cregit-Linux how code gets into the kernel

Release 4.11 drivers/nfc/port100.c

Directory: drivers/nfc
/*
 * Sony NFC Port-100 Series driver
 * Copyright (c) 2013, Intel Corporation.
 *
 * Partly based/Inspired by Stephen Tiedemann's nfcpy
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms and conditions of the GNU General Public License,
 * version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
 * more details.
 *
 */

#include <linux/module.h>
#include <linux/usb.h>
#include <net/nfc/digital.h>


#define VERSION "0.1"


#define SONY_VENDOR_ID    0x054c

#define RCS380_PRODUCT_ID 0x06c1


#define PORT100_PROTOCOLS (NFC_PROTO_JEWEL_MASK    | \
                           NFC_PROTO_MIFARE_MASK   | \
                           NFC_PROTO_FELICA_MASK   | \
                           NFC_PROTO_NFC_DEP_MASK  | \
                           NFC_PROTO_ISO14443_MASK | \
                           NFC_PROTO_ISO14443_B_MASK)


#define PORT100_CAPABILITIES (NFC_DIGITAL_DRV_CAPS_IN_CRC | \
                              NFC_DIGITAL_DRV_CAPS_TG_CRC)

/* Standard port100 frame definitions */

#define PORT100_FRAME_HEADER_LEN (sizeof(struct port100_frame) \
                                  + 2) /* data[0] CC, data[1] SCC */

#define PORT100_FRAME_TAIL_LEN 2 
/* data[len] DCS, data[len + 1] postamble*/


#define PORT100_COMM_RF_HEAD_MAX_LEN (sizeof(struct port100_tg_comm_rf_cmd))

/*
 * Max extended frame payload len, excluding CC and SCC
 * which are already in PORT100_FRAME_HEADER_LEN.
 */

#define PORT100_FRAME_MAX_PAYLOAD_LEN 1001


#define PORT100_FRAME_ACK_SIZE 6 
/* Preamble (1), SoPC (2), ACK Code (2),
                                    Postamble (1) */

static u8 ack_frame[PORT100_FRAME_ACK_SIZE] = {
	0x00, 0x00, 0xff, 0x00, 0xff, 0x00
};


#define PORT100_FRAME_CHECKSUM(f) (f->data[le16_to_cpu(f->datalen)])

#define PORT100_FRAME_POSTAMBLE(f) (f->data[le16_to_cpu(f->datalen) + 1])

/* start of frame */

#define PORT100_FRAME_SOF	0x00FF

#define PORT100_FRAME_EXT	0xFFFF

#define PORT100_FRAME_ACK	0x00FF

/* Port-100 command: in or out */

#define PORT100_FRAME_DIRECTION(f) (f->data[0]) 
/* CC */

#define PORT100_FRAME_DIR_OUT 0xD6

#define PORT100_FRAME_DIR_IN  0xD7

/* Port-100 sub-command */

#define PORT100_FRAME_CMD(f) (f->data[1]) 
/* SCC */


#define PORT100_CMD_GET_FIRMWARE_VERSION 0x20

#define PORT100_CMD_GET_COMMAND_TYPE     0x28

#define PORT100_CMD_SET_COMMAND_TYPE     0x2A


#define PORT100_CMD_IN_SET_RF       0x00

#define PORT100_CMD_IN_SET_PROTOCOL 0x02

#define PORT100_CMD_IN_COMM_RF      0x04


#define PORT100_CMD_TG_SET_RF       0x40

#define PORT100_CMD_TG_SET_PROTOCOL 0x42

#define PORT100_CMD_TG_SET_RF_OFF   0x46

#define PORT100_CMD_TG_COMM_RF      0x48


#define PORT100_CMD_SWITCH_RF       0x06


#define PORT100_CMD_RESPONSE(cmd) (cmd + 1)


#define PORT100_CMD_TYPE_IS_SUPPORTED(mask, cmd_type) \
	((mask) & (0x01 << (cmd_type)))

#define PORT100_CMD_TYPE_0	0

#define PORT100_CMD_TYPE_1	1


#define PORT100_CMD_STATUS_OK      0x00

#define PORT100_CMD_STATUS_TIMEOUT 0x80


#define PORT100_MDAA_TGT_HAS_BEEN_ACTIVATED_MASK 0x01

#define PORT100_MDAA_TGT_WAS_ACTIVATED_MASK      0x02

struct port100;


typedef void (*port100_send_async_complete_t)(struct port100 *dev, void *arg,
					      struct sk_buff *resp);

/**
 * Setting sets structure for in_set_rf command
 *
 * @in_*_set_number: Represent the entry indexes in the port-100 RF Base Table.
 *              This table contains multiple RF setting sets required for RF
 *              communication.
 *
 * @in_*_comm_type: Theses fields set the communication type to be used.
 */

struct port100_in_rf_setting {
	
u8 in_send_set_number;
	
u8 in_send_comm_type;
	
u8 in_recv_set_number;
	
u8 in_recv_comm_type;
} 
__packed;


