openwifi/driver/tx_intf/tx_intf.c

/*
 * axi lite register access driver
 * Xianjun jiao. putaoshu@msn.com; xianjun.jiao@imec.be
 */

#include <linux/bitops.h>
#include <linux/dmapool.h>
#include <linux/dma/xilinx_dma.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/io.h>
#include <linux/iopoll.h>
#include <linux/module.h>
#include <linux/of_address.h>
#include <linux/of_dma.h>
#include <linux/of_platform.h>
#include <linux/of_irq.h>
#include <linux/slab.h>
#include <linux/clk.h>
#include <linux/io-64-nonatomic-lo-hi.h>

#include "../hw_def.h"

static void __iomem *base_addr; // to store driver specific base address needed for mmu to translate virtual address to physical address in our FPGA design

/* IO accessors */
static inline u32 reg_read(u32 reg)
{
	return ioread32(base_addr + reg);
}

static inline void reg_write(u32 reg, u32 value)
{
	iowrite32(value, base_addr + reg);
}

static inline u32 TX_INTF_REG_MULTI_RST_read(void){
	return reg_read(TX_INTF_REG_MULTI_RST_ADDR);
}

static inline u32 TX_INTF_REG_MIXER_CFG_read(void){
	return reg_read(TX_INTF_REG_MIXER_CFG_ADDR);
}

static inline u32 TX_INTF_REG_WIFI_TX_MODE_read(void){
	return reg_read(TX_INTF_REG_WIFI_TX_MODE_ADDR);
}

static inline u32 TX_INTF_REG_IQ_SRC_SEL_read(void){
	return reg_read(TX_INTF_REG_IQ_SRC_SEL_ADDR);
}

static inline u32 TX_INTF_REG_CTS_TOSELF_CONFIG_read(void){
	return reg_read(TX_INTF_REG_CTS_TOSELF_CONFIG_ADDR);
}

static inline u32 TX_INTF_REG_START_TRANS_TO_PS_MODE_read(void){
	return reg_read(TX_INTF_REG_START_TRANS_TO_PS_MODE_ADDR);
}

static inline u32 TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read(void){
	return reg_read(TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_ADDR);
}

static inline u32 TX_INTF_REG_MISC_SEL_read(void){
	return reg_read(TX_INTF_REG_MISC_SEL_ADDR);
}

static inline u32 TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read(void){
	return reg_read(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_ADDR);
}

static inline u32 TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read(void){
	return reg_read(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_ADDR);
}

static inline u32 TX_INTF_REG_CFG_DATA_TO_ANT_read(void){
	return reg_read(TX_INTF_REG_CFG_DATA_TO_ANT_ADDR);
}

static inline u32 TX_INTF_REG_S_AXIS_FIFO_TH_read(void){
	return reg_read(TX_INTF_REG_S_AXIS_FIFO_TH_ADDR);
}

static inline u32 TX_INTF_REG_TX_HOLD_THRESHOLD_read(void){
	return reg_read(TX_INTF_REG_TX_HOLD_THRESHOLD_ADDR);
}

static inline u32 TX_INTF_REG_INTERRUPT_SEL_read(void){
	return reg_read(TX_INTF_REG_INTERRUPT_SEL_ADDR);
}

static inline u32 TX_INTF_REG_BB_GAIN_read(void){
	return reg_read(TX_INTF_REG_BB_GAIN_ADDR);
}

static inline u32 TX_INTF_REG_ANT_SEL_read(void){
	return reg_read(TX_INTF_REG_ANT_SEL_ADDR);
}

static inline u32 TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read(void){
	return reg_read(TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_ADDR);
}

static inline u32 TX_INTF_REG_PKT_INFO_read(void){
	return reg_read(TX_INTF_REG_PKT_INFO_ADDR);
}

static inline u32 TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read(void){
	return reg_read(TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_ADDR);
}

//--------------------------------------------------------

static inline void TX_INTF_REG_MULTI_RST_write(u32 value){
	reg_write(TX_INTF_REG_MULTI_RST_ADDR, value);
}

static inline void TX_INTF_REG_MIXER_CFG_write(u32 value){
	reg_write(TX_INTF_REG_MIXER_CFG_ADDR, value);
}

static inline void TX_INTF_REG_WIFI_TX_MODE_write(u32 value){
	reg_write(TX_INTF_REG_WIFI_TX_MODE_ADDR, value);
}

static inline void TX_INTF_REG_IQ_SRC_SEL_write(u32 value){
	reg_write(TX_INTF_REG_IQ_SRC_SEL_ADDR, value);
}

static inline void TX_INTF_REG_CTS_TOSELF_CONFIG_write(u32 value){
	reg_write(TX_INTF_REG_CTS_TOSELF_CONFIG_ADDR, value);
}

static inline void TX_INTF_REG_START_TRANS_TO_PS_MODE_write(u32 value){
	reg_write(TX_INTF_REG_START_TRANS_TO_PS_MODE_ADDR, value);
}

