE
/* Clear single BSS section */
#define __STARTUP_CLEAR_BSS
.syntax unified
.arch armv7-m
.section .stack
.align 3
#ifdef __STACK_SIZE
.equ Stack_Size, __STACK_SIZE
#else
.equ Stack_Size, 0x00001000
#endif
.globl __StackTop
.globl __StackLimit
__StackLimit:
.space Stack_Size
.size __StackLimit, . - __StackLimit
__StackTop:
.size __StackTop, . - __StackTop
.section .heap
.align 3
#ifdef __HEAP_SIZE
.equ Heap_Size, __HEAP_SIZE
#else
.equ Heap_Size, 0x00000400
#endif
.globl __HeapBase
.globl __HeapLimit
__HeapBase:
.if Heap_Size
.space Heap_Size
.endif
.size __HeapBase, . - __HeapBase
__HeapLimit:
.size __HeapLimit, . - __HeapLimit
.section .vectors
.align 2
.globl __Vectors
__Vectors:
.long __StackTop /* Top of Stack */
.long Reset_Handler /* Reset Handler */
.long CY_NMI_HANLDER_ADDR /* NMI Handler */
.long HardFault_Handler /* Hard Fault Handler */
.long MemManage_Handler /* MPU Fault Handler */
.long BusFault_Handler /* Bus Fault Handler */
.long UsageFault_Handler /* Usage Fault Handler */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long 0 /* Reserved */
.long SVC_Handler /* SVCall Handler */
.long DebugMon_Handler /* Debug Monitor Handler */
.long 0 /* Reserved */
.long PendSV_Handler /* PendSV Handler */
.long SysTick_Handler /* SysTick Handler */
/* External interrupts Description */
.long ioss_interrupts_gpio_0_IRQHandler /* GPIO Port Interrupt #0 */
.long ioss_interrupts_gpio_1_IRQHandler /* GPIO Port Interrupt #1 */
.long ioss_interrupts_gpio_2_IRQHandler /* GPIO Port Interrupt #2 */
.long ioss_interrupts_gpio_3_IRQHandler /* GPIO Port Interrupt #3 */
.long ioss_interrupts_gpio_4_IRQHandler /* GPIO Port Interrupt #4 */
.long ioss_interrupts_gpio_5_IRQHandler /* GPIO Port Interrupt #5 */
.long ioss_interrupts_gpio_6_IRQHandler /* GPIO Port Interrupt #6 */
.long ioss_interrupts_gpio_7_IRQHandler /* GPIO Port Interrupt #7 */
.long ioss_interrupts_gpio_8_IRQHandler /* GPIO Port Interrupt #8 */
.long ioss_interrupts_gpio_9_IRQHandler /* GPIO Port Interrupt #9 */
.long ioss_interrupts_gpio_10_IRQHandler /* GPIO Port Interrupt #10 */
.long ioss_interrupts_gpio_11_IRQHandler /* GPIO Port Interrupt #11 */
.long ioss_interrupts_gpio_12_IRQHandler /* GPIO Port Interrupt #12 */
.long ioss_interrupts_gpio_13_IRQHandler /* GPIO Port Interrupt #13 */
.long ioss_interrupts_gpio_14_IRQHandler /* GPIO Port Interrupt #14 */
.long ioss_interrupt_gpio_IRQHandler /* GPIO All Ports */
.long ioss_interrupt_vdd_IRQHandler /* GPIO Supply Detect Interrupt */
.long lpcomp_interrupt_IRQHandler /* Low Power Comparator Interrupt */
.long scb_8_interrupt_IRQHandler /* Serial Communication Block #8 (DeepSleep capable) */
.long srss_interrupt_mcwdt_0_IRQHandler /* Multi Counter Watchdog Timer interrupt */
.long srss_interrupt_mcwdt_1_IRQHandler /* Multi Counter Watchdog Timer interrupt */
.long srss_interrupt_backup_IRQHandler /* Backup domain interrupt */
.long srss_interrupt_IRQHandler /* Other combined Interrupts for SRSS (LVD, WDT, CLKCAL) */
.long pass_interrupt_ctbs_IRQHandler /* CTBm Interrupt (all CTBms) */
.long bless_interrupt_IRQHandler /* Bluetooth Radio interrupt */
.long cpuss_interrupts_ipc_0_IRQHandler /* CPUSS Inter Process Communication Interrupt #0 */
.long cpuss_interrupts_ipc_1_IRQHandler /* CPUSS Inter Process Communication Interrupt #1 */
.long cpuss_interrupts_ipc_2_IRQHandler /* CPUSS Inter Process Communication Interrupt #2 */
.long cpuss_interrupts_ipc_3_IRQHandler /* CPUSS Inter Process Communication Interrupt #3 */
.long cpuss_interrupts_ipc_4_IRQHandler /* CPUSS Inter Process Communication Interrupt #4 */
.long cpuss_interrupts_ipc_5_IRQHandler /* CPUSS Inter Process Communication Interrupt #5 */
.long cpuss_interrupts_ipc_6_IRQHandler /* CPUSS Inter Process Communication Interrupt #6 */
.long cpuss_interrupts_ipc_7_IRQHandler /* CPUSS Inter Process Communication Interrupt #7 */
.long cpuss_interrupts_ipc_8_IRQHandler /* CPUSS Inter Process Communication Interrupt #8 */
.long cpuss_interrupts_ipc_9_IRQHandler /* CPUSS Inter Process Communication Interrupt #9 */
.long cpuss_interrupts_ipc_10_IRQHandler /* CPUSS Inter Process Communication Interrupt #10 */
.long cpuss_interrupts_ipc_11_IRQHandler /* CPUSS Inter Process Communication Interrupt #11 */
.long cpuss_interrupts_ipc_12_IRQHandler /* CPUSS Inter Process Communication Interrupt #12 */
.long cpuss_interrupts_ipc_13_IRQHandler /* CPUSS Inter Process Communication Interrupt #13 */
.long cpuss_interrupts_ipc_14_IRQHandler /* CPUSS Inter Process Communication Interrupt #14 */
.long cpuss_interrupts_ipc_15_IRQHandler /* CPUSS Inter Process Communication Interrupt #15 */
.long scb_0_interrupt_IRQHandler /* Serial Communication Block #0 */
.long scb_1_interrupt_IRQHandler /* Serial Communication Block #1 */
.long scb_2_interrupt_IRQHandler /* Serial Communication Block #2 */
.long scb_3_interrupt_IRQHandler /* Serial Communication Block #3 */
.long scb_4_interrupt_IRQHandler /* Serial Communication Block #4 */
.long scb_5_interrupt_IRQHandler /* Serial Communication Block #5 */
.long scb_6_interrupt_IRQHandler /* Serial Communication Block #6 */
.long scb_7_interrupt_IRQHandler /* Serial Communication Block #7 */
.long csd_interrupt_IRQHandler /* CSD (Capsense) interrupt */
.long cpuss_interrupts_dw0_0_IRQHandler /* CPUSS DataWire #0, Channel #0 */
.long cpuss_interrupts_dw0_1_IRQHandler /* CPUSS DataWire #0, Channel #1 */
.long cpuss_interrupts_dw0_2_IRQHandler /* CPUSS DataWire #0, Channel #2 */
.long cpuss_interrupts_dw0_3_IRQHandler /* CPUSS DataWire #0, Channel #3 */
.long cpuss_interrupts_dw0_4_IRQHandler /* CPUSS DataWire #0, Channel #4 */
.long cpuss_interrupts_dw0_5_IRQHandler /* CPUSS DataWire #0, Channel #5 */
.long cpuss_interrupts_dw0_6_IRQHandler /* CPUSS DataWire #0, Channel #6 */
.long cpuss_interrupts_dw0_7_IRQHandler /* CPUSS DataWire #0, Channel #7 */
.long cpuss_interrupts_dw0_8_IRQHandler /* CPUSS DataWire #0, Channel #8 */
.long cpuss_interrupts_dw0_9_IRQHandler /* CPUSS DataWire #0, Channel #9 */
.long cpuss_interrupts_dw0_10_IRQHandler /* CPUSS DataWire #0, Channel #10 */
.long cpuss_interrupts_dw0_11_IRQHandler /* CPUSS DataWire #0, Channel #11 */
.long cpuss_interrupts_dw0_12_IRQHandler /* CPUSS DataWire #0, Channel #12 */
.long cpuss_interrupts_dw0_13_IRQHandler /* CPUSS DataWire #0, Channel #13 */
.long cpuss_interrupts_dw0_14_IRQHandler /* CPUSS DataWire #0, Channel #14 */
.long cpuss_interrupts_dw0_15_IRQHandler /* CPUSS DataWire #0, Channel #15 */
.long cpuss_interrupts_dw1_0_IRQHandler /* CPUSS DataWire #1, Channel #0 */
.long cpuss_interrupts_dw1_1_IRQHandler /* CPUSS DataWire #1, Channel #1 */
.long cpuss_interrupts_dw1_2_IRQHandler /* CPUSS DataWire #1, Channel #2 */
.long cpuss_interrupts_dw1_3_IRQHandler /* CPUSS DataWire #1, Channel #3 */
.long cpuss_interrupts_dw1_4_IRQHandler /* CPUSS DataWire #1, Channel #4 */
.long cpuss_interrupts_dw1_5_IRQHandler /* CPUSS DataWire #1, Channel #5 */
.long cpuss_interrupts_dw1_6_IRQHandler /* CPUSS DataWire #1, Channel #6 */
.long cpuss_interrupts_dw1_7_IRQHandler /* CPUSS DataWire #1, Channel #7 */
.long cpuss_interrupts_dw1_8_IRQHandler /* CPUSS DataWire #1, Channel #8 */
.long cpuss_interrupts_dw1_9_IRQHandler /* CPUSS DataWire #1, Channel #9 */
.long cpuss_interrupts_dw1_10_IRQHandler /* CPUSS DataWire #1, Channel #10 */
.long cpuss_interrupts_dw1_11_IRQHandler /* CPUSS DataWire #1, Channel #11 */
.long cpuss_interrupts_dw1_12_IRQHandler /* CPUSS DataWire #1, Channel #12 */
.long cpuss_interrupts_dw1_13_IRQHandler /* CPUSS DataWire #1, Channel #13 */
.long cpuss_interrupts_dw1_14_IRQHandler /* CPUSS DataWire #1, Channel #14 */
.long cpuss_interrupts_dw1_15_IRQHandler /* CPUSS DataWire #1, Channel #15 */
.long cpuss_interrupts_fault_0_IRQHandler /* CPUSS Fault Structure Interrupt #0 */
.long cpuss_interrupts_fault_1_IRQHandler /* CPUSS Fault Structure Interrupt #1 */
.long cpuss_interrupt_crypto_IRQHandler /* CRYPTO Accelerator Interrupt */
.long cpuss_interrupt_fm_IRQHandler /* FLASH Macro Interrupt */
.long cpuss_interrupts_cm0_cti_0_IRQHandler /* CM0+ CTI #0 */
.long cpuss_interrupts_cm0_cti_1_IRQHandler /* CM0+ CTI #1 */
.long cpuss_interrupts_cm4_cti_0_IRQHandler /* CM4 CTI #0 */
.long cpuss_interrupts_cm4_cti_1_IRQHandler /* CM4 CTI #1 */