#define PORT100_COMM_TYPE_IN_212F 0x01

#define PORT100_COMM_TYPE_IN_424F 0x02

#define PORT100_COMM_TYPE_IN_106A 0x03

#define PORT100_COMM_TYPE_IN_106B 0x07


static const struct port100_in_rf_setting in_rf_settings[] = {
	[NFC_DIGITAL_RF_TECH_212F] = {
		.in_send_set_number = 1,
		.in_send_comm_type  = PORT100_COMM_TYPE_IN_212F,
		.in_recv_set_number = 15,
		.in_recv_comm_type  = PORT100_COMM_TYPE_IN_212F,
        },
	[NFC_DIGITAL_RF_TECH_424F] = {
		.in_send_set_number = 1,
		.in_send_comm_type  = PORT100_COMM_TYPE_IN_424F,
		.in_recv_set_number = 15,
		.in_recv_comm_type  = PORT100_COMM_TYPE_IN_424F,
        },
	[NFC_DIGITAL_RF_TECH_106A] = {
		.in_send_set_number = 2,
		.in_send_comm_type  = PORT100_COMM_TYPE_IN_106A,
		.in_recv_set_number = 15,
		.in_recv_comm_type  = PORT100_COMM_TYPE_IN_106A,
        },
	[NFC_DIGITAL_RF_TECH_106B] = {
		.in_send_set_number = 3,
		.in_send_comm_type  = PORT100_COMM_TYPE_IN_106B,
		.in_recv_set_number = 15,
		.in_recv_comm_type  = PORT100_COMM_TYPE_IN_106B,
        },
	/* Ensures the array has NFC_DIGITAL_RF_TECH_LAST elements */
	[NFC_DIGITAL_RF_TECH_LAST] = { 0 },
};

/**
 * Setting sets structure for tg_set_rf command
 *
 * @tg_set_number: Represents the entry index in the port-100 RF Base Table.
 *                 This table contains multiple RF setting sets required for RF
 *                 communication. this field is used for both send and receive
 *                 settings.
 *
 * @tg_comm_type: Sets the communication type to be used to send and receive
 *                data.
 */

struct port100_tg_rf_setting {
	
u8 tg_set_number;
	
u8 tg_comm_type;
} 
__packed;


#define PORT100_COMM_TYPE_TG_106A 0x0B

#define PORT100_COMM_TYPE_TG_212F 0x0C

#define PORT100_COMM_TYPE_TG_424F 0x0D


static const struct port100_tg_rf_setting tg_rf_settings[] = {
	[NFC_DIGITAL_RF_TECH_106A] = {
		.tg_set_number = 8,
		.tg_comm_type = PORT100_COMM_TYPE_TG_106A,
        },
	[NFC_DIGITAL_RF_TECH_212F] = {
		.tg_set_number = 8,
		.tg_comm_type = PORT100_COMM_TYPE_TG_212F,
        },
	[NFC_DIGITAL_RF_TECH_424F] = {
		.tg_set_number = 8,
		.tg_comm_type = PORT100_COMM_TYPE_TG_424F,
        },
	/* Ensures the array has NFC_DIGITAL_RF_TECH_LAST elements */
	[NFC_DIGITAL_RF_TECH_LAST] = { 0 },

};


#define PORT100_IN_PROT_INITIAL_GUARD_TIME      0x00

#define PORT100_IN_PROT_ADD_CRC                 0x01

#define PORT100_IN_PROT_CHECK_CRC               0x02

#define PORT100_IN_PROT_MULTI_CARD              0x03

#define PORT100_IN_PROT_ADD_PARITY              0x04

#define PORT100_IN_PROT_CHECK_PARITY            0x05

#define PORT100_IN_PROT_BITWISE_AC_RECV_MODE    0x06

#define PORT100_IN_PROT_VALID_BIT_NUMBER        0x07

#define PORT100_IN_PROT_CRYPTO1                 0x08

#define PORT100_IN_PROT_ADD_SOF                 0x09

#define PORT100_IN_PROT_CHECK_SOF               0x0A

#define PORT100_IN_PROT_ADD_EOF                 0x0B

#define PORT100_IN_PROT_CHECK_EOF               0x0C

#define PORT100_IN_PROT_DEAF_TIME               0x0E

#define PORT100_IN_PROT_CRM                     0x0F

#define PORT100_IN_PROT_CRM_MIN_LEN             0x10

#define PORT100_IN_PROT_T1_TAG_FRAME            0x11

#define PORT100_IN_PROT_RFCA                    0x12

#define PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR 0x13

#define PORT100_IN_PROT_END                     0x14


#define PORT100_IN_MAX_NUM_PROTOCOLS            19


#define PORT100_TG_PROT_TU           0x00

#define PORT100_TG_PROT_RF_OFF       0x01

#define PORT100_TG_PROT_CRM          0x02

#define PORT100_TG_PROT_END          0x03


#define PORT100_TG_MAX_NUM_PROTOCOLS 3


struct port100_protocol {
	
u8 number;
	
u8 value;
} 
__packed;