static inline void TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write(u32 value){
	reg_write(TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_ADDR, value);
}

static inline void TX_INTF_REG_MISC_SEL_write(u32 value){
	reg_write(TX_INTF_REG_MISC_SEL_ADDR, value);
}

static inline void TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write(u32 value){
	reg_write(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_ADDR, value);
}

static inline void TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write(u32 value){
	reg_write(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_ADDR, value);
}

static inline void TX_INTF_REG_CFG_DATA_TO_ANT_write(u32 value){
	reg_write(TX_INTF_REG_CFG_DATA_TO_ANT_ADDR, value);
}

static inline void TX_INTF_REG_S_AXIS_FIFO_TH_write(u32 value){
	reg_write(TX_INTF_REG_S_AXIS_FIFO_TH_ADDR, value);
}

static inline void TX_INTF_REG_TX_HOLD_THRESHOLD_write(u32 value){
	reg_write(TX_INTF_REG_TX_HOLD_THRESHOLD_ADDR, value);
}

static inline void TX_INTF_REG_INTERRUPT_SEL_write(u32 value){
	reg_write(TX_INTF_REG_INTERRUPT_SEL_ADDR, value);
}

static inline void TX_INTF_REG_BB_GAIN_write(u32 value){
	reg_write(TX_INTF_REG_BB_GAIN_ADDR, value);
}

static inline void TX_INTF_REG_ANT_SEL_write(u32 value){
	reg_write(TX_INTF_REG_ANT_SEL_ADDR, value);
}

static inline void TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write(u32 value){
	reg_write(TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_ADDR, value);
}

static inline void TX_INTF_REG_PKT_INFO_write(u32 value){
	reg_write(TX_INTF_REG_PKT_INFO_ADDR,value);
}

static const struct of_device_id dev_of_ids[] = {
	{ .compatible = "sdr,tx_intf", },
	{}
};
MODULE_DEVICE_TABLE(of, dev_of_ids);

static struct tx_intf_driver_api tx_intf_driver_api_inst;
static struct tx_intf_driver_api *tx_intf_api = &tx_intf_driver_api_inst;
EXPORT_SYMBOL(tx_intf_api);

static inline u32 hw_init(enum tx_intf_mode mode, u32 num_dma_symbol_to_pl, u32 num_dma_symbol_to_ps){
	int err=0, i;
	u32 mixer_cfg=0, duc_input_ch_sel = 0, ant_sel=0;

	printk("%s hw_init mode %d\n", tx_intf_compatible_str, mode);

	//rst
	for (i=0;i<8;i++)
		tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);
	for (i=0;i<32;i++)
		tx_intf_api->TX_INTF_REG_MULTI_RST_write(0xFFFFFFFF);
	for (i=0;i<8;i++)
		tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);

	tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_TH_write(4096-200); // when only 200 DMA symbol room left in fifo, stop Linux queue
	switch(mode)
	{
		case TX_INTF_AXIS_LOOP_BACK:
			tx_intf_api->TX_INTF_REG_MISC_SEL_write(0<<1);// bit1: 0-connect dac to ADI dma; 1-connect dac to our intf
			printk("%s hw_init mode TX_INTF_AXIS_LOOP_BACK\n", tx_intf_compatible_str);
			break;

		case TX_INTF_BW_20MHZ_AT_0MHZ_ANT0:
			printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_0MHZ_ANT0\n", tx_intf_compatible_str);
			mixer_cfg = 0x2001F400;
			duc_input_ch_sel = 0;
			ant_sel=1;
			break;

		case TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0:
			printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0\n", tx_intf_compatible_str);
			mixer_cfg = 0x2001F602;
			duc_input_ch_sel = 0;
			ant_sel=1;
			break;

		case TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT0:
			printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT0\n", tx_intf_compatible_str);
			mixer_cfg = 0x200202F6;
			duc_input_ch_sel = 0;
			ant_sel=1;
			break;

		case TX_INTF_BW_20MHZ_AT_0MHZ_ANT1:
			printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_0MHZ_ANT1\n", tx_intf_compatible_str);
			mixer_cfg = 0x2001F400;
			duc_input_ch_sel = 0;
			ant_sel=2;
			break;

		case TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1:
			printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1\n", tx_intf_compatible_str);
			mixer_cfg = 0x2001F602;
			duc_input_ch_sel = 0;
			ant_sel=2;
			break;

		case TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1:
			printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1\n", tx_intf_compatible_str);
			mixer_cfg = 0x200202F6;
			duc_input_ch_sel = 0;
			ant_sel=2;
			break;

		case TX_INTF_BYPASS:
			printk("%s hw_init mode TX_INTF_BYPASS\n", tx_intf_compatible_str);
			mixer_cfg = 0x200202F6;
			duc_input_ch_sel = 0;
			ant_sel=2;
			break;
		