.long tcpwm_0_interrupts_0_IRQHandler /* TCPWM #0, Counter #0 */
.long tcpwm_0_interrupts_1_IRQHandler /* TCPWM #0, Counter #1 */
.long tcpwm_0_interrupts_2_IRQHandler /* TCPWM #0, Counter #2 */
.long tcpwm_0_interrupts_3_IRQHandler /* TCPWM #0, Counter #3 */
.long tcpwm_0_interrupts_4_IRQHandler /* TCPWM #0, Counter #4 */
.long tcpwm_0_interrupts_5_IRQHandler /* TCPWM #0, Counter #5 */
.long tcpwm_0_interrupts_6_IRQHandler /* TCPWM #0, Counter #6 */
.long tcpwm_0_interrupts_7_IRQHandler /* TCPWM #0, Counter #7 */
.long tcpwm_1_interrupts_0_IRQHandler /* TCPWM #1, Counter #0 */
.long tcpwm_1_interrupts_1_IRQHandler /* TCPWM #1, Counter #1 */
.long tcpwm_1_interrupts_2_IRQHandler /* TCPWM #1, Counter #2 */
.long tcpwm_1_interrupts_3_IRQHandler /* TCPWM #1, Counter #3 */
.long tcpwm_1_interrupts_4_IRQHandler /* TCPWM #1, Counter #4 */
.long tcpwm_1_interrupts_5_IRQHandler /* TCPWM #1, Counter #5 */
.long tcpwm_1_interrupts_6_IRQHandler /* TCPWM #1, Counter #6 */
.long tcpwm_1_interrupts_7_IRQHandler /* TCPWM #1, Counter #7 */
.long tcpwm_1_interrupts_8_IRQHandler /* TCPWM #1, Counter #8 */
.long tcpwm_1_interrupts_9_IRQHandler /* TCPWM #1, Counter #9 */
.long tcpwm_1_interrupts_10_IRQHandler /* TCPWM #1, Counter #10 */
.long tcpwm_1_interrupts_11_IRQHandler /* TCPWM #1, Counter #11 */
.long tcpwm_1_interrupts_12_IRQHandler /* TCPWM #1, Counter #12 */
.long tcpwm_1_interrupts_13_IRQHandler /* TCPWM #1, Counter #13 */
.long tcpwm_1_interrupts_14_IRQHandler /* TCPWM #1, Counter #14 */
.long tcpwm_1_interrupts_15_IRQHandler /* TCPWM #1, Counter #15 */
.long tcpwm_1_interrupts_16_IRQHandler /* TCPWM #1, Counter #16 */
.long tcpwm_1_interrupts_17_IRQHandler /* TCPWM #1, Counter #17 */
.long tcpwm_1_interrupts_18_IRQHandler /* TCPWM #1, Counter #18 */
.long tcpwm_1_interrupts_19_IRQHandler /* TCPWM #1, Counter #19 */
.long tcpwm_1_interrupts_20_IRQHandler /* TCPWM #1, Counter #20 */
.long tcpwm_1_interrupts_21_IRQHandler /* TCPWM #1, Counter #21 */
.long tcpwm_1_interrupts_22_IRQHandler /* TCPWM #1, Counter #22 */
.long tcpwm_1_interrupts_23_IRQHandler /* TCPWM #1, Counter #23 */
.long udb_interrupts_0_IRQHandler /* UDB Interrupt #0 */
.long udb_interrupts_1_IRQHandler /* UDB Interrupt #1 */
.long udb_interrupts_2_IRQHandler /* UDB Interrupt #2 */
.long udb_interrupts_3_IRQHandler /* UDB Interrupt #3 */
.long udb_interrupts_4_IRQHandler /* UDB Interrupt #4 */
.long udb_interrupts_5_IRQHandler /* UDB Interrupt #5 */
.long udb_interrupts_6_IRQHandler /* UDB Interrupt #6 */
.long udb_interrupts_7_IRQHandler /* UDB Interrupt #7 */
.long udb_interrupts_8_IRQHandler /* UDB Interrupt #8 */
.long udb_interrupts_9_IRQHandler /* UDB Interrupt #9 */
.long udb_interrupts_10_IRQHandler /* UDB Interrupt #10 */
.long udb_interrupts_11_IRQHandler /* UDB Interrupt #11 */
.long udb_interrupts_12_IRQHandler /* UDB Interrupt #12 */
.long udb_interrupts_13_IRQHandler /* UDB Interrupt #13 */
.long udb_interrupts_14_IRQHandler /* UDB Interrupt #14 */
.long udb_interrupts_15_IRQHandler /* UDB Interrupt #15 */
.long pass_interrupt_sar_IRQHandler /* SAR ADC interrupt */
.long audioss_interrupt_i2s_IRQHandler /* I2S Audio interrupt */
.long audioss_interrupt_pdm_IRQHandler /* PDM/PCM Audio interrupt */
.long profile_interrupt_IRQHandler /* Energy Profiler interrupt */
.long smif_interrupt_IRQHandler /* Serial Memory Interface interrupt */
.long usb_interrupt_hi_IRQHandler /* USB Interrupt */
.long usb_interrupt_med_IRQHandler /* USB Interrupt */
.long usb_interrupt_lo_IRQHandler /* USB Interrupt */
.long pass_interrupt_dacs_IRQHandler /* Consolidated interrrupt for all DACs */
.size __Vectors, . - __Vectors
.equ __VectorsSize, . - __Vectors
.section .ram_vectors
.align 2
.globl __ramVectors
__ramVectors:
.space __VectorsSize
.size __ramVectors, . - __ramVectors
.text
.thumb
.thumb_func
.align 2
/*
* Device startup customization
*
* Note. The global resources are not yet initialized (for example global variables, peripherals, clocks)
* because this function is executed as the first instruction in the ResetHandler.
* The PDL is also not initialized to use the proper register offsets.
* The user of this function is responsible for initializing the PDL and resources before using them.
*/
.weak Cy_OnResetUser
.func Cy_OnResetUser, Cy_OnResetUser
.type Cy_OnResetUser, %function
Cy_OnResetUser:
bx lr
.size Cy_OnResetUser, . - Cy_OnResetUser
.endfunc
/* Reset handler */
.weak Reset_Handler
.type Reset_Handler, %function
Reset_Handler:
bl Cy_OnResetUser
cpsid i
/* Firstly it copies data from read only memory to RAM. There are two schemes
* to copy. One can copy more than one sections. Another can only copy
* one section. The former scheme needs more instructions and read-only
* data to implement than the latter.
* Macro __STARTUP_COPY_MULTIPLE is used to choose between two schemes. */
#ifdef __STARTUP_COPY_MULTIPLE
/* Multiple sections scheme.
*
* Between symbol address __copy_table_start__ and __copy_table_end__,
* there are array of triplets, each of which specify:
* offset 0: LMA of start of a section to copy from
* offset 4: VMA of start of a section to copy to
* offset 8: size of the section to copy. Must be multiply of 4
*
* All addresses must be aligned to 4 bytes boundary.
*/
ldr r4, =__copy_table_start__
ldr r5, =__copy_table_end__
.L_loop0:
cmp r4, r5
bge .L_loop0_done
ldr r1, [r4]
ldr r2, [r4, #4]
ldr r3, [r4, #8]
.L_loop0_0:
subs r3, #4
ittt ge
ldrge r0, [r1, r3]
strge r0, [r2, r3]
bge .L_loop0_0
adds r4, #12
b .L_loop0
.L_loop0_done:
#else
/* Single section scheme.
*
* The ranges of copy from/to are specified by following symbols
* __etext: LMA of start of the section to copy from. Usually end of text
* __data_start__: VMA of start of the section to copy to
* __data_end__: VMA of end of the section to copy to
*
* All addresses must be aligned to 4 bytes boundary.
*/
ldr r1, =__etext
ldr r2, =__data_start__
ldr r3, =__data_end__
.L_loop1:
cmp r2, r3
ittt lt
ldrlt r0, [r1], #4
strlt r0, [r2], #4
blt .L_loop1
#endif /*__STARTUP_COPY_MULTIPLE */
/* This part of work usually is done in C library startup code. Otherwise,
* define this macro to enable it in this startup.
*
* There are two schemes too. One can clear multiple BSS sections. Another
* can only clear one section. The former is more size expensive than the
* latter.
*
* Define macro __STARTUP_CLEAR_BSS_MULTIPLE to choose the former.
* Otherwise define macro __STARTUP_CLEAR_BSS to choose the later.
*/
#ifdef __STARTUP_CLEAR_BSS_MULTIPLE
/* Multiple sections scheme.
*
* Between symbol address __copy_table_start__ and __copy_table_end__,
* there are array of tuples specifying:
* offset 0: Start of a BSS section
* offset 4: Size of this BSS section. Must be multiply of 4
*/
ldr r3, =__zero_table_start__
ldr r4, =__zero_table_end__
.L_loop2:
cmp r3, r4
bge .L_loop2_done
ldr r1, [r3]
ldr r2, [r3, #4]
movs r0, 0
.L_loop2_0:
subs r2, #4
itt ge
strge r0, [r1, r2]
bge .L_loop2_0
adds r3, #8
b .L_loop2
.L_loop2_done:
#elif defined (__STARTUP_CLEAR_BSS)
/* Single BSS section scheme.
*
* The BSS section is specified by following symbols
* __bss_start__: start of the BSS section.
* __bss_end__: end of the BSS section.
*
* Both addresses must be aligned to 4 bytes boundary.
*/
ldr r1, =__bss_start__
ldr r2, =__bss_end__
movs r0, 0
.L_loop3:
cmp r1, r2
itt lt
strlt r0, [r1], #4
blt .L_loop3
#endif /* __STARTUP_CLEAR_BSS_MULTIPLE || __STARTUP_CLEAR_BSS */
/* Update Vector Table Offset Register. */
ldr r0, =__ramVectors
ldr r1, =CY_CPU_VTOR_ADDR
str r0, [r1]
dsb 0xF
/* Enable the FPU if used */
bl Cy_SystemInitFpuEnable
bl _start
/* Should never get here */
b .
.pool
.size Reset_Handler, . - Reset_Handler
.align 1
.thumb_func
.weak Default_Handler
.type Default_Handler, %function
Default_Handler:
b .
.size Default_Handler, . - Default_Handler
.weak Cy_SysLib_FaultHandler
.type Cy_SysLib_FaultHandler, %function
Cy_SysLib_FaultHandler:
b .
.size Cy_SysLib_FaultHandler, . - Cy_SysLib_FaultHandler
.type Fault_Handler, %function
Fault_Handler:
/* Storing LR content for Creator call stack trace */
push {LR}
movs r0, #4
mov r1, LR
tst r0, r1
beq .L_MSP
mrs r0, PSP
b .L_API_call
.L_MSP:
mrs r0, MSP
.L_API_call:
/* Compensation of stack pointer address due to pushing 4 bytes of LR */
adds r0, r0, #4
bl Cy_SysLib_FaultHandler
b .