static struct port100_protocol

in_protocols[][PORT100_IN_MAX_NUM_PROTOCOLS + 1] = {
	[NFC_DIGITAL_FRAMING_NFCA_SHORT] = {
		{ PORT100_IN_PROT_INITIAL_GUARD_TIME,      6 },
		{ PORT100_IN_PROT_ADD_CRC,                 0 },
		{ PORT100_IN_PROT_CHECK_CRC,               0 },
		{ PORT100_IN_PROT_MULTI_CARD,              0 },
		{ PORT100_IN_PROT_ADD_PARITY,              0 },
		{ PORT100_IN_PROT_CHECK_PARITY,            1 },
		{ PORT100_IN_PROT_BITWISE_AC_RECV_MODE,    0 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER,        7 },
		{ PORT100_IN_PROT_CRYPTO1,                 0 },
		{ PORT100_IN_PROT_ADD_SOF,                 0 },
		{ PORT100_IN_PROT_CHECK_SOF,               0 },
		{ PORT100_IN_PROT_ADD_EOF,                 0 },
		{ PORT100_IN_PROT_CHECK_EOF,               0 },
		{ PORT100_IN_PROT_DEAF_TIME,               4 },
		{ PORT100_IN_PROT_CRM,                     0 },
		{ PORT100_IN_PROT_CRM_MIN_LEN,             0 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,            0 },
		{ PORT100_IN_PROT_RFCA,                    0 },
		{ PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR, 6 },
		{ PORT100_IN_PROT_END,                     0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_STANDARD] = {
		{ PORT100_IN_PROT_INITIAL_GUARD_TIME,      6 },
		{ PORT100_IN_PROT_ADD_CRC,                 0 },
		{ PORT100_IN_PROT_CHECK_CRC,               0 },
		{ PORT100_IN_PROT_MULTI_CARD,              0 },
		{ PORT100_IN_PROT_ADD_PARITY,              1 },
		{ PORT100_IN_PROT_CHECK_PARITY,            1 },
		{ PORT100_IN_PROT_BITWISE_AC_RECV_MODE,    0 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER,        8 },
		{ PORT100_IN_PROT_CRYPTO1,                 0 },
		{ PORT100_IN_PROT_ADD_SOF,                 0 },
		{ PORT100_IN_PROT_CHECK_SOF,               0 },
		{ PORT100_IN_PROT_ADD_EOF,                 0 },
		{ PORT100_IN_PROT_CHECK_EOF,               0 },
		{ PORT100_IN_PROT_DEAF_TIME,               4 },
		{ PORT100_IN_PROT_CRM,                     0 },
		{ PORT100_IN_PROT_CRM_MIN_LEN,             0 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,            0 },
		{ PORT100_IN_PROT_RFCA,                    0 },
		{ PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR, 6 },
		{ PORT100_IN_PROT_END,                     0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_STANDARD_WITH_CRC_A] = {
		{ PORT100_IN_PROT_INITIAL_GUARD_TIME,      6 },
		{ PORT100_IN_PROT_ADD_CRC,                 1 },
		{ PORT100_IN_PROT_CHECK_CRC,               1 },
		{ PORT100_IN_PROT_MULTI_CARD,              0 },
		{ PORT100_IN_PROT_ADD_PARITY,              1 },
		{ PORT100_IN_PROT_CHECK_PARITY,            1 },
		{ PORT100_IN_PROT_BITWISE_AC_RECV_MODE,    0 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER,        8 },
		{ PORT100_IN_PROT_CRYPTO1,                 0 },
		{ PORT100_IN_PROT_ADD_SOF,                 0 },
		{ PORT100_IN_PROT_CHECK_SOF,               0 },
		{ PORT100_IN_PROT_ADD_EOF,                 0 },
		{ PORT100_IN_PROT_CHECK_EOF,               0 },
		{ PORT100_IN_PROT_DEAF_TIME,               4 },
		{ PORT100_IN_PROT_CRM,                     0 },
		{ PORT100_IN_PROT_CRM_MIN_LEN,             0 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,            0 },
		{ PORT100_IN_PROT_RFCA,                    0 },
		{ PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR, 6 },
		{ PORT100_IN_PROT_END,                     0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_T1T] = {
		/* nfc_digital_framing_nfca_short */
		{ PORT100_IN_PROT_ADD_CRC,          2 },
		{ PORT100_IN_PROT_CHECK_CRC,        2 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER, 8 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,     2 },
		{ PORT100_IN_PROT_END,              0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_T2T] = {
		/* nfc_digital_framing_nfca_standard */
		{ PORT100_IN_PROT_ADD_CRC,   1 },
		{ PORT100_IN_PROT_CHECK_CRC, 0 },
		{ PORT100_IN_PROT_END,       0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_T4T] = {
		/* nfc_digital_framing_nfca_standard_with_crc_a */
		{ PORT100_IN_PROT_END,       0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_NFC_DEP] = {
		/* nfc_digital_framing_nfca_standard */
		{ PORT100_IN_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCF] = {
		{ PORT100_IN_PROT_INITIAL_GUARD_TIME,     18 },
		{ PORT100_IN_PROT_ADD_CRC,                 1 },
		{ PORT100_IN_PROT_CHECK_CRC,               1 },
		{ PORT100_IN_PROT_MULTI_CARD,              0 },
		{ PORT100_IN_PROT_ADD_PARITY,              0 },
		{ PORT100_IN_PROT_CHECK_PARITY,            0 },
		{ PORT100_IN_PROT_BITWISE_AC_RECV_MODE,    0 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER,        8 },
		{ PORT100_IN_PROT_CRYPTO1,                 0 },
		{ PORT100_IN_PROT_ADD_SOF,                 0 },
		{ PORT100_IN_PROT_CHECK_SOF,               0 },
		{ PORT100_IN_PROT_ADD_EOF,                 0 },
		{ PORT100_IN_PROT_CHECK_EOF,               0 },
		{ PORT100_IN_PROT_DEAF_TIME,               4 },
		{ PORT100_IN_PROT_CRM,                     0 },
		{ PORT100_IN_PROT_CRM_MIN_LEN,             0 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,            0 },
		{ PORT100_IN_PROT_RFCA,                    0 },
		{ PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR, 6 },
		{ PORT100_IN_PROT_END,                     0 },
        },
	[NFC_DIGITAL_FRAMING_NFCF_T3T] = {
		/* nfc_digital_framing_nfcf */
		{ PORT100_IN_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCF_NFC_DEP] = {
		/* nfc_digital_framing_nfcf */
		{ PORT100_IN_PROT_INITIAL_GUARD_TIME,     18 },
		{ PORT100_IN_PROT_ADD_CRC,                 1 },
		{ PORT100_IN_PROT_CHECK_CRC,               1 },
		{ PORT100_IN_PROT_MULTI_CARD,              0 },
		{ PORT100_IN_PROT_ADD_PARITY,              0 },
		{ PORT100_IN_PROT_CHECK_PARITY,            0 },
		{ PORT100_IN_PROT_BITWISE_AC_RECV_MODE,    0 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER,        8 },
		{ PORT100_IN_PROT_CRYPTO1,                 0 },
		{ PORT100_IN_PROT_ADD_SOF,                 0 },
		{ PORT100_IN_PROT_CHECK_SOF,               0 },
		{ PORT100_IN_PROT_ADD_EOF,                 0 },
		{ PORT100_IN_PROT_CHECK_EOF,               0 },
		{ PORT100_IN_PROT_DEAF_TIME,               4 },
		{ PORT100_IN_PROT_CRM,                     0 },
		{ PORT100_IN_PROT_CRM_MIN_LEN,             0 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,            0 },
		{ PORT100_IN_PROT_RFCA,                    0 },
		{ PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR, 6 },
		{ PORT100_IN_PROT_END,                     0 },
        },
	[NFC_DIGITAL_FRAMING_NFC_DEP_ACTIVATED] = {
		{ PORT100_IN_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCB] = {
		{ PORT100_IN_PROT_INITIAL_GUARD_TIME,     20 },
		{ PORT100_IN_PROT_ADD_CRC,                 1 },
		{ PORT100_IN_PROT_CHECK_CRC,               1 },
		{ PORT100_IN_PROT_MULTI_CARD,              0 },
		{ PORT100_IN_PROT_ADD_PARITY,              0 },
		{ PORT100_IN_PROT_CHECK_PARITY,            0 },
		{ PORT100_IN_PROT_BITWISE_AC_RECV_MODE,    0 },
		{ PORT100_IN_PROT_VALID_BIT_NUMBER,        8 },
		{ PORT100_IN_PROT_CRYPTO1,                 0 },
		{ PORT100_IN_PROT_ADD_SOF,                 1 },
		{ PORT100_IN_PROT_CHECK_SOF,               1 },
		{ PORT100_IN_PROT_ADD_EOF,                 1 },
		{ PORT100_IN_PROT_CHECK_EOF,               1 },
		{ PORT100_IN_PROT_DEAF_TIME,               4 },
		{ PORT100_IN_PROT_CRM,                     0 },
		{ PORT100_IN_PROT_CRM_MIN_LEN,             0 },
		{ PORT100_IN_PROT_T1_TAG_FRAME,            0 },
		{ PORT100_IN_PROT_RFCA,                    0 },
		{ PORT100_IN_PROT_GUARD_TIME_AT_INITIATOR, 6 },
		{ PORT100_IN_PROT_END,                     0 },
        },
	[NFC_DIGITAL_FRAMING_NFCB_T4T] = {
		/* nfc_digital_framing_nfcb */
		{ PORT100_IN_PROT_END,                     0 },
        },
	/* Ensures the array has NFC_DIGITAL_FRAMING_LAST elements */
	[NFC_DIGITAL_FRAMING_LAST] = {
		{ PORT100_IN_PROT_END, 0 },
        },
};