		default:
			printk("%s hw_init mode %d is wrong!\n", tx_intf_compatible_str, mode);
			err=1;
	}

	if (mode!=TX_INTF_AXIS_LOOP_BACK) {
		tx_intf_api->TX_INTF_REG_MISC_SEL_write(1<<1);// bit1: 0-connect dac to ADI dma; 1-connect dac to our intf

		tx_intf_api->TX_INTF_REG_MIXER_CFG_write(mixer_cfg);
		tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);
		tx_intf_api->TX_INTF_REG_IQ_SRC_SEL_write(duc_input_ch_sel);
		tx_intf_api->TX_INTF_REG_START_TRANS_TO_PS_MODE_write(2);
		tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write( ((16*10)<<16)|(10*10) );//high 16bit 5GHz; low 16 bit 2.4GHz. counter speed 10MHz is assumed

		tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write(num_dma_symbol_to_pl);
		tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write(num_dma_symbol_to_ps);
		tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_write(0);
		tx_intf_api->TX_INTF_REG_TX_HOLD_THRESHOLD_write(420);
		tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x4F); //.src_sel0(slv_reg14[2:0]), .src_sel1(slv_reg14[6:4]), 0-s00_axis_tlast,1-ap_start,2-tx_start_from_acc,3-tx_end_from_acc,4-xpu signal
		tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x3004F); //disable interrupt
		tx_intf_api->TX_INTF_REG_BB_GAIN_write(100);
		tx_intf_api->TX_INTF_REG_ANT_SEL_write(ant_sel);
		tx_intf_api->TX_INTF_REG_WIFI_TX_MODE_write((1<<3)|(2<<4));
		tx_intf_api->TX_INTF_REG_MULTI_RST_write(0x434);
		tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);
	}

	if (mode == TX_INTF_BYPASS) {
		tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_write(0x100); //slv_reg10[8]
	}

	printk("%s hw_init err %d\n", tx_intf_compatible_str, err);
	return(err);
}

static int dev_probe(struct platform_device *pdev)
{
	struct device_node *np = pdev->dev.of_node;
	struct resource *io;
	int err=1;

	printk("\n");

	if (np) {
		const struct of_device_id *match;

		match = of_match_node(dev_of_ids, np);
		if (match) {
			printk("%s dev_probe match!\n", tx_intf_compatible_str);
			err = 0;
		}
	}

	if (err)
		return err;

	tx_intf_api->hw_init=hw_init;

	tx_intf_api->reg_read=reg_read;
	tx_intf_api->reg_write=reg_write;

	tx_intf_api->TX_INTF_REG_MULTI_RST_read=TX_INTF_REG_MULTI_RST_read;
	tx_intf_api->TX_INTF_REG_MIXER_CFG_read=TX_INTF_REG_MIXER_CFG_read;
	tx_intf_api->TX_INTF_REG_WIFI_TX_MODE_read=TX_INTF_REG_WIFI_TX_MODE_read;
	tx_intf_api->TX_INTF_REG_IQ_SRC_SEL_read=TX_INTF_REG_IQ_SRC_SEL_read;
	tx_intf_api->TX_INTF_REG_CTS_TOSELF_CONFIG_read=TX_INTF_REG_CTS_TOSELF_CONFIG_read;
	tx_intf_api->TX_INTF_REG_START_TRANS_TO_PS_MODE_read=TX_INTF_REG_START_TRANS_TO_PS_MODE_read;
	tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read=TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read;
	tx_intf_api->TX_INTF_REG_MISC_SEL_read=TX_INTF_REG_MISC_SEL_read;
	tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read;
	tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read;
	tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_read=TX_INTF_REG_CFG_DATA_TO_ANT_read;
	tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_TH_read=TX_INTF_REG_S_AXIS_FIFO_TH_read;
	tx_intf_api->TX_INTF_REG_TX_HOLD_THRESHOLD_read=TX_INTF_REG_TX_HOLD_THRESHOLD_read;
	tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_read=TX_INTF_REG_INTERRUPT_SEL_read;
	tx_intf_api->TX_INTF_REG_BB_GAIN_read=TX_INTF_REG_BB_GAIN_read;
	tx_intf_api->TX_INTF_REG_ANT_SEL_read=TX_INTF_REG_ANT_SEL_read;
	tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read=TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read;
	tx_intf_api->TX_INTF_REG_PKT_INFO_read=TX_INTF_REG_PKT_INFO_read;
	tx_intf_api->TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read=TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read;