.size Fault_Handler, . - Fault_Handler
.macro def_fault_Handler fault_handler_name
.weak \fault_handler_name
.set \fault_handler_name, Fault_Handler
.endm
/* Macro to define default handlers. Default handler
* will be weak symbol and just dead loops. They can be
* overwritten by other handlers */
.macro def_irq_handler handler_name
.weak \handler_name
.set \handler_name, Default_Handler
.endm
def_irq_handler NMI_Handler
def_fault_Handler HardFault_Handler
def_fault_Handler MemManage_Handler
def_fault_Handler BusFault_Handler
def_fault_Handler UsageFault_Handler
def_irq_handler SVC_Handler
def_irq_handler DebugMon_Handler
def_irq_handler PendSV_Handler
def_irq_handler SysTick_Handler
def_irq_handler ioss_interrupts_gpio_0_IRQHandler /* GPIO Port Interrupt #0 */
def_irq_handler ioss_interrupts_gpio_1_IRQHandler /* GPIO Port Interrupt #1 */
def_irq_handler ioss_interrupts_gpio_2_IRQHandler /* GPIO Port Interrupt #2 */
def_irq_handler ioss_interrupts_gpio_3_IRQHandler /* GPIO Port Interrupt #3 */
def_irq_handler ioss_interrupts_gpio_4_IRQHandler /* GPIO Port Interrupt #4 */
def_irq_handler ioss_interrupts_gpio_5_IRQHandler /* GPIO Port Interrupt #5 */
def_irq_handler ioss_interrupts_gpio_6_IRQHandler /* GPIO Port Interrupt #6 */
def_irq_handler ioss_interrupts_gpio_7_IRQHandler /* GPIO Port Interrupt #7 */
def_irq_handler ioss_interrupts_gpio_8_IRQHandler /* GPIO Port Interrupt #8 */
def_irq_handler ioss_interrupts_gpio_9_IRQHandler /* GPIO Port Interrupt #9 */
def_irq_handler ioss_interrupts_gpio_10_IRQHandler /* GPIO Port Interrupt #10 */
def_irq_handler ioss_interrupts_gpio_11_IRQHandler /* GPIO Port Interrupt #11 */
def_irq_handler ioss_interrupts_gpio_12_IRQHandler /* GPIO Port Interrupt #12 */
def_irq_handler ioss_interrupts_gpio_13_IRQHandler /* GPIO Port Interrupt #13 */
def_irq_handler ioss_interrupts_gpio_14_IRQHandler /* GPIO Port Interrupt #14 */
def_irq_handler ioss_interrupt_gpio_IRQHandler /* GPIO All Ports */
def_irq_handler ioss_interrupt_vdd_IRQHandler /* GPIO Supply Detect Interrupt */
def_irq_handler lpcomp_interrupt_IRQHandler /* Low Power Comparator Interrupt */
def_irq_handler scb_8_interrupt_IRQHandler /* Serial Communication Block #8 (DeepSleep capable) */
def_irq_handler srss_interrupt_mcwdt_0_IRQHandler /* Multi Counter Watchdog Timer interrupt */
def_irq_handler srss_interrupt_mcwdt_1_IRQHandler /* Multi Counter Watchdog Timer interrupt */
def_irq_handler srss_interrupt_backup_IRQHandler /* Backup domain interrupt */
def_irq_handler srss_interrupt_IRQHandler /* Other combined Interrupts for SRSS (LVD, WDT, CLKCAL) */
def_irq_handler pass_interrupt_ctbs_IRQHandler /* CTBm Interrupt (all CTBms) */
def_irq_handler bless_interrupt_IRQHandler /* Bluetooth Radio interrupt */
def_irq_handler cpuss_interrupts_ipc_0_IRQHandler /* CPUSS Inter Process Communication Interrupt #0 */
def_irq_handler cpuss_interrupts_ipc_1_IRQHandler /* CPUSS Inter Process Communication Interrupt #1 */
def_irq_handler cpuss_interrupts_ipc_2_IRQHandler /* CPUSS Inter Process Communication Interrupt #2 */
def_irq_handler cpuss_interrupts_ipc_3_IRQHandler /* CPUSS Inter Process Communication Interrupt #3 */
def_irq_handler cpuss_interrupts_ipc_4_IRQHandler /* CPUSS Inter Process Communication Interrupt #4 */
def_irq_handler cpuss_interrupts_ipc_5_IRQHandler /* CPUSS Inter Process Communication Interrupt #5 */
def_irq_handler cpuss_interrupts_ipc_6_IRQHandler /* CPUSS Inter Process Communication Interrupt #6 */
def_irq_handler cpuss_interrupts_ipc_7_IRQHandler /* CPUSS Inter Process Communication Interrupt #7 */
def_irq_handler cpuss_interrupts_ipc_8_IRQHandler /* CPUSS Inter Process Communication Interrupt #8 */
def_irq_handler cpuss_interrupts_ipc_9_IRQHandler /* CPUSS Inter Process Communication Interrupt #9 */
def_irq_handler cpuss_interrupts_ipc_10_IRQHandler /* CPUSS Inter Process Communication Interrupt #10 */
def_irq_handler cpuss_interrupts_ipc_11_IRQHandler /* CPUSS Inter Process Communication Interrupt #11 */
def_irq_handler cpuss_interrupts_ipc_12_IRQHandler /* CPUSS Inter Process Communication Interrupt #12 */
def_irq_handler cpuss_interrupts_ipc_13_IRQHandler /* CPUSS Inter Process Communication Interrupt #13 */
def_irq_handler cpuss_interrupts_ipc_14_IRQHandler /* CPUSS Inter Process Communication Interrupt #14 */
def_irq_handler cpuss_interrupts_ipc_15_IRQHandler /* CPUSS Inter Process Communication Interrupt #15 */
def_irq_handler scb_0_interrupt_IRQHandler /* Serial Communication Block #0 */
def_irq_handler scb_1_interrupt_IRQHandler /* Serial Communication Block #1 */
def_irq_handler scb_2_interrupt_IRQHandler /* Serial Communication Block #2 */
def_irq_handler scb_3_interrupt_IRQHandler /* Serial Communication Block #3 */
def_irq_handler scb_4_interrupt_IRQHandler /* Serial Communication Block #4 */
def_irq_handler scb_5_interrupt_IRQHandler /* Serial Communication Block #5 */
def_irq_handler scb_6_interrupt_IRQHandler /* Serial Communication Block #6 */
def_irq_handler scb_7_interrupt_IRQHandler /* Serial Communication Block #7 */
def_irq_handler csd_interrupt_IRQHandler /* CSD (Capsense) interrupt */
def_irq_handler cpuss_interrupts_dw0_0_IRQHandler /* CPUSS DataWire #0, Channel #0 */
def_irq_handler cpuss_interrupts_dw0_1_IRQHandler /* CPUSS DataWire #0, Channel #1 */
def_irq_handler cpuss_interrupts_dw0_2_IRQHandler /* CPUSS DataWire #0, Channel #2 */
def_irq_handler cpuss_interrupts_dw0_3_IRQHandler /* CPUSS DataWire #0, Channel #3 */
def_irq_handler cpuss_interrupts_dw0_4_IRQHandler /* CPUSS DataWire #0, Channel #4 */
def_irq_handler cpuss_interrupts_dw0_5_IRQHandler /* CPUSS DataWire #0, Channel #5 */
def_irq_handler cpuss_interrupts_dw0_6_IRQHandler /* CPUSS DataWire #0, Channel #6 */
def_irq_handler cpuss_interrupts_dw0_7_IRQHandler /* CPUSS DataWire #0, Channel #7 */
def_irq_handler cpuss_interrupts_dw0_8_IRQHandler /* CPUSS DataWire #0, Channel #8 */
def_irq_handler cpuss_interrupts_dw0_9_IRQHandler /* CPUSS DataWire #0, Channel #9 */
def_irq_handler cpuss_interrupts_dw0_10_IRQHandler /* CPUSS DataWire #0, Channel #10 */
def_irq_handler cpuss_interrupts_dw0_11_IRQHandler /* CPUSS DataWire #0, Channel #11 */
def_irq_handler cpuss_interrupts_dw0_12_IRQHandler /* CPUSS DataWire #0, Channel #12 */
def_irq_handler cpuss_interrupts_dw0_13_IRQHandler /* CPUSS DataWire #0, Channel #13 */
def_irq_handler cpuss_interrupts_dw0_14_IRQHandler /* CPUSS DataWire #0, Channel #14 */
def_irq_handler cpuss_interrupts_dw0_15_IRQHandler /* CPUSS DataWire #0, Channel #15 */
def_irq_handler cpuss_interrupts_dw1_0_IRQHandler /* CPUSS DataWire #1, Channel #0 */
def_irq_handler cpuss_interrupts_dw1_1_IRQHandler /* CPUSS DataWire #1, Channel #1 */
def_irq_handler cpuss_interrupts_dw1_2_IRQHandler /* CPUSS DataWire #1, Channel #2 */
def_irq_handler cpuss_interrupts_dw1_3_IRQHandler /* CPUSS DataWire #1, Channel #3 */
def_irq_handler cpuss_interrupts_dw1_4_IRQHandler /* CPUSS DataWire #1, Channel #4 */
def_irq_handler cpuss_interrupts_dw1_5_IRQHandler /* CPUSS DataWire #1, Channel #5 */
def_irq_handler cpuss_interrupts_dw1_6_IRQHandler /* CPUSS DataWire #1, Channel #6 */
def_irq_handler cpuss_interrupts_dw1_7_IRQHandler /* CPUSS DataWire #1, Channel #7 */
def_irq_handler cpuss_interrupts_dw1_8_IRQHandler /* CPUSS DataWire #1, Channel #8 */
def_irq_handler cpuss_interrupts_dw1_9_IRQHandler /* CPUSS DataWire #1, Channel #9 */
def_irq_handler cpuss_interrupts_dw1_10_IRQHandler /* CPUSS DataWire #1, Channel #10 */
def_irq_handler cpuss_interrupts_dw1_11_IRQHandler /* CPUSS DataWire #1, Channel #11 */
def_irq_handler cpuss_interrupts_dw1_12_IRQHandler /* CPUSS DataWire #1, Channel #12 */
def_irq_handler cpuss_interrupts_dw1_13_IRQHandler /* CPUSS DataWire #1, Channel #13 */
def_irq_handler cpuss_interrupts_dw1_14_IRQHandler /* CPUSS DataWire #1, Channel #14 */
def_irq_handler cpuss_interrupts_dw1_15_IRQHandler /* CPUSS DataWire #1, Channel #15 */
def_irq_handler cpuss_interrupts_fault_0_IRQHandler /* CPUSS Fault Structure Interrupt #0 */
def_irq_handler cpuss_interrupts_fault_1_IRQHandler /* CPUSS Fault Structure Interrupt #1 */
def_irq_handler cpuss_interrupt_crypto_IRQHandler /* CRYPTO Accelerator Interrupt */
def_irq_handler cpuss_interrupt_fm_IRQHandler /* FLASH Macro Interrupt */
def_irq_handler cpuss_interrupts_cm0_cti_0_IRQHandler /* CM0+ CTI #0 */
def_irq_handler cpuss_interrupts_cm0_cti_1_IRQHandler /* CM0+ CTI #1 */
def_irq_handler cpuss_interrupts_cm4_cti_0_IRQHandler /* CM4 CTI #0 */
def_irq_handler cpuss_interrupts_cm4_cti_1_IRQHandler /* CM4 CTI #1 */
def_irq_handler tcpwm_0_interrupts_0_IRQHandler /* TCPWM #0, Counter #0 */
def_irq_handler tcpwm_0_interrupts_1_IRQHandler /* TCPWM #0, Counter #1 */
def_irq_handler tcpwm_0_interrupts_2_IRQHandler /* TCPWM #0, Counter #2 */
def_irq_handler tcpwm_0_interrupts_3_IRQHandler /* TCPWM #0, Counter #3 */
def_irq_handler tcpwm_0_interrupts_4_IRQHandler /* TCPWM #0, Counter #4 */
def_irq_handler tcpwm_0_interrupts_5_IRQHandler /* TCPWM #0, Counter #5 */
def_irq_handler tcpwm_0_interrupts_6_IRQHandler /* TCPWM #0, Counter #6 */
def_irq_handler tcpwm_0_interrupts_7_IRQHandler /* TCPWM #0, Counter #7 */
def_irq_handler tcpwm_1_interrupts_0_IRQHandler /* TCPWM #1, Counter #0 */
def_irq_handler tcpwm_1_interrupts_1_IRQHandler /* TCPWM #1, Counter #1 */
def_irq_handler tcpwm_1_interrupts_2_IRQHandler /* TCPWM #1, Counter #2 */
def_irq_handler tcpwm_1_interrupts_3_IRQHandler /* TCPWM #1, Counter #3 */
def_irq_handler tcpwm_1_interrupts_4_IRQHandler /* TCPWM #1, Counter #4 */
def_irq_handler tcpwm_1_interrupts_5_IRQHandler /* TCPWM #1, Counter #5 */
def_irq_handler tcpwm_1_interrupts_6_IRQHandler /* TCPWM #1, Counter #6 */
def_irq_handler tcpwm_1_interrupts_7_IRQHandler /* TCPWM #1, Counter #7 */
def_irq_handler tcpwm_1_interrupts_8_IRQHandler /* TCPWM #1, Counter #8 */
def_irq_handler tcpwm_1_interrupts_9_IRQHandler /* TCPWM #1, Counter #9 */
def_irq_handler tcpwm_1_interrupts_10_IRQHandler /* TCPWM #1, Counter #10 */
def_irq_handler tcpwm_1_interrupts_11_IRQHandler /* TCPWM #1, Counter #11 */
def_irq_handler tcpwm_1_interrupts_12_IRQHandler /* TCPWM #1, Counter #12 */
def_irq_handler tcpwm_1_interrupts_13_IRQHandler /* TCPWM #1, Counter #13 */
def_irq_handler tcpwm_1_interrupts_14_IRQHandler /* TCPWM #1, Counter #14 */
def_irq_handler tcpwm_1_interrupts_15_IRQHandler /* TCPWM #1, Counter #15 */
def_irq_handler tcpwm_1_interrupts_16_IRQHandler /* TCPWM #1, Counter #16 */
def_irq_handler tcpwm_1_interrupts_17_IRQHandler /* TCPWM #1, Counter #17 */
def_irq_handler tcpwm_1_interrupts_18_IRQHandler /* TCPWM #1, Counter #18 */
def_irq_handler tcpwm_1_interrupts_19_IRQHandler /* TCPWM #1, Counter #19 */
def_irq_handler tcpwm_1_interrupts_20_IRQHandler /* TCPWM #1, Counter #20 */
def_irq_handler tcpwm_1_interrupts_21_IRQHandler /* TCPWM #1, Counter #21 */
def_irq_handler tcpwm_1_interrupts_22_IRQHandler /* TCPWM #1, Counter #22 */
def_irq_handler tcpwm_1_interrupts_23_IRQHandler /* TCPWM #1, Counter #23 */
def_irq_handler udb_interrupts_0_IRQHandler /* UDB Interrupt #0 */
def_irq_handler udb_interrupts_1_IRQHandler /* UDB Interrupt #1 */
def_irq_handler udb_interrupts_2_IRQHandler /* UDB Interrupt #2 */
def_irq_handler udb_interrupts_3_IRQHandler /* UDB Interrupt #3 */
def_irq_handler udb_interrupts_4_IRQHandler /* UDB Interrupt #4 */
def_irq_handler udb_interrupts_5_IRQHandler /* UDB Interrupt #5 */
def_irq_handler udb_interrupts_6_IRQHandler /* UDB Interrupt #6 */
def_irq_handler udb_interrupts_7_IRQHandler /* UDB Interrupt #7 */
def_irq_handler udb_interrupts_8_IRQHandler /* UDB Interrupt #8 */
def_irq_handler udb_interrupts_9_IRQHandler /* UDB Interrupt #9 */
def_irq_handler udb_interrupts_10_IRQHandler /* UDB Interrupt #10 */
def_irq_handler udb_interrupts_11_IRQHandler /* UDB Interrupt #11 */
def_irq_handler udb_interrupts_12_IRQHandler /* UDB Interrupt #12 */
def_irq_handler udb_interrupts_13_IRQHandler /* UDB Interrupt #13 */
def_irq_handler udb_interrupts_14_IRQHandler /* UDB Interrupt #14 */
def_irq_handler udb_interrupts_15_IRQHandler /* UDB Interrupt #15 */
def_irq_handler pass_interrupt_sar_IRQHandler /* SAR ADC interrupt */
def_irq_handler audioss_interrupt_i2s_IRQHandler /* I2S Audio interrupt */
def_irq_handler audioss_interrupt_pdm_IRQHandler /* PDM/PCM Audio interrupt */
def_irq_handler profile_interrupt_IRQHandler /* Energy Profiler interrupt */
def_irq_handler smif_interrupt_IRQHandler /* Serial Memory Interface interrupt */
def_irq_handler usb_interrupt_hi_IRQHandler /* USB Interrupt */
def_irq_handler usb_interrupt_med_IRQHandler /* USB Interrupt */
def_irq_handler usb_interrupt_lo_IRQHandler /* USB Interrupt */
def_irq_handler pass_interrupt_dacs_IRQHandler /* Consolidated interrrupt for all DACs */
.end
/* [] END OF FILE */

286
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/TOOLCHAIN_IAR/cy8c6xx7_cm4_dual.icf
View File

@ -1,286 +0,0 @@
/***************************************************************************//**
* \file cy8c6xx7_cm4_dual.icf
* \version 2.70
*
* Linker file for the IAR compiler.