static struct port100_protocol

tg_protocols[][PORT100_TG_MAX_NUM_PROTOCOLS + 1] = {
	[NFC_DIGITAL_FRAMING_NFCA_SHORT] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_STANDARD] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_STANDARD_WITH_CRC_A] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_T1T] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_T2T] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCA_NFC_DEP] = {
		{ PORT100_TG_PROT_TU,     1 },
		{ PORT100_TG_PROT_RF_OFF, 0 },
		{ PORT100_TG_PROT_CRM,    7 },
		{ PORT100_TG_PROT_END,    0 },
        },
	[NFC_DIGITAL_FRAMING_NFCF] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCF_T3T] = {
		{ PORT100_TG_PROT_END, 0 },
        },
	[NFC_DIGITAL_FRAMING_NFCF_NFC_DEP] = {
		{ PORT100_TG_PROT_TU,     1 },
		{ PORT100_TG_PROT_RF_OFF, 0 },
		{ PORT100_TG_PROT_CRM,    7 },
		{ PORT100_TG_PROT_END,    0 },
        },
	[NFC_DIGITAL_FRAMING_NFC_DEP_ACTIVATED] = {
		{ PORT100_TG_PROT_RF_OFF, 1 },
		{ PORT100_TG_PROT_END,    0 },
        },
	/* Ensures the array has NFC_DIGITAL_FRAMING_LAST elements */
	[NFC_DIGITAL_FRAMING_LAST] = {
		{ PORT100_TG_PROT_END,    0 },
        },
};


struct port100 {
	
struct nfc_digital_dev *nfc_digital_dev;

	
int skb_headroom;
	
int skb_tailroom;

	
struct usb_device *udev;
	
struct usb_interface *interface;

	
struct urb *out_urb;
	
struct urb *in_urb;

