diff options
Diffstat (limited to 'drivers/mxc/dam/dam.c')
-rw-r--r-- | drivers/mxc/dam/dam.c | 427 |
1 files changed, 427 insertions, 0 deletions
diff --git a/drivers/mxc/dam/dam.c b/drivers/mxc/dam/dam.c new file mode 100644 index 000000000000..76ce04e7f171 --- /dev/null +++ b/drivers/mxc/dam/dam.c @@ -0,0 +1,427 @@ +/* + * Copyright 2004-2010 Freescale Semiconductor, Inc. All Rights Reserved. + */ + +/* + * The code contained herein is licensed under the GNU General Public + * License. You may obtain a copy of the GNU General Public License + * Version 2 or later at the following locations: + * + * http://www.opensource.org/licenses/gpl-license.html + * http://www.gnu.org/copyleft/gpl.html + */ + +/*! + * @file dam.c + * @brief This is the brief documentation for this dam.c file. + * + * This file contains the implementation of the DAM driver main services + * + * @ingroup DAM + */ + +#include <linux/kernel.h> +#include <linux/module.h> +#include <linux/init.h> +#include <linux/slab.h> +#include <asm/uaccess.h> +#include "dam.h" + +/*! + * This include to define bool type, false and true definitions. + */ +#include <mach/hardware.h> + +#define ModifyRegister32(a, b, c) (c = (((c)&(~(a))) | (b))) + +#define DAM_VIRT_BASE_ADDR IO_ADDRESS(AUDMUX_BASE_ADDR) + +#ifndef _reg_DAM_PTCR1 +#define _reg_DAM_PTCR1 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x00))) +#endif + +#ifndef _reg_DAM_PDCR1 +#define _reg_DAM_PDCR1 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x04))) +#endif + +#ifndef _reg_DAM_PTCR2 +#define _reg_DAM_PTCR2 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x08))) +#endif + +#ifndef _reg_DAM_PDCR2 +#define _reg_DAM_PDCR2 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x0C))) +#endif + +#ifndef _reg_DAM_PTCR3 +#define _reg_DAM_PTCR3 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x10))) +#endif + +#ifndef _reg_DAM_PDCR3 +#define _reg_DAM_PDCR3 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x14))) +#endif + +#ifndef _reg_DAM_PTCR4 +#define _reg_DAM_PTCR4 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x18))) +#endif + +#ifndef _reg_DAM_PDCR4 +#define _reg_DAM_PDCR4 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x1C))) +#endif + +#ifndef _reg_DAM_PTCR5 +#define _reg_DAM_PTCR5 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x20))) +#endif + +#ifndef _reg_DAM_PDCR5 +#define _reg_DAM_PDCR5 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x24))) +#endif + +#ifndef _reg_DAM_PTCR6 +#define _reg_DAM_PTCR6 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x28))) +#endif + +#ifndef _reg_DAM_PDCR6 +#define _reg_DAM_PDCR6 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x2C))) +#endif + +#ifndef _reg_DAM_PTCR7 +#define _reg_DAM_PTCR7 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x30))) +#endif + +#ifndef _reg_DAM_PDCR7 +#define _reg_DAM_PDCR7 (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x34))) +#endif + +#ifndef _reg_DAM_CNMCR +#define _reg_DAM_CNMCR (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 0x38))) +#endif + +#ifndef _reg_DAM_PTCR +#define _reg_DAM_PTCR(a) (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + a*8))) +#endif + +#ifndef _reg_DAM_PDCR +#define _reg_DAM_PDCR(a) (*((volatile unsigned long *) \ + (DAM_VIRT_BASE_ADDR + 4 + a*8))) +#endif + +/*! + * PTCR Registers bit shift definitions + */ +#define dam_synchronous_mode_shift 11 +#define dam_receive_clock_select_shift 12 +#define dam_receive_clock_direction_shift 16 +#define dam_receive_frame_sync_select_shift 17 +#define dam_receive_frame_sync_direction_shift 21 +#define dam_transmit_clock_select_shift 22 +#define dam_transmit_clock_direction_shift 26 +#define dam_transmit_frame_sync_select_shift 27 +#define dam_transmit_frame_sync_direction_shift 31 +#define dam_selection_mask 0xF + +/*! + * HPDCR Register bit shift definitions + */ +#define dam_internal_network_mode_shift 0 +#define dam_mode_shift 8 +#define dam_transmit_receive_switch_shift 12 +#define dam_receive_data_select_shift 13 + +/*! + * HPDCR Register bit masq definitions + */ +#define dam_mode_masq 0x03 +#define