	tx_intf_api->TX_INTF_REG_MULTI_RST_write=TX_INTF_REG_MULTI_RST_write;
	tx_intf_api->TX_INTF_REG_MIXER_CFG_write=TX_INTF_REG_MIXER_CFG_write;
	tx_intf_api->TX_INTF_REG_WIFI_TX_MODE_write=TX_INTF_REG_WIFI_TX_MODE_write;
	tx_intf_api->TX_INTF_REG_IQ_SRC_SEL_write=TX_INTF_REG_IQ_SRC_SEL_write;
	tx_intf_api->TX_INTF_REG_CTS_TOSELF_CONFIG_write=TX_INTF_REG_CTS_TOSELF_CONFIG_write;
	tx_intf_api->TX_INTF_REG_START_TRANS_TO_PS_MODE_write=TX_INTF_REG_START_TRANS_TO_PS_MODE_write;
	tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write=TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write;
	tx_intf_api->TX_INTF_REG_MISC_SEL_write=TX_INTF_REG_MISC_SEL_write;
	tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write;
	tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write;
	tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_write=TX_INTF_REG_CFG_DATA_TO_ANT_write;
	tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_TH_write=TX_INTF_REG_S_AXIS_FIFO_TH_write;
	tx_intf_api->TX_INTF_REG_TX_HOLD_THRESHOLD_write=TX_INTF_REG_TX_HOLD_THRESHOLD_write;
	tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write=TX_INTF_REG_INTERRUPT_SEL_write;
	tx_intf_api->TX_INTF_REG_BB_GAIN_write=TX_INTF_REG_BB_GAIN_write;
	tx_intf_api->TX_INTF_REG_ANT_SEL_write=TX_INTF_REG_ANT_SEL_write;
	tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write=TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write;
	tx_intf_api->TX_INTF_REG_PKT_INFO_write=TX_INTF_REG_PKT_INFO_write;

	/* Request and map I/O memory */
	io = platform_get_resource(pdev, IORESOURCE_MEM, 0);
	base_addr = devm_ioremap_resource(&pdev->dev, io);
	if (IS_ERR(base_addr))
		return PTR_ERR(base_addr);

	printk("%s dev_probe io start 0x%08llx end 0x%08llx name %s flags 0x%08x desc 0x%08x\n", tx_intf_compatible_str,io->start,io->end,io->name,(u32)io->flags,(u32)io->desc);
	printk("%s dev_probe base_addr 0x%p\n", tx_intf_compatible_str,(void*)base_addr);
	printk("%s dev_probe tx_intf_driver_api_inst 0x%p\n", tx_intf_compatible_str, (void*)(&tx_intf_driver_api_inst) );
	printk("%s dev_probe             tx_intf_api 0x%p\n", tx_intf_compatible_str, (void*)tx_intf_api);

	printk("%s dev_probe succeed!\n", tx_intf_compatible_str);

	//err = hw_init(TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1, 8, 8);
	//err = hw_init(TX_INTF_BYPASS, 8, 8);
	err = hw_init(TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1, 8, 8); // make sure dac is connected to original ad9361 dma

	return err;
}

static int dev_remove(struct platform_device *pdev)
{
	printk("\n");

	printk("%s dev_remove base_addr 0x%p\n", tx_intf_compatible_str,(void*)base_addr);
	printk("%s dev_remove tx_intf_driver_api_inst 0x%p\n", tx_intf_compatible_str, (void*)(&tx_intf_driver_api_inst) );
	printk("%s dev_remove             tx_intf_api 0x%p\n", tx_intf_compatible_str, (void*)tx_intf_api);

	printk("%s dev_remove succeed!\n", tx_intf_compatible_str);
	return 0;
}

static struct platform_driver dev_driver = {
	.driver = {
		.name = "sdr,tx_intf",
		.owner = THIS_MODULE,
		.of_match_table = dev_of_ids,
	},
	.probe = dev_probe,
	.remove = dev_remove,
};

module_platform_driver(dev_driver);

MODULE_AUTHOR("Xianjun Jiao");
MODULE_DESCRIPTION("sdr,tx_intf");
MODULE_LICENSE("GPL v2");
initial commit 2019-12-10 13:03:47 +00:00			`/*`
			`* axi lite register access driver`
			`* Xianjun jiao. putaoshu@msn.com; xianjun.jiao@imec.be`
			`*/`

			`#include <linux/bitops.h>`
			`#include <linux/dmapool.h>`
			`#include <linux/dma/xilinx_dma.h>`
			`#include <linux/init.h>`
			`#include <linux/interrupt.h>`
			`#include <linux/io.h>`
			`#include <linux/iopoll.h>`
			`#include <linux/module.h>`
			`#include <linux/of_address.h>`
			`#include <linux/of_dma.h>`
			`#include <linux/of_platform.h>`
			`#include <linux/of_irq.h>`
			`#include <linux/slab.h>`
			`#include <linux/clk.h>`
			`#include <linux/io-64-nonatomic-lo-hi.h>`

			`#include "../hw_def.h"`

			`static void __iomem *base_addr; // to store driver specific base address needed for mmu to translate virtual address to physical address in our FPGA design`

			`/* IO accessors */`
			`static inline u32 reg_read(u32 reg)`
			`{`
			`return ioread32(base_addr + reg);`
			`}`