	/* This mutex protects the out_urb and avoids to submit a new command
         * through port100_send_frame_async() while the previous one is being
         * canceled through port100_abort_cmd().
         */
	
struct mutex out_urb_lock;

	
struct work_struct cmd_complete_work;

	
u8 cmd_type;

	/* The digital stack serializes commands to be sent. There is no need
         * for any queuing/locking mechanism at driver level.
         */
	
struct port100_cmd *cmd;

	
bool cmd_cancel;
	
struct completion cmd_cancel_done;
};


struct port100_cmd {
	
u8 code;
	
int status;
	
struct sk_buff *req;
	
struct sk_buff *resp;
	
int resp_len;
	
port100_send_async_complete_t  complete_cb;
	
void *complete_cb_context;
};


struct port100_frame {
	
u8 preamble;
	
__be16 start_frame;
	
__be16 extended_frame;
	
__le16 datalen;
	
u8 datalen_checksum;
	
u8 data[];
} 
__packed;


struct port100_ack_frame {
	
u8 preamble;
	
__be16 start_frame;
	
__be16 ack_frame;
	
u8 postambule;
} 
__packed;


struct port100_cb_arg {
	
nfc_digital_cmd_complete_t complete_cb;
	
void *complete_arg;
	
u8 mdaa;
};


struct port100_tg_comm_rf_cmd {
	
__le16 guard_time;
	
__le16 send_timeout;
	
u8 mdaa;
	
u8 nfca_param[6];
	
u8 nfcf_param[18];
	
u8 mf_halted;
	
u8 arae_flag;
	
__le16 recv_timeout;
	
u8 data[];
} 
__packed;


struct port100_tg_comm_rf_res {
	
u8 comm_type;
	
u8 ar_status;
	
u8 target_activated;
	
__le32 status;
	
u8 data[];
} 
__packed;

/* The rule: value + checksum = 0 */

static inline u8 port100_checksum(u16 value) { return ~(((u8 *)&value)[0] + ((u8 *)&value)[1]) + 1; }

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/* The rule: sum(data elements) + checksum = 0 */
static u8 port100_data_checksum(u8 *data, int datalen) { u8 sum = 0; int i; for (i = 0; i < datalen; i++) sum += data[i]; return port100_checksum(sum); }

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static void port100_tx_frame_init(void *_frame, u8 cmd_code) { struct port100_frame *frame = _frame; frame->preamble = 0; frame->start_frame = cpu_to_be16(PORT100_FRAME_SOF); frame->extended_frame = cpu_to_be16(PORT100_FRAME_EXT); PORT100_FRAME_DIRECTION(frame) = PORT100_FRAME_DIR_OUT; PORT100_FRAME_CMD(frame) = cmd_code; frame->datalen = cpu_to_le16(2); }

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static void port100_tx_frame_finish(void *_frame) { struct port100_frame *frame = _frame; frame->datalen_checksum = port100_checksum(le16_to_cpu(frame->datalen)); PORT100_FRAME_CHECKSUM(frame) = port100_data_checksum(frame->data, le16_to_cpu(frame->datalen)); PORT100_FRAME_POSTAMBLE(frame) = 0; }

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static void port100_tx_update_payload_len(void *_frame, int len) { struct port100_frame *frame = _frame; frame->datalen = cpu_to_le16(le16_to_cpu(frame->datalen) + len); }

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static bool port100_rx_frame_is_valid(void *_frame) { u8 checksum; struct port100_frame *frame = _frame; if (frame->start_frame != cpu_to_be16(PORT100_FRAME_SOF) || frame->extended_frame != cpu_to_be16(PORT100_FRAME_EXT)) return false; checksum = port100_checksum(le16_to_cpu(frame->datalen)); if (checksum != frame->datalen_checksum) return false; checksum = port100_data_checksum(frame->data, le16_to_cpu(frame->datalen)); if (checksum != PORT100_FRAME_CHECKSUM(frame)) return false; return true; }

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static bool port100_rx_frame_is_ack(struct port100_ack_frame *frame) { return (frame->start_frame == cpu_to_be16(PORT100_FRAME_SOF) && frame->ack_frame == cpu_to_be16(PORT100_FRAME_ACK)); }

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static inline int port100_rx_frame_size(void *frame) { struct port100_frame *f = frame; return sizeof(struct port100_frame) + le16_to_cpu(f->datalen) + PORT100_FRAME_TAIL_LEN; }

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static bool port100_rx_frame_is_cmd_response(struct port100 *dev, void *frame) { struct port100_frame *f = frame; return (PORT100_FRAME_CMD(f) == PORT100_CMD_RESPONSE(dev->cmd->code)); }