*
* The main purpose of the linker script is to describe how the sections in the
* input files should be mapped into the output file, and to control the memory
* layout of the output file.
*
* \note The entry point is fixed and starts at 0x10000000. The valid application
* image should be placed there.
*
* \note The linker files included with the PDL template projects must be generic
* and handle all common use cases. Your project may not use every section
* defined in the linker files. In that case you may see warnings during the
* build process. In your project, you can simply comment out or remove the
* relevant code in the linker file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
/*###ICF### Section handled by ICF editor, don't touch! ****/
/*-Editor annotation file-*/
/* IcfEditorFile="$TOOLKIT_DIR$\config\ide\IcfEditor\cortex_v1_4.xml" */
/*-Specials-*/
define symbol __ICFEDIT_intvec_start__ = 0x00000000;
/* The size of the Cortex-M0+ application image */
define symbol FLASH_CM0P_SIZE = 0x2000;
if (!isdefinedsymbol(MBED_ROM_START)) {
define symbol MBED_ROM_START = 0x10000000;
}
/* MBED_APP_START is being used by the bootloader build script and
* will be calculate by the system. In case if MBED_APP_START address is
* customized by the bootloader config, the application image should not
* include CM0p prebuilt image.
*/
if (!isdefinedsymbol(MBED_APP_START)) {
define symbol MBED_APP_START = (MBED_ROM_START + FLASH_CM0P_SIZE);
}
if (!isdefinedsymbol(MBED_ROM_SIZE)) {
define symbol MBED_ROM_SIZE = 0x00100000;
}
/* MBED_APP_SIZE is being used by the bootloader build script and
* will be calculate by the system.
*/
if (!isdefinedsymbol(MBED_APP_SIZE)) {
define symbol MBED_APP_SIZE = (MBED_ROM_SIZE - FLASH_CM0P_SIZE);
}
if (!isdefinedsymbol(MBED_RAM_START)) {
define symbol MBED_RAM_START = 0x08002000;
}
if (!isdefinedsymbol(MBED_RAM_SIZE)) {
define symbol MBED_RAM_SIZE = 0x00045800;
}
if (!isdefinedsymbol(MBED_BOOT_STACK_SIZE)) {
if (!isdefinedsymbol(__STACK_SIZE)) {
define symbol MBED_BOOT_STACK_SIZE = 0x0400;
} else {
define symbol MBED_BOOT_STACK_SIZE = __STACK_SIZE;
}
}
define symbol __ICFEDIT_size_cstack__ = MBED_BOOT_STACK_SIZE;
/* The symbols below define the location and size of blocks of memory in the target.
* Use these symbols to specify the memory regions available for allocation.
*/
/* The following symbols control RAM and flash memory allocation for the CM4 core.
* You can change the memory allocation by editing RAM and Flash symbols.
* Note that 2 KB of RAM (at the end of the SRAM) are reserved for system use.
* Using this memory region for other purposes will lead to unexpected behavior.
* Your changes must be aligned with the corresponding symbols for CM0+ core in 'xx_cm0plus.icf',
* where 'xx' is the device group; for example, 'cy8c6xx7_cm0plus.icf'.
*/
/* RAM */
define symbol __ICFEDIT_region_IRAM1_start__ = MBED_RAM_START;
define symbol __ICFEDIT_region_IRAM1_end__ = (MBED_RAM_START + MBED_RAM_SIZE);
/* Flash */
define symbol __ICFEDIT_region_IROM0_start__ = MBED_ROM_START;
define symbol __ICFEDIT_region_IROM0_end__ = (MBED_ROM_START + FLASH_CM0P_SIZE);
define symbol __ICFEDIT_region_IROM1_start__ = MBED_APP_START;
define symbol __ICFEDIT_region_IROM1_end__ = (MBED_APP_START + MBED_APP_SIZE);
/* The following symbols define a 32K flash region used for EEPROM emulation.
* This region can also be used as the general purpose flash.
* You can assign sections to this memory region for only one of the cores.
* Note some middleware (e.g. BLE, Emulated EEPROM) can place their data into this memory region.
* Therefore, repurposing this memory region will prevent such middleware from operation.
*/
define symbol __ICFEDIT_region_IROM2_start__ = 0x14000000;
define symbol __ICFEDIT_region_IROM2_end__ = 0x14007FFF;
/* The following symbols define device specific memory regions and must not be changed. */
/* Supervisory FLASH - User Data */
define symbol __ICFEDIT_region_IROM3_start__ = 0x16000800;
define symbol __ICFEDIT_region_IROM3_end__ = 0x160007FF;
/* Supervisory FLASH - Normal Access Restrictions (NAR) */
define symbol __ICFEDIT_region_IROM4_start__ = 0x16001A00;
define symbol __ICFEDIT_region_IROM4_end__ = 0x16001BFF;
/* Supervisory FLASH - Public Key */
define symbol __ICFEDIT_region_IROM5_start__ = 0x16005A00;
define symbol __ICFEDIT_region_IROM5_end__ = 0x160065FF;
/* Supervisory FLASH - Table of Content # 2 */
define symbol __ICFEDIT_region_IROM6_start__ = 0x16007C00;
define symbol __ICFEDIT_region_IROM6_end__ = 0x16007DFF;
/* Supervisory FLASH - Table of Content # 2 Copy */
define symbol __ICFEDIT_region_IROM7_start__ = 0x16007E00;
define symbol __ICFEDIT_region_IROM7_end__ = 0x16007FFF;
/* eFuse */
define symbol __ICFEDIT_region_IROM8_start__ = 0x90700000;
define symbol __ICFEDIT_region_IROM8_end__ = 0x907FFFFF;
/* XIP */
define symbol __ICFEDIT_region_EROM1_start__ = 0x18000000;
define symbol __ICFEDIT_region_EROM1_end__ = 0x1FFFFFFF;
define symbol __ICFEDIT_region_EROM2_start__ = 0x0;
define symbol __ICFEDIT_region_EROM2_end__ = 0x0;
define symbol __ICFEDIT_region_EROM3_start__ = 0x0;
define symbol __ICFEDIT_region_EROM3_end__ = 0x0;
define symbol __ICFEDIT_region_IRAM2_start__ = 0x0;
define symbol __ICFEDIT_region_IRAM2_end__ = 0x0;
define symbol __ICFEDIT_region_ERAM1_start__ = 0x0;
define symbol __ICFEDIT_region_ERAM1_end__ = 0x0;
define symbol __ICFEDIT_region_ERAM2_start__ = 0x0;
define symbol __ICFEDIT_region_ERAM2_end__ = 0x0;
define symbol __ICFEDIT_region_ERAM3_start__ = 0x0;
define symbol __ICFEDIT_region_ERAM3_end__ = 0x0;
/*-Sizes-*/
/* Defines the minimum heap size. The actual heap size will be expanded to the end of the stack region */
if (!isdefinedsymbol(__HEAP_SIZE)) {
define symbol __ICFEDIT_size_heap__ = 0x0400;
} else {
define symbol __ICFEDIT_size_heap__ = __HEAP_SIZE;
}
/**** End of ICF editor section. ###ICF###*/
define memory mem with size = 4G;
define region IROM0_region = mem:[from __ICFEDIT_region_IROM0_start__ to __ICFEDIT_region_IROM0_end__];
define region IROM1_region = mem:[from __ICFEDIT_region_IROM1_start__ to __ICFEDIT_region_IROM1_end__];
define region IROM2_region = mem:[from __ICFEDIT_region_IROM2_start__ to __ICFEDIT_region_IROM2_end__];
define region IROM3_region = mem:[from __ICFEDIT_region_IROM3_start__ to __ICFEDIT_region_IROM3_end__];
define region IROM4_region = mem:[from __ICFEDIT_region_IROM4_start__ to __ICFEDIT_region_IROM4_end__];
define region IROM5_region = mem:[from __ICFEDIT_region_IROM5_start__ to __ICFEDIT_region_IROM5_end__];
define region IROM6_region = mem:[from __ICFEDIT_region_IROM6_start__ to __ICFEDIT_region_IROM6_end__];
define region IROM7_region = mem:[from __ICFEDIT_region_IROM7_start__ to __ICFEDIT_region_IROM7_end__];
define region IROM8_region = mem:[from __ICFEDIT_region_IROM8_start__ to __ICFEDIT_region_IROM8_end__];
define region EROM1_region = mem:[from __ICFEDIT_region_EROM1_start__ to __ICFEDIT_region_EROM1_end__];
define region IRAM1_region = mem:[from __ICFEDIT_region_IRAM1_start__ to __ICFEDIT_region_IRAM1_end__];
define block RAM_DATA {readwrite section .data};
define block RAM_OTHER {readwrite section * };
define block RAM_NOINIT {readwrite section .noinit};
define block RAM_BSS {readwrite section .bss};
define block RAM with fixed order {block RAM_DATA, block RAM_OTHER, block RAM_NOINIT, block RAM_BSS};
define block CSTACK with alignment = 8, size = __ICFEDIT_size_cstack__ { };
define block HEAP with expanding size, alignment = 8, minimum size = __ICFEDIT_size_heap__ { };
define block CM0P_RO with size = FLASH_CM0P_SIZE { readonly section .cy_m0p_image };
define block RO {first section .intvec, readonly};
/*-Initializations-*/
initialize by copy { readwrite };
do not initialize { section .noinit, section .intvec_ram };
/*-Placement-*/
/* Flash - Cortex-M0+ application image */
place at start of IROM0_region { block CM0P_RO };
/* Flash - Cortex-M4 application */
place at start of IROM1_region { block RO };
/* Used for the digital signature of the secure application and the Bootloader SDK application. */
".cy_app_signature" : place at address (__ICFEDIT_region_IROM1_end__ - 0x200) { section .cy_app_signature };
/* Emulated EEPROM Flash area */
".cy_em_eeprom" : place at start of IROM2_region { section .cy_em_eeprom };
/* Supervisory Flash - User Data */
".cy_sflash_user_data" : place at start of IROM3_region { section .cy_sflash_user_data };
/* Supervisory Flash - NAR */
".cy_sflash_nar" : place at start of IROM4_region { section .cy_sflash_nar };
/* Supervisory Flash - Public Key */
".cy_sflash_public_key" : place at start of IROM5_region { section .cy_sflash_public_key };