dam_internal_network_mode_mask 0xFF + +/*! + * CNMCR Register bit shift definitions + */ +#define dam_ce_bus_port_cntlow_shift 0 +#define dam_ce_bus_port_cnthigh_shift 8 +#define dam_ce_bus_port_clkpol_shift 16 +#define dam_ce_bus_port_fspol_shift 17 +#define dam_ce_bus_port_enable_shift 18 + +#define DAM_NAME "dam" + +EXPORT_SYMBOL(dam_select_mode); +EXPORT_SYMBOL(dam_select_RxClk_direction); +EXPORT_SYMBOL(dam_select_RxClk_source); +EXPORT_SYMBOL(dam_select_RxD_source); +EXPORT_SYMBOL(dam_select_RxFS_direction); +EXPORT_SYMBOL(dam_select_RxFS_source); +EXPORT_SYMBOL(dam_select_TxClk_direction); +EXPORT_SYMBOL(dam_select_TxClk_source); +EXPORT_SYMBOL(dam_select_TxFS_direction); +EXPORT_SYMBOL(dam_select_TxFS_source); +EXPORT_SYMBOL(dam_set_internal_network_mode_mask); +EXPORT_SYMBOL(dam_set_synchronous); +EXPORT_SYMBOL(dam_switch_Tx_Rx); +EXPORT_SYMBOL(dam_reset_register); + +/*! + * This function selects the operation mode of the port. + * + * @param port the DAM port to configure + * @param the_mode the operation mode of the port + * + * @return This function returns the result of the operation + * (0 if successful, -1 otherwise). + */ +int dam_select_mode(dam_port port, dam_mode the_mode) +{ + int result; + result = 0; + + ModifyRegister32(dam_mode_masq << dam_mode_shift, + the_mode << dam_mode_shift, _reg_DAM_PDCR(port)); + + return result; +} + +/*! + * This function controls Receive clock signal direction for the port. + * + * @param port the DAM port to configure + * @param direction the Rx clock signal direction + */ +void dam_select_RxClk_direction(dam_port port, signal_direction direction) +{ + ModifyRegister32(1 << dam_receive_clock_direction_shift, + direction << dam_receive_clock_direction_shift, + _reg_DAM_PTCR(port)); +} + +/*! + * This function controls Receive clock signal source for the port. + * + * @param p_config the DAM port to configure + * @param from_RxClk the signal comes from RxClk or TxClk of + * the source port + * @param p_source the source port + */ +void dam_select_RxClk_source(dam_port p_config, + bool from_RxClk, dam_port p_source) +{ + ModifyRegister32(dam_selection_mask << dam_receive_clock_select_shift, + ((from_RxClk << 3) | p_source) << + dam_receive_clock_select_shift, + _reg_DAM_PTCR(p_config)); +} + +/*! + * This function selects the source port for the RxD data. + * + * @param p_config the DAM port to configure + * @param p_source the source port + */ +void dam_select_RxD_source(dam_port p_config, dam_port p_source) +{ + ModifyRegister32(dam_selection_mask << dam_receive_data_select_shift, + p_source << dam_receive_data_select_shift, + _reg_DAM_PDCR(p_config)); +} + +/*! + * This function controls Receive Frame Sync signal direction for the port. + * + * @param port the DAM port to configure + * @param direction the Rx Frame Sync signal direction + */ +void dam_select_RxFS_direction(dam_port port, signal_direction direction) +{ + ModifyRegister32(1 << dam_receive_frame_sync_direction_shift, + direction << dam_receive_frame_sync_direction_shift, + _reg_DAM_PTCR(port)); +} + +/*! + * This function controls Receive Frame Sync signal source for the port. + * + * @param p_config the DAM port to configure + * @param from_RxFS the signal comes from RxFS or TxFS of + * the source port + * @param p_source the source port + */ +void dam_select_RxFS_source(dam_port p_config, + bool from_RxFS, dam_port p_source) +{ + ModifyRegister32(dam_selection_mask << + dam_receive_frame_sync_select_shift, + ((from_RxFS << 3) | p_source) << + dam_receive_frame_sync_select_shift, + _reg_DAM_PTCR(p_config)); +} + +/*! + * This function controls Transmit clock signal direction for the port. + * + * @param port the DAM port to configure + * @param direction the Tx clock signal direction + */ +void dam_select_TxClk_direction(dam_port port, signal_direction direction) +{ + ModifyRegister32(1 << dam_transmit_clock_direction_shift, + direction << dam_transmit_clock_direction_shift, + _reg_DAM_PTCR(port)); +} + +/*! + * This function controls Transmit clock signal source for the port. + * + * @param p_config the DAM port