			`static inline void reg_write(u32 reg, u32 value)`
			`{`
			`iowrite32(value, base_addr + reg);`
			`}`

			`static inline u32 TX_INTF_REG_MULTI_RST_read(void){`
			`return reg_read(TX_INTF_REG_MULTI_RST_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_MIXER_CFG_read(void){`
			`return reg_read(TX_INTF_REG_MIXER_CFG_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_WIFI_TX_MODE_read(void){`
			`return reg_read(TX_INTF_REG_WIFI_TX_MODE_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_IQ_SRC_SEL_read(void){`
			`return reg_read(TX_INTF_REG_IQ_SRC_SEL_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_CTS_TOSELF_CONFIG_read(void){`
			`return reg_read(TX_INTF_REG_CTS_TOSELF_CONFIG_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_START_TRANS_TO_PS_MODE_read(void){`
			`return reg_read(TX_INTF_REG_START_TRANS_TO_PS_MODE_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read(void){`
			`return reg_read(TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_MISC_SEL_read(void){`
			`return reg_read(TX_INTF_REG_MISC_SEL_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read(void){`
			`return reg_read(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read(void){`
			`return reg_read(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_CFG_DATA_TO_ANT_read(void){`
			`return reg_read(TX_INTF_REG_CFG_DATA_TO_ANT_ADDR);`
			`}`

4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`static inline u32 TX_INTF_REG_S_AXIS_FIFO_TH_read(void){`
			`return reg_read(TX_INTF_REG_S_AXIS_FIFO_TH_ADDR);`
			`}`

prepare upgrade 2020-04-27 07:37:04 +00:00			`static inline u32 TX_INTF_REG_TX_HOLD_THRESHOLD_read(void){`
			`return reg_read(TX_INTF_REG_TX_HOLD_THRESHOLD_ADDR);`
			`}`

initial commit 2019-12-10 13:03:47 +00:00			`static inline u32 TX_INTF_REG_INTERRUPT_SEL_read(void){`
			`return reg_read(TX_INTF_REG_INTERRUPT_SEL_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_BB_GAIN_read(void){`
			`return reg_read(TX_INTF_REG_BB_GAIN_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_ANT_SEL_read(void){`
			`return reg_read(TX_INTF_REG_ANT_SEL_ADDR);`
			`}`

4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`static inline u32 TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read(void){`
			`return reg_read(TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_ADDR);`
initial commit 2019-12-10 13:03:47 +00:00			`}`

			`static inline u32 TX_INTF_REG_PKT_INFO_read(void){`
			`return reg_read(TX_INTF_REG_PKT_INFO_ADDR);`
			`}`

			`static inline u32 TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read(void){`
			`return reg_read(TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_ADDR);`
			`}`

			`//--------------------------------------------------------`

			`static inline void TX_INTF_REG_MULTI_RST_write(u32 value){`
			`reg_write(TX_INTF_REG_MULTI_RST_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_MIXER_CFG_write(u32 value){`
			`reg_write(TX_INTF_REG_MIXER_CFG_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_WIFI_TX_MODE_write(u32 value){`
			`reg_write(TX_INTF_REG_WIFI_TX_MODE_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_IQ_SRC_SEL_write(u32 value){`
			`reg_write(TX_INTF_REG_IQ_SRC_SEL_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_CTS_TOSELF_CONFIG_write(u32 value){`
			`reg_write(TX_INTF_REG_CTS_TOSELF_CONFIG_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_START_TRANS_TO_PS_MODE_write(u32 value){`
			`reg_write(TX_INTF_REG_START_TRANS_TO_PS_MODE_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write(u32 value){`
			`reg_write(TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_MISC_SEL_write(u32 value){`
			`reg_write(TX_INTF_REG_MISC_SEL_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write(u32 value){`
			`reg_write(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write(u32 value){`
			`reg_write(TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_CFG_DATA_TO_ANT_write(u32 value){`
			`reg_write(TX_INTF_REG_CFG_DATA_TO_ANT_ADDR, value);`
			`}`

4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`static inline void TX_INTF_REG_S_AXIS_FIFO_TH_write(u32 value){`
			`reg_write(TX_INTF_REG_S_AXIS_FIFO_TH_ADDR, value);`
			`}`

prepare upgrade 2020-04-27 07:37:04 +00:00			`static inline void TX_INTF_REG_TX_HOLD_THRESHOLD_write(u32 value){`
			`reg_write(TX_INTF_REG_TX_HOLD_THRESHOLD_ADDR, value);`
			`}`

initial commit 2019-12-10 13:03:47 +00:00			`static inline void TX_INTF_REG_INTERRUPT_SEL_write(u32 value){`
			`reg_write(TX_INTF_REG_INTERRUPT_SEL_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_BB_GAIN_write(u32 value){`
			`reg_write(TX_INTF_REG_BB_GAIN_ADDR, value);`
			`}`