/* Supervisory Flash - TOC2 */
".cy_toc_part2" : place at start of IROM6_region { section .cy_toc_part2 };
/* Supervisory Flash - RTOC2 */
".cy_rtoc_part2" : place at start of IROM7_region { section .cy_rtoc_part2 };
/* eFuse */
".cy_efuse" : place at start of IROM8_region { section .cy_efuse };
/* Execute in Place (XIP). See the smif driver documentation for details. */
".cy_xip" : place at start of EROM1_region { section .cy_xip };
/* RAM */
place at start of IRAM1_region { readwrite section .intvec_ram};
place in IRAM1_region { block RAM};
place in IRAM1_region { block HEAP};
place at end of IRAM1_region { block CSTACK };
/* These sections are used for additional metadata (silicon revision, Silicon/JTAG ID, etc.) storage. */
".cymeta" : place at address mem : 0x90500000 { readonly section .cymeta };
keep { section .cy_m0p_image,
section .cy_app_signature,
section .cy_em_eeprom,
section .cy_sflash_user_data,
section .cy_sflash_nar,
section .cy_sflash_public_key,
section .cy_toc_part2,
section .cy_rtoc_part2,
section .cy_efuse,
section .cy_xip,
section .cymeta,
};
/* The following symbols used by the cymcuelftool. */
/* Flash */
define exported symbol __cy_memory_0_start = 0x10000000;
define exported symbol __cy_memory_0_length = 0x00100000;
define exported symbol __cy_memory_0_row_size = 0x200;
/* Emulated EEPROM Flash area */
define exported symbol __cy_memory_1_start = 0x14000000;
define exported symbol __cy_memory_1_length = 0x8000;
define exported symbol __cy_memory_1_row_size = 0x200;
/* Supervisory Flash */
define exported symbol __cy_memory_2_start = 0x16000000;
define exported symbol __cy_memory_2_length = 0x8000;
define exported symbol __cy_memory_2_row_size = 0x200;
/* XIP */
define exported symbol __cy_memory_3_start = 0x18000000;
define exported symbol __cy_memory_3_length = 0x08000000;
define exported symbol __cy_memory_3_row_size = 0x200;
/* eFuse */
define exported symbol __cy_memory_4_start = 0x90700000;
define exported symbol __cy_memory_4_length = 0x100000;
define exported symbol __cy_memory_4_row_size = 1;
/* EOF */

1137
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/TOOLCHAIN_IAR/startup_psoc6_01_cm4.S
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390
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/COMPONENT_CM4/system_psoc6_cm4.c
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/***************************************************************************//**
* \file system_psoc6_cm4.c
* \version 2.70
*
* The device system-source file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
#include <stdbool.h>
#include "system_psoc6.h"
#include "cy_device.h"
#include "cy_device_headers.h"
#include "cy_syslib.h"
#include "cy_sysclk.h"
#include "cy_wdt.h"
#if !defined(CY_IPC_DEFAULT_CFG_DISABLE)
#include "cy_ipc_sema.h"
#include "cy_ipc_pipe.h"
#include "cy_ipc_drv.h"
#if defined(CY_DEVICE_PSOC6ABLE2)
#include "cy_flash.h"
#endif /* defined(CY_DEVICE_PSOC6ABLE2) */
#endif /* !defined(CY_IPC_DEFAULT_CFG_DISABLE) */
/*******************************************************************************
* SystemCoreClockUpdate()
*******************************************************************************/
/** Default HFClk frequency in Hz */
#define CY_CLK_HFCLK0_FREQ_HZ_DEFAULT (8000000UL)
/** Default PeriClk frequency in Hz */
#define CY_CLK_PERICLK_FREQ_HZ_DEFAULT (4000000UL)
/** Default FastClk system core frequency in Hz */
#define CY_CLK_SYSTEM_FREQ_HZ_DEFAULT (8000000UL)
/**
* Holds the SlowClk (Cortex-M0+) or FastClk (Cortex-M4) system core clock,
* which is the system clock frequency supplied to the SysTick timer and the
* processor core clock.
* This variable implements CMSIS Core global variable.
* Refer to the [CMSIS documentation]
* (http://www.keil.com/pack/doc/CMSIS/Core/html/group__system__init__gr.html "System and Clock Configuration")
* for more details.
* This variable can be used by debuggers to query the frequency
* of the debug timer or to configure the trace clock speed.
*
* \attention Compilers must be configured to avoid removing this variable in case
* the application program is not using it. Debugging systems require the variable
* to be physically present in memory so that it can be examined to configure the debugger. */
uint32_t SystemCoreClock = CY_CLK_SYSTEM_FREQ_HZ_DEFAULT;
/** Holds the HFClk0 clock frequency. Updated by \ref SystemCoreClockUpdate(). */
uint32_t cy_Hfclk0FreqHz = CY_CLK_HFCLK0_FREQ_HZ_DEFAULT;
/** Holds the PeriClk clock frequency. Updated by \ref SystemCoreClockUpdate(). */
uint32_t cy_PeriClkFreqHz = CY_CLK_PERICLK_FREQ_HZ_DEFAULT;
/** Holds the Alternate high frequency clock in Hz. Updated by \ref Cy_BLE_EcoConfigure(). */
uint32_t cy_BleEcoClockFreqHz = 0UL;
/* SCB->CPACR */
#define SCB_CPACR_CP10_CP11_ENABLE (0xFUL << 20u)
/*******************************************************************************
* SystemInit()
*******************************************************************************/
/* CLK_FLL_CONFIG default values */
#define CY_FB_CLK_FLL_CONFIG_VALUE (0x01000000u)
#define CY_FB_CLK_FLL_CONFIG2_VALUE (0x00020001u)
#define CY_FB_CLK_FLL_CONFIG3_VALUE (0x00002800u)
#define CY_FB_CLK_FLL_CONFIG4_VALUE (0x000000FFu)
/* IPC_STRUCT7->DATA configuration */
#define CY_STARTUP_CM0_DP_STATE (0x2uL)
#define CY_STARTUP_IPC7_DP_OFFSET (0x28u)
/*******************************************************************************
* SystemCoreClockUpdate (void)
*******************************************************************************/
/* Do not use these definitions directly in your application */
#define CY_DELAY_MS_OVERFLOW_THRESHOLD (0x8000u)
#define CY_DELAY_1K_THRESHOLD (1000u)
#define CY_DELAY_1M_THRESHOLD (1000000u)
uint32_t cy_delayFreqKhz = CY_SYSLIB_DIV_ROUNDUP(CY_CLK_SYSTEM_FREQ_HZ_DEFAULT, CY_DELAY_1K_THRESHOLD);
uint8_t cy_delayFreqMhz = (uint8_t)CY_SYSLIB_DIV_ROUNDUP(CY_CLK_SYSTEM_FREQ_HZ_DEFAULT, CY_DELAY_1M_THRESHOLD);
uint32_t cy_delay32kMs = CY_DELAY_MS_OVERFLOW_THRESHOLD *
CY_SYSLIB_DIV_ROUNDUP(CY_CLK_SYSTEM_FREQ_HZ_DEFAULT, CY_DELAY_1K_THRESHOLD);
/*******************************************************************************
* Function Name: SystemInit
****************************************************************************//**
* \cond
* Initializes the system:
* - Restores FLL registers to the default state for single core devices.
* - Unlocks and disables WDT.
* - Calls Cy_PDL_Init() function to define the driver library.
* - Calls the Cy_SystemInit() function, if compiled from PSoC Creator.
* - Calls \ref SystemCoreClockUpdate().
* \endcond
*******************************************************************************/
void SystemInit(void)
{
Cy_PDL_Init(CY_DEVICE_CFG);
#ifdef __CM0P_PRESENT
#if (__CM0P_PRESENT == 0)
/* Restore FLL registers to the default state as they are not restored by the ROM code */
uint32_t copy = SRSS->CLK_FLL_CONFIG;
copy &= ~SRSS_CLK_FLL_CONFIG_FLL_ENABLE_Msk;
SRSS->CLK_FLL_CONFIG = copy;
copy = SRSS->CLK_ROOT_SELECT[0u];
copy &= ~SRSS_CLK_ROOT_SELECT_ROOT_DIV_Msk; /* Set ROOT_DIV = 0*/
SRSS->CLK_ROOT_SELECT[0u] = copy;
SRSS->CLK_FLL_CONFIG = CY_FB_CLK_FLL_CONFIG_VALUE;
SRSS->CLK_FLL_CONFIG2 = CY_FB_CLK_FLL_CONFIG2_VALUE;
SRSS->CLK_FLL_CONFIG3 = CY_FB_CLK_FLL_CONFIG3_VALUE;
SRSS->CLK_FLL_CONFIG4 = CY_FB_CLK_FLL_CONFIG4_VALUE;
/* Unlock and disable WDT */
Cy_WDT_Unlock();
Cy_WDT_Disable();
#endif /* (__CM0P_PRESENT == 0) */
#endif /* __CM0P_PRESENT */
Cy_SystemInit();
SystemCoreClockUpdate();
#ifdef __CM0P_PRESENT
#if (__CM0P_PRESENT == 0)
/* Configure data register (as CM0p in deep sleep state) of IPC structure #7, reserved for the Deep-Sleep operations. */
REG_IPC_STRUCT_DATA(CY_IPC_STRUCT_PTR(CY_IPC_CHAN_DDFT)) = (CY_STARTUP_CM0_DP_STATE <<
CY_STARTUP_IPC7_DP_OFFSET);
/* Release IPC structure #7 to avoid deadlocks in case of SW or WDT reset during Deep-Sleep entering. */
REG_IPC_STRUCT_RELEASE(CY_IPC_STRUCT_PTR(CY_IPC_CHAN_DDFT)) = 0UL;
#endif /* (__CM0P_PRESENT == 0) */
#endif /* __CM0P_PRESENT */
#if !defined(CY_IPC_DEFAULT_CFG_DISABLE)
#ifdef __CM0P_PRESENT
#if (__CM0P_PRESENT == 0)
/* Allocate and initialize semaphores for the system operations. */
static uint32_t ipcSemaArray[CY_IPC_SEMA_COUNT / CY_IPC_SEMA_PER_WORD];
(void) Cy_IPC_Sema_Init(CY_IPC_CHAN_SEMA, CY_IPC_SEMA_COUNT, ipcSemaArray);
#else
(void) Cy_IPC_Sema_Init(CY_IPC_CHAN_SEMA, 0ul, NULL);
#endif /* (__CM0P_PRESENT) */
#else
(void) Cy_IPC_Sema_Init(CY_IPC_CHAN_SEMA, 0ul, NULL);
#endif /* __CM0P_PRESENT */
/********************************************************************************
*
* Initializes the system pipes. The system pipes are used by BLE and Flash.