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static void port100_recv_response(struct urb *urb) { struct port100 *dev = urb->context; struct port100_cmd *cmd = dev->cmd; u8 *in_frame; cmd->status = urb->status; switch (urb->status) { case 0: break; /* success */ case -ECONNRESET: case -ENOENT: nfc_err(&dev->interface->dev, "The urb has been canceled (status %d)\n", urb->status); goto sched_wq; case -ESHUTDOWN: default: nfc_err(&dev->interface->dev, "Urb failure (status %d)\n", urb->status); goto sched_wq; } in_frame = dev->in_urb->transfer_buffer; if (!port100_rx_frame_is_valid(in_frame)) { nfc_err(&dev->interface->dev, "Received an invalid frame\n"); cmd->status = -EIO; goto sched_wq; } print_hex_dump_debug("PORT100 RX: ", DUMP_PREFIX_NONE, 16, 1, in_frame, port100_rx_frame_size(in_frame), false); if (!port100_rx_frame_is_cmd_response(dev, in_frame)) { nfc_err(&dev->interface->dev, "It's not the response to the last command\n"); cmd->status = -EIO; goto sched_wq; } sched_wq: schedule_work(&dev->cmd_complete_work); }

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static int port100_submit_urb_for_response(struct port100 *dev, gfp_t flags) { dev->in_urb->complete = port100_recv_response; return usb_submit_urb(dev->in_urb, flags); }

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static void port100_recv_ack(struct urb *urb) { struct port100 *dev = urb->context; struct port100_cmd *cmd = dev->cmd; struct port100_ack_frame *in_frame; int rc; cmd->status = urb->status; switch (urb->status) { case 0: break; /* success */ case -ECONNRESET: case -ENOENT: nfc_err(&dev->interface->dev, "The urb has been stopped (status %d)\n", urb->status); goto sched_wq; case -ESHUTDOWN: default: nfc_err(&dev->interface->dev, "Urb failure (status %d)\n", urb->status); goto sched_wq; } in_frame = dev->in_urb->transfer_buffer; if (!port100_rx_frame_is_ack(in_frame)) { nfc_err(&dev->interface->dev, "Received an invalid ack\n"); cmd->status = -EIO; goto sched_wq; } rc = port100_submit_urb_for_response(dev, GFP_ATOMIC); if (rc) { nfc_err(&dev->interface->dev, "usb_submit_urb failed with result %d\n", rc); cmd->status = rc; goto sched_wq; } return; sched_wq: schedule_work(&dev->cmd_complete_work); }

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static int port100_submit_urb_for_ack(struct port100 *dev, gfp_t flags) { dev->in_urb->complete = port100_recv_ack; return usb_submit_urb(dev->in_urb, flags); }

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static int port100_send_ack(struct port100 *dev) { int rc; mutex_lock(&dev->out_urb_lock); init_completion(&dev->cmd_cancel_done); usb_kill_urb(dev->out_urb); dev->out_urb->transfer_buffer = ack_frame; dev->out_urb->transfer_buffer_length = sizeof(ack_frame); rc = usb_submit_urb(dev->out_urb, GFP_KERNEL); /* Set the cmd_cancel flag only if the URB has been successfully * submitted. It will be reset by the out URB completion callback * port100_send_complete(). */ dev->cmd_cancel = !rc; mutex_unlock(&dev->out_urb_lock); if (!rc) wait_for_completion(&dev->cmd_cancel_done); return rc; }

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static int port100_send_frame_async(struct port100 *dev, struct sk_buff *out, struct sk_buff *in, int in_len) { int rc; mutex_lock(&dev->out_urb_lock); /* A command cancel frame as been sent through dev->out_urb. Don't try * to submit a new one. */ if (dev->cmd_cancel) { rc = -EAGAIN; goto exit; } dev->out_urb->transfer_buffer = out->data; dev->out_urb->transfer_buffer_length = out->len; dev->in_urb->transfer_buffer = in->data; dev->in_urb->transfer_buffer_length = in_len; print_hex_dump_debug("PORT100 TX: ", DUMP_PREFIX_NONE, 16, 1, out->data, out->len, false); rc = usb_submit_urb(dev->out_urb, GFP_KERNEL); if (rc) goto exit; rc = port100_submit_urb_for_ack(dev, GFP_KERNEL); if (rc) usb_unlink_urb(dev->out_urb); exit: mutex_unlock(&dev->out_urb_lock); return rc; }

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static void port100_build_cmd_frame(struct port100 *dev, u8 cmd_code, struct sk_buff *skb) { /* payload is already there, just update datalen */ int payload_len = skb->len; skb_push(skb, PORT100_FRAME_HEADER_LEN); skb_put(skb, PORT100_FRAME_TAIL_LEN); port100_tx_frame_init(skb->data, cmd_code); port100_tx_update_payload_len(skb->data, payload_len); port100_tx_frame_finish(skb->data); }

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static void port100_send_async_complete(struct port100 *dev) { struct port100_cmd *cmd = dev->cmd; int status = cmd->status; struct sk_buff *req = cmd->req; struct sk_buff *resp = cmd->resp; dev_kfree_skb(req); dev->cmd = NULL; if (status < 0) { cmd->complete_cb(dev, cmd->complete_cb_context, ERR_PTR(status)); dev_kfree_skb(resp); goto done; } skb_put(resp, port100_rx_frame_size(resp->data)); skb_pull(resp, PORT100_FRAME_HEADER_LEN); skb_trim(resp, resp->len - PORT100_FRAME_TAIL_LEN); cmd->complete_cb(dev, cmd->complete_cb_context, resp); done: kfree(cmd); }