			`static inline void TX_INTF_REG_ANT_SEL_write(u32 value){`
			`reg_write(TX_INTF_REG_ANT_SEL_ADDR, value);`
			`}`

4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`static inline void TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write(u32 value){`
			`reg_write(TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_ADDR, value);`
initial commit 2019-12-10 13:03:47 +00:00			`}`

			`static inline void TX_INTF_REG_PKT_INFO_write(u32 value){`
			`reg_write(TX_INTF_REG_PKT_INFO_ADDR,value);`
			`}`

			`static const struct of_device_id dev_of_ids[] = {`
			`{ .compatible = "sdr,tx_intf", },`
			`{}`
			`};`
			`MODULE_DEVICE_TABLE(of, dev_of_ids);`

			`static struct tx_intf_driver_api tx_intf_driver_api_inst;`
			`static struct tx_intf_driver_api *tx_intf_api = &tx_intf_driver_api_inst;`
			`EXPORT_SYMBOL(tx_intf_api);`

			`static inline u32 hw_init(enum tx_intf_mode mode, u32 num_dma_symbol_to_pl, u32 num_dma_symbol_to_ps){`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`int err=0, i;`
			`u32 mixer_cfg=0, duc_input_ch_sel = 0, ant_sel=0;`
initial commit 2019-12-10 13:03:47 +00:00
			`printk("%s hw_init mode %d\n", tx_intf_compatible_str, mode);`

4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`//rst`
			`for (i=0;i<8;i++)`
			`tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);`
			`for (i=0;i<32;i++)`
initial commit 2019-12-10 13:03:47 +00:00			`tx_intf_api->TX_INTF_REG_MULTI_RST_write(0xFFFFFFFF);`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`for (i=0;i<8;i++)`
			`tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);`
initial commit 2019-12-10 13:03:47 +00:00
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_TH_write(4096-200); // when only 200 DMA symbol room left in fifo, stop Linux queue`
initial commit 2019-12-10 13:03:47 +00:00			`switch(mode)`
			`{`
			`case TX_INTF_AXIS_LOOP_BACK:`
			`tx_intf_api->TX_INTF_REG_MISC_SEL_write(0<<1);// bit1: 0-connect dac to ADI dma; 1-connect dac to our intf`
			`printk("%s hw_init mode TX_INTF_AXIS_LOOP_BACK\n", tx_intf_compatible_str);`
			`break;`

			`case TX_INTF_BW_20MHZ_AT_0MHZ_ANT0:`
			`printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_0MHZ_ANT0\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x2001F400;`
			`duc_input_ch_sel = 0;`
			`ant_sel=1;`
			`break;`

			`case TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0:`
			`printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT0\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x2001F602;`
			`duc_input_ch_sel = 0;`
			`ant_sel=1;`
			`break;`

			`case TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT0:`
			`printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT0\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x200202F6;`
			`duc_input_ch_sel = 0;`
			`ant_sel=1;`
			`break;`

			`case TX_INTF_BW_20MHZ_AT_0MHZ_ANT1:`
			`printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_0MHZ_ANT1\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x2001F400;`
			`duc_input_ch_sel = 0;`
			`ant_sel=2;`
			`break;`

			`case TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1:`
			`printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x2001F602;`
			`duc_input_ch_sel = 0;`
			`ant_sel=2;`
			`break;`

			`case TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1:`
			`printk("%s hw_init mode TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x200202F6;`
			`duc_input_ch_sel = 0;`
			`ant_sel=2;`
			`break;`

			`case TX_INTF_BYPASS:`
			`printk("%s hw_init mode TX_INTF_BYPASS\n", tx_intf_compatible_str);`
			`mixer_cfg = 0x200202F6;`
			`duc_input_ch_sel = 0;`
			`ant_sel=2;`
			`break;`

			`default:`
			`printk("%s hw_init mode %d is wrong!\n", tx_intf_compatible_str, mode);`
			`err=1;`
			`}`

			`if (mode!=TX_INTF_AXIS_LOOP_BACK) {`
			`tx_intf_api->TX_INTF_REG_MISC_SEL_write(1<<1);// bit1: 0-connect dac to ADI dma; 1-connect dac to our intf`