*
* If the default startup file is not used, or SystemInit() is not called in your
* project, call the following three functions prior to executing any flash or
* EmEEPROM write or erase operation:
* -# Cy_IPC_Sema_Init()
* -# Cy_IPC_Pipe_Config()
* -# Cy_IPC_Pipe_Init()
* -# Cy_Flash_Init()
*
*******************************************************************************/
/* Create an array of endpoint structures */
static cy_stc_ipc_pipe_ep_t systemIpcPipeEpArray[CY_IPC_MAX_ENDPOINTS];
Cy_IPC_Pipe_Config(systemIpcPipeEpArray);
static cy_ipc_pipe_callback_ptr_t systemIpcPipeSysCbArray[CY_SYS_CYPIPE_CLIENT_CNT];
static const cy_stc_ipc_pipe_config_t systemIpcPipeConfigCm4 =
{
/* .ep0ConfigData */
{
/* .ipcNotifierNumber */ CY_IPC_INTR_CYPIPE_EP0,
/* .ipcNotifierPriority */ CY_SYS_INTR_CYPIPE_PRIOR_EP0,
/* .ipcNotifierMuxNumber */ CY_SYS_INTR_CYPIPE_MUX_EP0,
/* .epAddress */ CY_IPC_EP_CYPIPE_CM0_ADDR,
/* .epConfig */ CY_SYS_CYPIPE_CONFIG_EP0
},
/* .ep1ConfigData */
{
/* .ipcNotifierNumber */ CY_IPC_INTR_CYPIPE_EP1,
/* .ipcNotifierPriority */ CY_SYS_INTR_CYPIPE_PRIOR_EP1,
/* .ipcNotifierMuxNumber */ 0u,
/* .epAddress */ CY_IPC_EP_CYPIPE_CM4_ADDR,
/* .epConfig */ CY_SYS_CYPIPE_CONFIG_EP1
},
/* .endpointClientsCount */ CY_SYS_CYPIPE_CLIENT_CNT,
/* .endpointsCallbacksArray */ systemIpcPipeSysCbArray,
/* .userPipeIsrHandler */ &Cy_SysIpcPipeIsrCm4
};
Cy_IPC_Pipe_Init(&systemIpcPipeConfigCm4);
#if defined(CY_DEVICE_PSOC6ABLE2)
Cy_Flash_Init();
#endif /* defined(CY_DEVICE_PSOC6ABLE2) */
#endif /* !defined(CY_IPC_DEFAULT_CFG_DISABLE) */
}
/*******************************************************************************
* Function Name: Cy_SystemInit
****************************************************************************//**
*
* The function is called during device startup. Once project compiled as part of
* the PSoC Creator project, the Cy_SystemInit() function is generated by the
* PSoC Creator.
*
* The function generated by PSoC Creator performs all of the necessary device
* configuration based on the design settings. This includes settings from the
* Design Wide Resources (DWR) such as Clocks and Pins as well as any component
* configuration that is necessary.
*
*******************************************************************************/
__WEAK void Cy_SystemInit(void)
{
/* Empty weak function. The actual implementation to be in the PSoC Creator
* generated strong function.
*/
}
/*******************************************************************************
* Function Name: SystemCoreClockUpdate
****************************************************************************//**
*
* Gets core clock frequency and updates \ref SystemCoreClock, \ref
* cy_Hfclk0FreqHz, and \ref cy_PeriClkFreqHz.
*
* Updates global variables used by the \ref Cy_SysLib_Delay(), \ref
* Cy_SysLib_DelayUs(), and \ref Cy_SysLib_DelayCycles().
*
*******************************************************************************/
void SystemCoreClockUpdate (void)
{
uint32 locHf0Clock = Cy_SysClk_ClkHfGetFrequency(0UL);
if (0UL != locHf0Clock)
{
cy_Hfclk0FreqHz = locHf0Clock;
cy_PeriClkFreqHz = locHf0Clock / (1UL + (uint32_t)Cy_SysClk_ClkPeriGetDivider());
SystemCoreClock = locHf0Clock / (1UL + (uint32_t)Cy_SysClk_ClkFastGetDivider());
/* Sets clock frequency for Delay API */
cy_delayFreqMhz = (uint8_t)CY_SYSLIB_DIV_ROUNDUP(SystemCoreClock, CY_DELAY_1M_THRESHOLD);
cy_delayFreqKhz = CY_SYSLIB_DIV_ROUNDUP(SystemCoreClock, CY_DELAY_1K_THRESHOLD);
cy_delay32kMs = CY_DELAY_MS_OVERFLOW_THRESHOLD * cy_delayFreqKhz;
}
}
/*******************************************************************************
* Function Name: Cy_SystemInitFpuEnable
****************************************************************************//**
*
* Enables the FPU if it is used. The function is called from the startup file.
*
*******************************************************************************/
void Cy_SystemInitFpuEnable(void)
{
#if defined (__FPU_USED) && (__FPU_USED == 1U)
uint32_t interruptState;
interruptState = Cy_SysLib_EnterCriticalSection();
SCB->CPACR |= SCB_CPACR_CP10_CP11_ENABLE;
__DSB();
__ISB();
Cy_SysLib_ExitCriticalSection(interruptState);
#endif /* (__FPU_USED) && (__FPU_USED == 1U) */
}
#if !defined(CY_IPC_DEFAULT_CFG_DISABLE)
/*******************************************************************************
* Function Name: Cy_SysIpcPipeIsrCm4
****************************************************************************//**
*
* This is the interrupt service routine for the system pipe.
*
*******************************************************************************/
void Cy_SysIpcPipeIsrCm4(void)
{
Cy_IPC_Pipe_ExecuteCallback(CY_IPC_EP_CYPIPE_CM4_ADDR);
}
#endif
/*******************************************************************************
* Function Name: Cy_MemorySymbols
****************************************************************************//**
*
* The intention of the function is to declare boundaries of the memories for the
* MDK compilers. For the rest of the supported compilers, this is done using
* linker configuration files. The following symbols used by the cymcuelftool.
*
*******************************************************************************/
#if defined (__ARMCC_VERSION) && (__ARMCC_VERSION < 6010050)
__asm void Cy_MemorySymbols(void)
{
/* Flash */
EXPORT __cy_memory_0_start
EXPORT __cy_memory_0_length
EXPORT __cy_memory_0_row_size
/* Working Flash */
EXPORT __cy_memory_1_start
EXPORT __cy_memory_1_length
EXPORT __cy_memory_1_row_size
/* Supervisory Flash */
EXPORT __cy_memory_2_start
EXPORT __cy_memory_2_length
EXPORT __cy_memory_2_row_size
/* XIP */
EXPORT __cy_memory_3_start
EXPORT __cy_memory_3_length
EXPORT __cy_memory_3_row_size
/* eFuse */
EXPORT __cy_memory_4_start
EXPORT __cy_memory_4_length
EXPORT __cy_memory_4_row_size
/* Flash */
__cy_memory_0_start EQU __cpp(CY_FLASH_BASE)
__cy_memory_0_length EQU __cpp(CY_FLASH_SIZE)
__cy_memory_0_row_size EQU 0x200
/* Flash region for EEPROM emulation */
__cy_memory_1_start EQU __cpp(CY_EM_EEPROM_BASE)
__cy_memory_1_length EQU __cpp(CY_EM_EEPROM_SIZE)
__cy_memory_1_row_size EQU 0x200
/* Supervisory Flash */
__cy_memory_2_start EQU __cpp(CY_SFLASH_BASE)
__cy_memory_2_length EQU __cpp(CY_SFLASH_SIZE)
__cy_memory_2_row_size EQU 0x200
/* XIP */
__cy_memory_3_start EQU __cpp(CY_XIP_BASE)
__cy_memory_3_length EQU __cpp(CY_XIP_SIZE)
__cy_memory_3_row_size EQU 0x200
/* eFuse */
__cy_memory_4_start EQU __cpp(0x90700000)
__cy_memory_4_length EQU __cpp(0x100000)
__cy_memory_4_row_size EQU __cpp(1)
}
#endif /* defined (__ARMCC_VERSION) && (__ARMCC_VERSION < 6010050) */
/* [] END OF FILE */

658
targets/TARGET_Cypress/TARGET_PSOC6/TARGET_CY8CPROTO_063_BLE/device/system_psoc6.h
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/***************************************************************************//**
* \file system_psoc6.h
* \version 2.70
*
* \brief Device system header file.
*
********************************************************************************
* \copyright
* Copyright 2016-2019 Cypress Semiconductor Corporation
* SPDX-License-Identifier: Apache-2.0
*
* 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.
*******************************************************************************/
#ifndef _SYSTEM_PSOC6_H_
#define _SYSTEM_PSOC6_H_
/**
* \addtogroup group_system_config
* \{
* Provides device startup, system configuration, and linker script files.
* The system startup provides the followings features:
* - See \ref group_system_config_device_initialization for the:
* * \ref group_system_config_dual_core_device_initialization
* * \ref group_system_config_single_core_device_initialization
* - \ref group_system_config_device_memory_definition
* - \ref group_system_config_heap_stack_config
* - \ref group_system_config_merge_apps
* - \ref group_system_config_default_handlers
* - \ref group_system_config_device_vector_table
* - \ref group_system_config_cm4_functions
*
* \section group_system_config_configuration Configuration Considerations
*
* \subsection group_system_config_device_memory_definition Device Memory Definition
* The flash and RAM allocation for each CPU is defined by the linker scripts.
* For dual-core devices, the physical flash and RAM memory is shared between the CPU cores.
* 2 KB of RAM (allocated at the end of RAM) are reserved for system use.
* For Single-Core devices the system reserves additional 80 bytes of RAM.
* Using the reserved memory area for other purposes will lead to unexpected behavior.
*
* \note The linker files provided with the PDL are generic and handle all common
* use cases. Your project may not use every section defined in the linker files.
* In that case you may see warnings during the build process. To eliminate build
* warnings in your project, you can simply comment out or remove the relevant
* code in the linker file.
*
* <b>ARM GCC</b>\n
* The flash and RAM sections for the CPU are defined in the linker files:
* 'xx_yy.ld', where 'xx' is the device group, and 'yy' is the target CPU; for example,
* 'cy8c6xx7_cm0plus.ld' and 'cy8c6xx7_cm4_dual.ld'.
* \note If the start of the Cortex-M4 application image is changed, the value
* of the of the \ref CY_CORTEX_M4_APPL_ADDR should also be changed. The
* \ref CY_CORTEX_M4_APPL_ADDR macro should be used as the parameter for the
* Cy_SysEnableCM4() function call.
*
* Change the flash and RAM sizes by editing the macros value in the
* linker files for both CPUs:
* - 'xx_cm0plus.ld', where 'xx' is the device group:
* \code
* flash (rx) : ORIGIN = 0x10000000, LENGTH = 0x00080000
* ram (rwx) : ORIGIN = 0x08000000, LENGTH = 0x00024000
* \endcode
* - 'xx_cm4_dual.ld', where 'xx' is the device group:
* \code
* flash (rx) : ORIGIN = 0x10080000, LENGTH = 0x00080000
* ram (rwx) : ORIGIN = 0x08024000, LENGTH = 0x00023800
* \endcode
*
* Change the value of the \ref CY_CORTEX_M4_APPL_ADDR macro to the rom ORIGIN's
* value in the 'xx_cm4_dual.ld' file, where 'xx' is the device group. Do this
* by either:
* - Passing the following commands to the compiler:\n
* \code -D CY_CORTEX_M4_APPL_ADDR=0x10080000 \endcode
* - Editing the \ref CY_CORTEX_M4_APPL_ADDR value in the 'system_xx.h', where 'xx' is device family:\n
* \code #define CY_CORTEX_M4_APPL_ADDR (0x10080000u) \endcode
*
* <b>ARM MDK</b>\n
* The flash and RAM sections for the CPU are defined in the linker files:
* 'xx_yy.scat', where 'xx' is the device group, and 'yy' is the target CPU; for example,
* 'cy8c6xx7_cm0plus.scat' and 'cy8c6xx7_cm4_dual.scat'.
* \note If the start of the Cortex-M4 application image is changed, the value
* of the of the \ref CY_CORTEX_M4_APPL_ADDR should also be changed. The
* \ref CY_CORTEX_M4_APPL_ADDR macro should be used as the parameter for the \ref
* Cy_SysEnableCM4() function call.
*
* \note The linker files provided with the PDL are generic and handle all common
* use cases. Your project may not use every section defined in the linker files.
* In that case you may see the warnings during the build process:
* L6314W (no section matches pattern) and/or L6329W
* (pattern only matches removed unused sections). In your project, you can
* suppress the warning by passing the "--diag_suppress=L6314W,L6329W" option to
* the linker. You can also comment out or remove the relevant code in the linker
* file.