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static int port100_send_cmd_async(struct port100 *dev, u8 cmd_code, struct sk_buff *req, port100_send_async_complete_t complete_cb, void *complete_cb_context) { struct port100_cmd *cmd; struct sk_buff *resp; int rc; int resp_len = PORT100_FRAME_HEADER_LEN + PORT100_FRAME_MAX_PAYLOAD_LEN + PORT100_FRAME_TAIL_LEN; if (dev->cmd) { nfc_err(&dev->interface->dev, "A command is still in process\n"); return -EBUSY; } resp = alloc_skb(resp_len, GFP_KERNEL); if (!resp) return -ENOMEM; cmd = kzalloc(sizeof(*cmd), GFP_KERNEL); if (!cmd) { dev_kfree_skb(resp); return -ENOMEM; } cmd->code = cmd_code; cmd->req = req; cmd->resp = resp; cmd->resp_len = resp_len; cmd->complete_cb = complete_cb; cmd->complete_cb_context = complete_cb_context; port100_build_cmd_frame(dev, cmd_code, req); dev->cmd = cmd; rc = port100_send_frame_async(dev, req, resp, resp_len); if (rc) { kfree(cmd); dev_kfree_skb(resp); dev->cmd = NULL; } return rc; }

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struct port100_sync_cmd_response { struct sk_buff *resp; struct completion done; };
static void port100_wq_cmd_complete(struct work_struct *work) { struct port100 *dev = container_of(work, struct port100, cmd_complete_work); port100_send_async_complete(dev); }

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static void port100_send_sync_complete(struct port100 *dev, void *_arg, struct sk_buff *resp) { struct port100_sync_cmd_response *arg = _arg; arg->resp = resp; complete(&arg->done); }

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static struct sk_buff *port100_send_cmd_sync(struct port100 *dev, u8 cmd_code, struct sk_buff *req) { int rc; struct port100_sync_cmd_response arg; init_completion(&arg.done); rc = port100_send_cmd_async(dev, cmd_code, req, port100_send_sync_complete, &arg); if (rc) { dev_kfree_skb(req); return ERR_PTR(rc); } wait_for_completion(&arg.done); return arg.resp; }

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static void port100_send_complete(struct urb *urb) { struct port100 *dev = urb->context; if (dev->cmd_cancel) { dev->cmd_cancel = false; complete(&dev->cmd_cancel_done); } switch (urb->status) { case 0: break; /* success */ case -ECONNRESET: case -ENOENT: nfc_err(&dev->interface->dev, "The urb has been stopped (status %d)\n", urb->status); break; case -ESHUTDOWN: default: nfc_err(&dev->interface->dev, "Urb failure (status %d)\n", urb->status); } }

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Total101100.00%4100.00%


static void port100_abort_cmd(struct nfc_digital_dev *ddev) { struct port100 *dev = nfc_digital_get_drvdata(ddev); /* An ack will cancel the last issued command */ port100_send_ack(dev); /* cancel the urb request */ usb_kill_urb(dev->in_urb); }

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static struct sk_buff *port100_alloc_skb(struct port100 *dev, unsigned int size) { struct sk_buff *skb; skb = alloc_skb(dev->skb_headroom + dev->skb_tailroom + size, GFP_KERNEL); if (skb) skb_reserve(skb, dev->skb_headroom); return skb; }

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static int port100_set_command_type(struct port100 *dev, u8 command_type) { struct sk_buff *skb; struct sk_buff *resp; int rc; skb = port100_alloc_skb(dev, 1); if (!skb) return -ENOMEM; *skb_put(skb, sizeof(u8)) = command_type; resp = port100_send_cmd_sync(dev, PORT100_CMD_SET_COMMAND_TYPE, skb); if (IS_ERR(resp)) return PTR_ERR(resp); rc = resp->data[0]; dev_kfree_skb(resp); return rc; }

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static u64 port100_get_command_type_mask(struct port100 *dev) { struct sk_buff *skb; struct sk_buff *resp; u64 mask; skb = port100_alloc_skb(dev, 0); if (!skb) return -ENOMEM; resp = port100_send_cmd_sync(dev, PORT100_CMD_GET_COMMAND_TYPE, skb); if (IS_ERR(resp)) return PTR_ERR(resp); if (resp->len < 8) mask = 0; else mask = be64_to_cpu(*(__be64 *)resp->data); dev_kfree_skb(resp); return mask; }

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static u16 port100_get_firmware_version(struct port100 *dev) { struct sk_buff *skb; struct sk_buff *resp; u16 fw_ver; skb = port100_alloc_skb(dev, 0); if (!skb) return 0; resp = port100_send_cmd_sync(dev, PORT100_CMD_GET_FIRMWARE_VERSION, skb); if (IS_ERR(resp)) return 0; fw_ver = le16_to_cpu(*(__le16 *)resp->data); dev_kfree_skb(resp); return fw_ver; }