			`tx_intf_api->TX_INTF_REG_MIXER_CFG_write(mixer_cfg);`
			`tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);`
			`tx_intf_api->TX_INTF_REG_IQ_SRC_SEL_write(duc_input_ch_sel);`
			`tx_intf_api->TX_INTF_REG_START_TRANS_TO_PS_MODE_write(2);`
prepare upgrade 2020-04-27 07:37:04 +00:00			`tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write( ((1610)<<16)\|(1010) );//high 16bit 5GHz; low 16 bit 2.4GHz. counter speed 10MHz is assumed`
initial commit 2019-12-10 13:03:47 +00:00
			`tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write(num_dma_symbol_to_pl);`
			`tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write(num_dma_symbol_to_ps);`
			`tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_write(0);`
prepare upgrade 2020-04-27 07:37:04 +00:00			`tx_intf_api->TX_INTF_REG_TX_HOLD_THRESHOLD_write(420);`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x4F); //.src_sel0(slv_reg14[2:0]), .src_sel1(slv_reg14[6:4]), 0-s00_axis_tlast,1-ap_start,2-tx_start_from_acc,3-tx_end_from_acc,4-xpu signal`
			`tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write(0x3004F); //disable interrupt`
prepare for release 2020-03-04 18:39:12 +00:00			`tx_intf_api->TX_INTF_REG_BB_GAIN_write(100);`
initial commit 2019-12-10 13:03:47 +00:00			`tx_intf_api->TX_INTF_REG_ANT_SEL_write(ant_sel);`
			`tx_intf_api->TX_INTF_REG_WIFI_TX_MODE_write((1<<3)\|(2<<4));`
			`tx_intf_api->TX_INTF_REG_MULTI_RST_write(0x434);`
			`tx_intf_api->TX_INTF_REG_MULTI_RST_write(0);`
			`}`

			`if (mode == TX_INTF_BYPASS) {`
			`tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_write(0x100); //slv_reg10[8]`
			`}`

			`printk("%s hw_init err %d\n", tx_intf_compatible_str, err);`
			`return(err);`
			`}`

			`static int dev_probe(struct platform_device *pdev)`
			`{`
			`struct device_node *np = pdev->dev.of_node;`
			`struct resource *io;`
			`int err=1;`

			`printk("\n");`

			`if (np) {`
			`const struct of_device_id *match;`

			`match = of_match_node(dev_of_ids, np);`
			`if (match) {`
			`printk("%s dev_probe match!\n", tx_intf_compatible_str);`
			`err = 0;`
			`}`
			`}`

			`if (err)`
			`return err;`

			`tx_intf_api->hw_init=hw_init;`

			`tx_intf_api->reg_read=reg_read;`
			`tx_intf_api->reg_write=reg_write;`

			`tx_intf_api->TX_INTF_REG_MULTI_RST_read=TX_INTF_REG_MULTI_RST_read;`
			`tx_intf_api->TX_INTF_REG_MIXER_CFG_read=TX_INTF_REG_MIXER_CFG_read;`
			`tx_intf_api->TX_INTF_REG_WIFI_TX_MODE_read=TX_INTF_REG_WIFI_TX_MODE_read;`
			`tx_intf_api->TX_INTF_REG_IQ_SRC_SEL_read=TX_INTF_REG_IQ_SRC_SEL_read;`
			`tx_intf_api->TX_INTF_REG_CTS_TOSELF_CONFIG_read=TX_INTF_REG_CTS_TOSELF_CONFIG_read;`
			`tx_intf_api->TX_INTF_REG_START_TRANS_TO_PS_MODE_read=TX_INTF_REG_START_TRANS_TO_PS_MODE_read;`
			`tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read=TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_read;`
			`tx_intf_api->TX_INTF_REG_MISC_SEL_read=TX_INTF_REG_MISC_SEL_read;`
			`tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_read;`
			`tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_read;`
			`tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_read=TX_INTF_REG_CFG_DATA_TO_ANT_read;`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_TH_read=TX_INTF_REG_S_AXIS_FIFO_TH_read;`
prepare upgrade 2020-04-27 07:37:04 +00:00			`tx_intf_api->TX_INTF_REG_TX_HOLD_THRESHOLD_read=TX_INTF_REG_TX_HOLD_THRESHOLD_read;`
initial commit 2019-12-10 13:03:47 +00:00			`tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_read=TX_INTF_REG_INTERRUPT_SEL_read;`
			`tx_intf_api->TX_INTF_REG_BB_GAIN_read=TX_INTF_REG_BB_GAIN_read;`
			`tx_intf_api->TX_INTF_REG_ANT_SEL_read=TX_INTF_REG_ANT_SEL_read;`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read=TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_read;`
initial commit 2019-12-10 13:03:47 +00:00			`tx_intf_api->TX_INTF_REG_PKT_INFO_read=TX_INTF_REG_PKT_INFO_read;`
			`tx_intf_api->TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read=TX_INTF_REG_QUEUE_FIFO_DATA_COUNT_read;`