*
* Change the flash and RAM sizes by editing the macros value in the
* linker files for both CPUs:
* - 'xx_cm0plus.scat', where 'xx' is the device group:
* \code
* #define FLASH_START 0x10000000
* #define FLASH_SIZE 0x00080000
* #define RAM_START 0x08000000
* #define RAM_SIZE 0x00024000
* \endcode
* - 'xx_cm4_dual.scat', where 'xx' is the device group:
* \code
* #define FLASH_START 0x10080000
* #define FLASH_SIZE 0x00080000
* #define RAM_START 0x08024000
* #define RAM_SIZE 0x00023800
* \endcode
*
* Change the value of the \ref CY_CORTEX_M4_APPL_ADDR macro to the FLASH_START
* value in the 'xx_cm4_dual.scat' file,
* where 'xx' is the device group. Do this by either:
* - Passing the following commands to the compiler:\n
* \code -D CY_CORTEX_M4_APPL_ADDR=0x10080000 \endcode
* - Editing the \ref CY_CORTEX_M4_APPL_ADDR value in the 'system_xx.h', where
* 'xx' is device family:\n
* \code #define CY_CORTEX_M4_APPL_ADDR (0x10080000u) \endcode
*
* <b>IAR</b>\n
* The flash and RAM sections for the CPU are defined in the linker files:
* 'xx_yy.icf', where 'xx' is the device group, and 'yy' is the target CPU; for example,
* 'cy8c6xx7_cm0plus.icf' and 'cy8c6xx7_cm4_dual.icf'.
* \note If the start of the Cortex-M4 application image is changed, the value
* of the of the \ref CY_CORTEX_M4_APPL_ADDR should also be changed. The
* \ref CY_CORTEX_M4_APPL_ADDR macro should be used as the parameter for the \ref
* Cy_SysEnableCM4() function call.
*
* Change the flash and RAM sizes by editing the macros value in the
* linker files for both CPUs:
* - 'xx_cm0plus.icf', where 'xx' is the device group:
* \code
* define symbol __ICFEDIT_region_IROM1_start__ = 0x10000000;
* define symbol __ICFEDIT_region_IROM1_end__ = 0x10080000;
* define symbol __ICFEDIT_region_IRAM1_start__ = 0x08000000;
* define symbol __ICFEDIT_region_IRAM1_end__ = 0x08024000;
* \endcode
* - 'xx_cm4_dual.icf', where 'xx' is the device group:
* \code
* define symbol __ICFEDIT_region_IROM1_start__ = 0x10080000;
* define symbol __ICFEDIT_region_IROM1_end__ = 0x10100000;
* define symbol __ICFEDIT_region_IRAM1_start__ = 0x08024000;
* define symbol __ICFEDIT_region_IRAM1_end__ = 0x08047800;
* \endcode
*
* Change the value of the \ref CY_CORTEX_M4_APPL_ADDR macro to the
* __ICFEDIT_region_IROM1_start__ value in the 'xx_cm4_dual.icf' file, where 'xx'
* is the device group. Do this by either:
* - Passing the following commands to the compiler:\n
* \code -D CY_CORTEX_M4_APPL_ADDR=0x10080000 \endcode
* - Editing the \ref CY_CORTEX_M4_APPL_ADDR value in the 'system_xx.h', where
* 'xx' is device family:\n
* \code #define CY_CORTEX_M4_APPL_ADDR (0x10080000u) \endcode
*
* \subsection group_system_config_device_initialization Device Initialization
* After a power-on-reset (POR), the boot process is handled by the boot code
* from the on-chip ROM that is always executed by the Cortex-M0+ core. The boot
* code passes the control to the Cortex-M0+ startup code located in flash.
*
* \subsubsection group_system_config_dual_core_device_initialization Dual-Core Devices
* The Cortex-M0+ startup code performs the device initialization by a call to
* SystemInit() and then calls the main() function. The Cortex-M4 core is disabled
* by default. Enable the core using the \ref Cy_SysEnableCM4() function.
* See \ref group_system_config_cm4_functions for more details.
* \note Startup code executes SystemInit() function for the both Cortex-M0+ and Cortex-M4 cores.
* The function has a separate implementation on each core.
* Both function implementations unlock and disable the WDT.
* Therefore enable the WDT after both cores have been initialized.
*
* \subsubsection group_system_config_single_core_device_initialization Single-Core Devices
* The Cortex-M0+ core is not user-accessible on these devices. In this case the
* Flash Boot handles setup of the CM0+ core and starts the Cortex-M4 core.
*
* \subsection group_system_config_heap_stack_config Heap and Stack Configuration
* There are two ways to adjust heap and stack configurations:
* -# Editing source code files
* -# Specifying via command line
*
* By default, the stack size is set to 0x00001000 and the heap size is set to 0x00000400.
*
* \subsubsection group_system_config_heap_stack_config_gcc ARM GCC
* - <b>Editing source code files</b>\n
* The heap and stack sizes are defined in the assembler startup files
* (e.g. startup_psoc6_01_cm0plus.S and startup_psoc6_01_cm4.S).
* Change the heap and stack sizes by modifying the following lines:\n
* \code .equ Stack_Size, 0x00001000 \endcode
* \code .equ Heap_Size, 0x00000400 \endcode
*
* - <b>Specifying via command line</b>\n
* Change the heap and stack sizes passing the following commands to the compiler:\n
* \code -D __STACK_SIZE=0x000000400 \endcode
* \code -D __HEAP_SIZE=0x000000100 \endcode
*
* \subsubsection group_system_config_heap_stack_config_mdk ARM MDK
* - <b>Editing source code files</b>\n
* The heap and stack sizes are defined in the assembler startup files
* (e.g. startup_psoc6_01_cm0plus.s and startup_psoc6_01_cm4.s).
* Change the heap and stack sizes by modifying the following lines:\n
* \code Stack_Size EQU 0x00001000 \endcode
* \code Heap_Size EQU 0x00000400 \endcode
*
* - <b>Specifying via command line</b>\n
* Change the heap and stack sizes passing the following commands to the assembler:\n
* \code "--predefine=___STACK_SIZE SETA 0x000000400" \endcode
* \code "--predefine=__HEAP_SIZE SETA 0x000000100" \endcode
*
* \subsubsection group_system_config_heap_stack_config_iar IAR
* - <b>Editing source code files</b>\n
* The heap and stack sizes are defined in the linker scatter files: 'xx_yy.icf',
* where 'xx' is the device family, and 'yy' is the target CPU; for example,
* cy8c6xx7_cm0plus.icf and cy8c6xx7_cm4_dual.icf.
* Change the heap and stack sizes by modifying the following lines:\n
* \code Stack_Size EQU 0x00001000 \endcode
* \code Heap_Size EQU 0x00000400 \endcode
*
* - <b>Specifying via command line</b>\n
* Change the heap and stack sizes passing the following commands to the
* linker (including quotation marks):\n
* \code --define_symbol __STACK_SIZE=0x000000400 \endcode
* \code --define_symbol __HEAP_SIZE=0x000000100 \endcode
*
* \subsection group_system_config_merge_apps Merging CM0+ and CM4 Executables
* The CM0+ project and linker script build the CM0+ application image. Similarly,
* the CM4 linker script builds the CM4 application image. Each specifies
* locations, sizes, and contents of sections in memory. See
* \ref group_system_config_device_memory_definition for the symbols and default
* values.
*
* The cymcuelftool is invoked by a post-build command. The precise project
* setting is IDE-specific.
*
* The cymcuelftool combines the two executables. The tool examines the
* executables to ensure that memory regions either do not overlap, or contain
* identical bytes (shared). If there are no problems, it creates a new ELF file
* with the merged image, without changing any of the addresses or data.
*
* \subsection group_system_config_default_handlers Default Interrupt Handlers Definition
* The default interrupt handler functions are defined as weak functions to a dummy
* handler in the startup file. The naming convention for the interrupt handler names
* is \<interrupt_name\>_IRQHandler. A default interrupt handler can be overwritten in
* user code by defining the handler function using the same name. For example:
* \code
* void scb_0_interrupt_IRQHandler(void)
*{
* ...
*}
* \endcode
*
* \subsection group_system_config_device_vector_table Vectors Table Copy from Flash to RAM
* This process uses memory sections defined in the linker script. The startup
* code actually defines the contents of the vector table and performs the copy.
* \subsubsection group_system_config_device_vector_table_gcc ARM GCC
* The linker script file is 'xx_yy.ld', where 'xx' is the device family, and
* 'yy' is the target CPU; for example, cy8c6xx7_cm0plus.ld and cy8c6xx7_cm4_dual.ld.
* It defines sections and locations in memory.\n
* Copy interrupt vectors from flash to RAM: \n
* From: \code LONG (__Vectors) \endcode
* To: \code LONG (__ram_vectors_start__) \endcode
* Size: \code LONG (__Vectors_End - __Vectors) \endcode
* The vector table address (and the vector table itself) are defined in the
* assembler startup files (e.g. startup_psoc6_01_cm0plus.S and startup_psoc6_01_cm4.S).
* The code in these files copies the vector table from Flash to RAM.
* \subsubsection group_system_config_device_vector_table_mdk ARM MDK
* The linker script file is 'xx_yy.scat', where 'xx' is the device family,
* and 'yy' is the target CPU; for example, cy8c6xx7_cm0plus.scat and
* cy8c6xx7_cm4_dual.scat. The linker script specifies that the vector table
* (RESET_RAM) shall be first in the RAM section.\n
* RESET_RAM represents the vector table. It is defined in the assembler startup
* files (e.g. startup_psoc6_01_cm0plus.s and startup_psoc6_01_cm4.s).
* The code in these files copies the vector table from Flash to RAM.
*
* \subsubsection group_system_config_device_vector_table_iar IAR
* The linker script file is 'xx_yy.icf', where 'xx' is the device family, and
* 'yy' is the target CPU; for example, cy8c6xx7_cm0plus.icf and cy8c6xx7_cm4_dual.icf.
* This file defines the .intvec_ram section and its location.
* \code place at start of IRAM1_region { readwrite section .intvec_ram}; \endcode
* The vector table address (and the vector table itself) are defined in the
* assembler startup files (e.g. startup_psoc6_01_cm0plus.s and startup_psoc6_01_cm4.s).
* The code in these files copies the vector table from Flash to RAM.
*
* \section group_system_config_more_information More Information
* Refer to the <a href="..\..\pdl_user_guide.pdf">PDL User Guide</a> for the
* more details.
*
* \section group_system_config_MISRA MISRA Compliance
*
* <table class="doxtable">
* <tr>
* <th>MISRA Rule</th>
* <th>Rule Class (Required/Advisory)</th>
* <th>Rule Description</th>
* <th>Description of Deviation(s)</th>
* </tr>
* <tr>
* <td>2.3</td>
* <td>R</td>
* <td>The character sequence // shall not be used within a comment.</td>
* <td>The comments provide a useful WEB link to the documentation.</td>
* </tr>
* </table>
*
* \section group_system_config_changelog Changelog
* <table class="doxtable">
* <tr>
* <th>Version</th>
* <th>Changes</th>
* <th>Reason for Change</th>
* </tr>
* <tr>
* <td rowspan="5">2.70</td>
* <td>Updated \ref SystemCoreClockUpdate() implementation - The SysClk API is reused.</td>
* <td>Code optimization.</td>
* </tr>
* <tr>
* <td>Updated \ref SystemInit() implementation - The IPC7 structure is initialized for both cores.</td>
* <td>Provided support for SysPM driver updates.</td>
* </tr>
* <tr>
* <td>Updated the linker scripts.</td>
* <td>Reserved FLASH area for the MCU boot headers.</td>
* </tr>
* <tr>
* <td>Added System Pipe initialization for all devices. </td>
* <td>Improved PDL usability according to user experience.</td>
* </tr>
* <tr>
* <td>Removed redundant legacy macros: CY_CLK_EXT_FREQ_HZ, CY_CLK_ECO_FREQ_HZ and CY_CLK_ALTHF_FREQ_HZ.