to configure + * @param from_RxClk the signal comes from RxClk or TxClk of + * the source port + * @param p_source the source port + */ +void dam_select_TxClk_source(dam_port p_config, + bool from_RxClk, dam_port p_source) +{ + ModifyRegister32(dam_selection_mask << dam_transmit_clock_select_shift, + ((from_RxClk << 3) | p_source) << + dam_transmit_clock_select_shift, + _reg_DAM_PTCR(p_config)); +} + +/*! + * This function controls Transmit Frame Sync signal direction for the port. + * + * @param port the DAM port to configure + * @param direction the Tx Frame Sync signal direction + */ +void dam_select_TxFS_direction(dam_port port, signal_direction direction) +{ + ModifyRegister32(1 << dam_transmit_frame_sync_direction_shift, + direction << dam_transmit_frame_sync_direction_shift, + _reg_DAM_PTCR(port)); +} + +/*! + * This function controls Transmit Frame Sync signal source for the port. + * + * @param p_config the DAM port to configure + * @param from_RxFS the signal comes from RxFS or TxFS of + * the source port + * @param p_source the source port + */ +void dam_select_TxFS_source(dam_port p_config, + bool from_RxFS, dam_port p_source) +{ + ModifyRegister32(dam_selection_mask << + dam_transmit_frame_sync_select_shift, + ((from_RxFS << 3) | p_source) << + dam_transmit_frame_sync_select_shift, + _reg_DAM_PTCR(p_config)); +} + +/*! + * This function sets a bit mask that selects the port from which of the RxD + * signals are to be ANDed together for internal network mode. + * Bit 6 represents RxD from Port7 and bit0 represents RxD from Port1. + * 1 excludes RxDn from ANDing. 0 includes RxDn for ANDing. + * + * @param port the DAM port to configure + * @param bit_mask the bit mask + * + * @return This function returns the result of the operation + * (0 if successful, -1 otherwise). + */ +int dam_set_internal_network_mode_mask(dam_port port, unsigned char bit_mask) +{ + int result; + result = 0; + + ModifyRegister32(dam_internal_network_mode_mask << + dam_internal_network_mode_shift, + bit_mask << dam_internal_network_mode_shift, + _reg_DAM_PDCR(port)); + + return result; +} + +/*! + * This function controls whether or not the port is in synchronous mode. + * When the synchronous mode is selected, the receive and the transmit sections + * use common clock and frame sync signals. + * When the synchronous mode is not selected, separate clock and frame sync + * signals are used for the transmit and the receive sections. + * The defaut value is the synchronous mode selected. + * + * @param port the DAM port to configure + * @param synchronous the state to assign + */ +void dam_set_synchronous(dam_port port, bool synchronous) +{ + ModifyRegister32(1 << dam_synchronous_mode_shift, + synchronous << dam_synchronous_mode_shift, + _reg_DAM_PTCR(port)); +} + +/*! + * This function swaps the transmit and receive signals from (Da-TxD, Db-RxD) + * to (Da-RxD, Db-TxD). + * This default signal configuration is Da-TxD, Db-RxD. + * + * @param port the DAM port to configure + * @param value the switch state + */ +void dam_switch_Tx_Rx(dam_port port, bool value) +{ + ModifyRegister32(1 << dam_transmit_receive_switch_shift, + value << dam_transmit_receive_switch_shift, + _reg_DAM_PDCR(port)); +} + +/*! + * This function resets the two registers of the selected port. + * + * @param port the DAM port to reset + */ +void dam_reset_register(dam_port port) +{ + ModifyRegister32(0xFFFFFFFF, 0x00000000, _reg_DAM_PTCR(port)); + ModifyRegister32(0xFFFFFFFF, 0x00000000, _reg_DAM_PDCR(port)); +} + +/*! + * This function implements the init function of the DAM device. + * This function is called when the module is loaded. + * + * @return This function returns 0. + */ +static int __init dam_init(void) +{ + return 0; +} + +/*! + * This function implements the exit function of the SPI device. + * This function is called when the module is unloaded. + * + */ +static void __exit dam_exit(void) +{ +} + +module_init(dam_init); +module_exit(dam_exit); + +MODULE_DESCRIPTION("DAM char device driver"); +MODULE_AUTHOR("Freescale Semiconductor, Inc."); +MODULE_LICENSE("GPL"); |