			`tx_intf_api->TX_INTF_REG_MULTI_RST_write=TX_INTF_REG_MULTI_RST_write;`
			`tx_intf_api->TX_INTF_REG_MIXER_CFG_write=TX_INTF_REG_MIXER_CFG_write;`
			`tx_intf_api->TX_INTF_REG_WIFI_TX_MODE_write=TX_INTF_REG_WIFI_TX_MODE_write;`
			`tx_intf_api->TX_INTF_REG_IQ_SRC_SEL_write=TX_INTF_REG_IQ_SRC_SEL_write;`
			`tx_intf_api->TX_INTF_REG_CTS_TOSELF_CONFIG_write=TX_INTF_REG_CTS_TOSELF_CONFIG_write;`
			`tx_intf_api->TX_INTF_REG_START_TRANS_TO_PS_MODE_write=TX_INTF_REG_START_TRANS_TO_PS_MODE_write;`
			`tx_intf_api->TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write=TX_INTF_REG_CTS_TOSELF_WAIT_SIFS_TOP_write;`
			`tx_intf_api->TX_INTF_REG_MISC_SEL_write=TX_INTF_REG_MISC_SEL_write;`
			`tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PL_write;`
			`tx_intf_api->TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write=TX_INTF_REG_NUM_DMA_SYMBOL_TO_PS_write;`
			`tx_intf_api->TX_INTF_REG_CFG_DATA_TO_ANT_write=TX_INTF_REG_CFG_DATA_TO_ANT_write;`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_TH_write=TX_INTF_REG_S_AXIS_FIFO_TH_write;`
prepare upgrade 2020-04-27 07:37:04 +00:00			`tx_intf_api->TX_INTF_REG_TX_HOLD_THRESHOLD_write=TX_INTF_REG_TX_HOLD_THRESHOLD_write;`
initial commit 2019-12-10 13:03:47 +00:00			`tx_intf_api->TX_INTF_REG_INTERRUPT_SEL_write=TX_INTF_REG_INTERRUPT_SEL_write;`
			`tx_intf_api->TX_INTF_REG_BB_GAIN_write=TX_INTF_REG_BB_GAIN_write;`
			`tx_intf_api->TX_INTF_REG_ANT_SEL_write=TX_INTF_REG_ANT_SEL_write;`
4 fpga queues and better driver/fpga flow control to avoid crash. improved slice cfg and printing (#23) 2020-06-12 09:11:47 +00:00			`tx_intf_api->TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write=TX_INTF_REG_S_AXIS_FIFO_NO_ROOM_write;`
initial commit 2019-12-10 13:03:47 +00:00			`tx_intf_api->TX_INTF_REG_PKT_INFO_write=TX_INTF_REG_PKT_INFO_write;`

			`/* Request and map I/O memory */`
			`io = platform_get_resource(pdev, IORESOURCE_MEM, 0);`
			`base_addr = devm_ioremap_resource(&pdev->dev, io);`
			`if (IS_ERR(base_addr))`
			`return PTR_ERR(base_addr);`

prepare upgrade 2020-04-27 07:37:04 +00:00			`printk("%s dev_probe io start 0x%08llx end 0x%08llx name %s flags 0x%08x desc 0x%08x\n", tx_intf_compatible_str,io->start,io->end,io->name,(u32)io->flags,(u32)io->desc);`
			`printk("%s dev_probe base_addr 0x%p\n", tx_intf_compatible_str,(void*)base_addr);`
			`printk("%s dev_probe tx_intf_driver_api_inst 0x%p\n", tx_intf_compatible_str, (void*)(&tx_intf_driver_api_inst) );`
			`printk("%s dev_probe tx_intf_api 0x%p\n", tx_intf_compatible_str, (void*)tx_intf_api);`
initial commit 2019-12-10 13:03:47 +00:00
			`printk("%s dev_probe succeed!\n", tx_intf_compatible_str);`

			`//err = hw_init(TX_INTF_BW_20MHZ_AT_P_10MHZ_ANT1, 8, 8);`
			`//err = hw_init(TX_INTF_BYPASS, 8, 8);`
			`err = hw_init(TX_INTF_BW_20MHZ_AT_N_10MHZ_ANT1, 8, 8); // make sure dac is connected to original ad9361 dma`

			`return err;`
			`}`

			`static int dev_remove(struct platform_device *pdev)`
			`{`
			`printk("\n");`

prepare upgrade 2020-04-27 07:37:04 +00:00			`printk("%s dev_remove base_addr 0x%p\n", tx_intf_compatible_str,(void*)base_addr);`
			`printk("%s dev_remove tx_intf_driver_api_inst 0x%p\n", tx_intf_compatible_str, (void*)(&tx_intf_driver_api_inst) );`
			`printk("%s dev_remove tx_intf_api 0x%p\n", tx_intf_compatible_str, (void*)tx_intf_api);`
initial commit 2019-12-10 13:03:47 +00:00
			`printk("%s dev_remove succeed!\n", tx_intf_compatible_str);`
			`return 0;`
			`}`

			`static struct platform_driver dev_driver = {`
			`.driver = {`
			`.name = "sdr,tx_intf",`
			`.owner = THIS_MODULE,`
			`.of_match_table = dev_of_ids,`
			`},`
			`.probe = dev_probe,`
			`.remove = dev_remove,`
			`};`

			`module_platform_driver(dev_driver);`

			`MODULE_AUTHOR("Xianjun Jiao");`
			`MODULE_DESCRIPTION("sdr,tx_intf");`
			`MODULE_LICENSE("GPL v2");`