* Use \ref Cy_SysClk_ExtClkSetFrequency, \ref Cy_SysClk_EcoConfigure and \ref Cy_BLE_EcoConfigure functions instead them. </td>
* <td>Defect fixing.</td>
* </tr>
* <tr>
* <td>2.60</td>
* <td>Updated linker scripts.</td>
* <td>Provided support for new devices, updated usage of CM0p prebuilt image.</td>
* </tr>
* <tr>
* <td>2.50</td>
* <td>Updated assembler files, C files, linker scripts.</td>
* <td>Dynamic allocated HEAP size for Arm Compiler 6, IAR 8.</td>
* </tr>
* <tr>
* <td>2.40</td>
* <td>Updated assembler files, C files, linker scripts.</td>
* <td>Added Arm Compiler 6 support.</td>
* </tr>
* <tr>
* <td rowspan="2">2.30</td>
* <td>Added assembler files, linker scripts for Mbed OS.</td>
* <td>Added Arm Mbed OS embedded operating system support.</td>
* </tr>
* <tr>
* <td>Updated linker scripts to extend the Flash and Ram memories size available for the CM4 core.</td>
* <td>Enhanced PDL usability.</td>
* </tr>
* <tr>
* <td>2.20</td>
* <td>Moved the Cy_IPC_SystemSemaInit(), Cy_IPC_SystemPipeInit() functions implementation from IPC to Startup.</td>
* <td>Changed the IPC driver configuration method from compile time to run time.</td>
* </tr>
* <tr>
* <td rowspan="2"> 2.10</td>
* <td>Added constructor attribute to SystemInit() function declaration for ARM MDK compiler. \n
* Removed $Sub$$main symbol for ARM MDK compiler.
* </td>
* <td>uVision Debugger support.</td>
* </tr>
* <tr>
* <td>Updated description of the Startup behavior for Single-Core Devices. \n
* Added note about WDT disabling by SystemInit() function.
* </td>
* <td>Documentation improvement.</td>
* </tr>
* <tr>
* <td rowspan="4"> 2.0</td>
* <td>Added restoring of FLL registers to the default state in SystemInit() API for single core devices.
* Single core device support.
* </td>
* <td></td>
* </tr>
* <tr>
* <td>Added Normal Access Restrictions, Public Key, TOC part2 and TOC part2 copy to Supervisory flash linker memory regions. \n
* Renamed 'wflash' memory region to 'em_eeprom'.
* </td>
* <td>Linker scripts usability improvement.</td>
* </tr>
* <tr>
* <td>Added Cy_IPC_SystemSemaInit(), Cy_IPC_SystemPipeInit(), Cy_Flash_Init() functions call to SystemInit() API.</td>
* <td>Reserved system resources for internal operations.</td>
* </tr>
* <tr>
* <td>Added clearing and releasing of IPC structure #7 (reserved for the Deep-Sleep operations) to SystemInit() API.</td>
* <td>To avoid deadlocks in case of SW or WDT reset during Deep-Sleep entering.</td>
* </tr>
* <tr>
* <td>1.0</td>
* <td>Initial version</td>
* <td></td>
* </tr>
* </table>
*
*
* \defgroup group_system_config_macro Macro
* \{
* \defgroup group_system_config_system_macro System
* \defgroup group_system_config_cm4_status_macro Cortex-M4 Status
* \defgroup group_system_config_user_settings_macro User Settings
* \}
* \defgroup group_system_config_functions Functions
* \{
* \defgroup group_system_config_system_functions System
* \defgroup group_system_config_cm4_functions Cortex-M4 Control
* \}
* \defgroup group_system_config_globals Global Variables
*
* \}
*/
/**
* \addtogroup group_system_config_system_functions
* \{
* \details
* The following system functions implement CMSIS Core functions.
* Refer to the [CMSIS documentation]
* (http://www.keil.com/pack/doc/CMSIS/Core/html/group__system__init__gr.html "System and Clock Configuration")
* for more details.
* \}
*/
#ifdef __cplusplus
extern "C" {
#endif
/*******************************************************************************
* Include files
*******************************************************************************/
#include <stdint.h>
/*******************************************************************************
* Global preprocessor symbols/macros ('define')
*******************************************************************************/
#if ((defined(__GNUC__) && (__ARM_ARCH == 6) && (__ARM_ARCH_6M__ == 1)) || \
(defined (__ICCARM__) && (__CORE__ == __ARM6M__)) || \
(defined(__ARMCC_VERSION) && (__TARGET_ARCH_THUMB == 3)))
#define CY_SYSTEM_CPU_CM0P 1UL
#else
#define CY_SYSTEM_CPU_CM0P 0UL
#endif
/*******************************************************************************
*
* START OF USER SETTINGS HERE
* ===========================
*
* All lines with '<<<' can be set by user.
*
*******************************************************************************/
/**
* \addtogroup group_system_config_user_settings_macro
* \{
*/
/***************************************************************************//**
* \brief Start address of the Cortex-M4 application ([address]UL)
* <i>(USER SETTING)</i>
*******************************************************************************/
#if !defined (CY_CORTEX_M4_APPL_ADDR)
#define CY_CORTEX_M4_APPL_ADDR (CY_FLASH_BASE + 0x2000U) /* <<< 8 kB of flash is reserved for the Cortex-M0+ application */
#endif /* (CY_CORTEX_M4_APPL_ADDR) */
/***************************************************************************//**
* \brief IPC Semaphores allocation ([value]UL).
* <i>(USER SETTING)</i>
*******************************************************************************/
#define CY_IPC_SEMA_COUNT (128UL) /* <<< This will allow 128 (4*32) semaphores */
/***************************************************************************//**
* \brief IPC Pipe definitions ([value]UL).
* <i>(USER SETTING)</i>
*******************************************************************************/
#define CY_IPC_MAX_ENDPOINTS (8UL) /* <<< 8 endpoints */
/*******************************************************************************
*
* END OF USER SETTINGS HERE
* =========================
*
*******************************************************************************/
/** \} group_system_config_user_settings_macro */
/**
* \addtogroup group_system_config_system_macro
* \{
*/
#if (CY_SYSTEM_CPU_CM0P == 1UL) || defined(CY_DOXYGEN)
/** The Cortex-M0+ startup driver identifier */
#define CY_STARTUP_M0P_ID ((uint32_t)((uint32_t)((0x0EU) & 0x3FFFU) << 18U))
#endif /* (CY_SYSTEM_CPU_CM0P == 1UL) */
#if (CY_SYSTEM_CPU_CM0P != 1UL) || defined(CY_DOXYGEN)
/** The Cortex-M4 startup driver identifier */
#define CY_STARTUP_M4_ID ((uint32_t)((uint32_t)((0x0FU) & 0x3FFFU) << 18U))
#endif /* (CY_SYSTEM_CPU_CM0P != 1UL) */
/** \} group_system_config_system_macro */
/**
* \addtogroup group_system_config_system_functions
* \{
*/
extern void SystemInit(void);
extern void SystemCoreClockUpdate(void);
/** \} group_system_config_system_functions */
/**
* \addtogroup group_system_config_cm4_functions
* \{
*/
extern uint32_t Cy_SysGetCM4Status(void);
extern void Cy_SysEnableCM4(uint32_t vectorTableOffset);
extern void Cy_SysDisableCM4(void);
extern void Cy_SysRetainCM4(void);
extern void Cy_SysResetCM4(void);
/** \} group_system_config_cm4_functions */
/** \cond */
extern void Default_Handler (void);
void Cy_SysIpcPipeIsrCm0(void);
void Cy_SysIpcPipeIsrCm4(void);
extern void Cy_SystemInit(void);
extern void Cy_SystemInitFpuEnable(void);
extern uint32_t cy_delayFreqKhz;
extern uint8_t cy_delayFreqMhz;
extern uint32_t cy_delay32kMs;
/** \endcond */
#if (CY_SYSTEM_CPU_CM0P == 1UL) || defined(CY_DOXYGEN)
/**
* \addtogroup group_system_config_cm4_status_macro
* \{
*/
#define CY_SYS_CM4_STATUS_ENABLED (3U) /**< The Cortex-M4 core is enabled: power on, clock on, no isolate, no reset and no retain. */
#define CY_SYS_CM4_STATUS_DISABLED (0U) /**< The Cortex-M4 core is disabled: power off, clock off, isolate, reset and no retain. */
#define CY_SYS_CM4_STATUS_RETAINED (2U) /**< The Cortex-M4 core is retained. power off, clock off, isolate, no reset and retain. */
#define CY_SYS_CM4_STATUS_RESET (1U) /**< The Cortex-M4 core is in the Reset mode: clock off, no isolated, no retain and reset. */
/** \} group_system_config_cm4_status_macro */
#endif /* (CY_SYSTEM_CPU_CM0P == 1UL) */
/*******************************************************************************
* IPC Configuration
* =========================
*******************************************************************************/
/* IPC CY_PIPE default configuration */
#define CY_SYS_CYPIPE_CLIENT_CNT (8UL)
#define CY_SYS_INTR_CYPIPE_MUX_EP0 (1UL) /* IPC CYPRESS PIPE */
#define CY_SYS_INTR_CYPIPE_PRIOR_EP0 (1UL) /* Notifier Priority */
#define CY_SYS_INTR_CYPIPE_PRIOR_EP1 (1UL) /* Notifier Priority */
#define CY_SYS_CYPIPE_CHAN_MASK_EP0 (0x0001UL << CY_IPC_CHAN_CYPIPE_EP0)
#define CY_SYS_CYPIPE_CHAN_MASK_EP1 (0x0001UL << CY_IPC_CHAN_CYPIPE_EP1)
/******************************************************************************/
/*
* The System pipe configuration defines the IPC channel number, interrupt
* number, and the pipe interrupt mask for the endpoint.
*
* The format of the endPoint configuration
* Bits[31:16] Interrupt Mask
* Bits[15:8 ] IPC interrupt
* Bits[ 7:0 ] IPC channel
*/
/* System Pipe addresses */
/* CyPipe defines */
#define CY_SYS_CYPIPE_INTR_MASK ( CY_SYS_CYPIPE_CHAN_MASK_EP0 | CY_SYS_CYPIPE_CHAN_MASK_EP1 )
#define CY_SYS_CYPIPE_CONFIG_EP0 ( (CY_SYS_CYPIPE_INTR_MASK << CY_IPC_PIPE_CFG_IMASK_Pos) \
| (CY_IPC_INTR_CYPIPE_EP0 << CY_IPC_PIPE_CFG_INTR_Pos) \
| CY_IPC_CHAN_CYPIPE_EP0)
#define CY_SYS_CYPIPE_CONFIG_EP1 ( (CY_SYS_CYPIPE_INTR_MASK << CY_IPC_PIPE_CFG_IMASK_Pos) \
| (CY_IPC_INTR_CYPIPE_EP1 << CY_IPC_PIPE_CFG_INTR_Pos) \
| CY_IPC_CHAN_CYPIPE_EP1)
/******************************************************************************/
/** \addtogroup group_system_config_globals
* \{
*/
extern uint32_t SystemCoreClock;
extern uint32_t cy_BleEcoClockFreqHz;
extern uint32_t cy_Hfclk0FreqHz;
extern uint32_t cy_PeriClkFreqHz;
/** \} group_system_config_globals */
/** \cond INTERNAL */
/*******************************************************************************
* Backward compatibility macros. The following code is DEPRECATED and must
* not be used in new projects
*******************************************************************************/
/* BWC defines for functions related to enter/exit critical section */
#define Cy_SaveIRQ Cy_SysLib_EnterCriticalSection
#define Cy_RestoreIRQ Cy_SysLib_ExitCriticalSection
#define CY_SYS_INTR_CYPIPE_EP0 (CY_IPC_INTR_CYPIPE_EP0)
#define CY_SYS_INTR_CYPIPE_EP1 (CY_IPC_INTR_CYPIPE_EP1)
#define cy_delayFreqHz (SystemCoreClock)
/** \endcond */
#ifdef __cplusplus
}
#endif
#endif /* _SYSTEM_PSOC6_H_ */
/* [] END OF FILE */

32
targets/targets.json
View File

@ -8864,38 +8864,6 @@
],
"bootloader_supported": false
},
"CY8CPROTO_063_BLE": {
"inherits": [
"MCU_PSOC6_M4"
],
"components_remove": [
"QSPIF"
],
"device_has_remove": [
"USBDEVICE",
"QSPI"
],
"extra_labels_add": [
"PSOC6_01",
"MXCRYPTO_01"
],
"macros_add": [
"CYBLE_416045_02"
],
"device_name": "CYBLE-416045-02",
"mbed_ram_start": "0x08002000",
"mbed_ram_size": "0x00045800",
"detect_code": [
"1904"
],
"sectors": [
[
268443648,
512
]
],
"bootloader_supported": false
},
"CY8CPROTO_064_SB": {
"inherits": [
"MCU_PSOC6_M4"