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static int port100_switch_rf(struct nfc_digital_dev *ddev, bool on) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct sk_buff *skb, *resp; skb = port100_alloc_skb(dev, 1); if (!skb) return -ENOMEM; *skb_put(skb, 1) = on ? 1 : 0; /* Cancel the last command if the device is being switched off */ if (!on) port100_abort_cmd(ddev); resp = port100_send_cmd_sync(dev, PORT100_CMD_SWITCH_RF, skb); if (IS_ERR(resp)) return PTR_ERR(resp); dev_kfree_skb(resp); return 0; }

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static int port100_in_set_rf(struct nfc_digital_dev *ddev, u8 rf) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct sk_buff *skb; struct sk_buff *resp; int rc; if (rf >= NFC_DIGITAL_RF_TECH_LAST) return -EINVAL; skb = port100_alloc_skb(dev, sizeof(struct port100_in_rf_setting)); if (!skb) return -ENOMEM; memcpy(skb_put(skb, sizeof(struct port100_in_rf_setting)), &in_rf_settings[rf], sizeof(struct port100_in_rf_setting)); resp = port100_send_cmd_sync(dev, PORT100_CMD_IN_SET_RF, skb); if (IS_ERR(resp)) return PTR_ERR(resp); rc = resp->data[0]; dev_kfree_skb(resp); return rc; }

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static int port100_in_set_framing(struct nfc_digital_dev *ddev, int param) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct port100_protocol *protocols; struct sk_buff *skb; struct sk_buff *resp; int num_protocols; size_t size; int rc; if (param >= NFC_DIGITAL_FRAMING_LAST) return -EINVAL; protocols = in_protocols[param]; num_protocols = 0; while (protocols[num_protocols].number != PORT100_IN_PROT_END) num_protocols++; if (!num_protocols) return 0; size = sizeof(struct port100_protocol) * num_protocols; skb = port100_alloc_skb(dev, size); if (!skb) return -ENOMEM; memcpy(skb_put(skb, size), protocols, size); resp = port100_send_cmd_sync(dev, PORT100_CMD_IN_SET_PROTOCOL, skb); if (IS_ERR(resp)) return PTR_ERR(resp); rc = resp->data[0]; dev_kfree_skb(resp); return rc; }

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static int port100_in_configure_hw(struct nfc_digital_dev *ddev, int type, int param) { if (type == NFC_DIGITAL_CONFIG_RF_TECH) return port100_in_set_rf(ddev, param); if (type == NFC_DIGITAL_CONFIG_FRAMING) return port100_in_set_framing(ddev, param); return -EINVAL; }

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static void port100_in_comm_rf_complete(struct port100 *dev, void *arg, struct sk_buff *resp) { struct port100_cb_arg *cb_arg = arg; nfc_digital_cmd_complete_t cb = cb_arg->complete_cb; u32 status; int rc; if (IS_ERR(resp)) { rc = PTR_ERR(resp); goto exit; } if (resp->len < 4) { nfc_err(&dev->interface->dev, "Invalid packet length received\n"); rc = -EIO; goto error; } status = le32_to_cpu(*(__le32 *)resp->data); skb_pull(resp, sizeof(u32)); if (status == PORT100_CMD_STATUS_TIMEOUT) { rc = -ETIMEDOUT; goto error; } if (status != PORT100_CMD_STATUS_OK) { nfc_err(&dev->interface->dev, "in_comm_rf failed with status 0x%08x\n", status); rc = -EIO; goto error; } /* Remove collision bits byte */ skb_pull(resp, 1); goto exit; error: kfree_skb(resp); resp = ERR_PTR(rc); exit: cb(dev->nfc_digital_dev, cb_arg->complete_arg, resp); kfree(cb_arg); }

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static int port100_in_send_cmd(struct nfc_digital_dev *ddev, struct sk_buff *skb, u16 _timeout, nfc_digital_cmd_complete_t cb, void *arg) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct port100_cb_arg *cb_arg; __le16 timeout; cb_arg = kzalloc(sizeof(struct port100_cb_arg), GFP_KERNEL); if (!cb_arg) return -ENOMEM; cb_arg->complete_cb = cb; cb_arg->complete_arg = arg; timeout = cpu_to_le16(_timeout * 10); memcpy(skb_push(skb, sizeof(__le16)), &timeout, sizeof(__le16)); return port100_send_cmd_async(dev, PORT100_CMD_IN_COMM_RF, skb, port100_in_comm_rf_complete, cb_arg); }

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static int port100_tg_set_rf(struct nfc_digital_dev *ddev, u8 rf) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct sk_buff *skb; struct sk_buff *resp; int rc; if (rf >= NFC_DIGITAL_RF_TECH_LAST) return -EINVAL; skb = port100_alloc_skb(dev, sizeof(struct port100_tg_rf_setting)); if (!skb) return -ENOMEM; memcpy(skb_put(skb, sizeof(struct port100_tg_rf_setting)), &tg_rf_settings[rf], sizeof(struct port100_tg_rf_setting)); resp = port100_send_cmd_sync(dev, PORT100_CMD_TG_SET_RF, skb); if (IS_ERR(resp)) return PTR_ERR(resp); rc = resp->data[0]; dev_kfree_skb(resp); return rc; }

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static int port100_tg_set_framing(struct nfc_digital_dev *ddev, int param) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct port100_protocol *protocols; struct sk_buff *skb; struct sk_buff *resp; int rc; int num_protocols; size_t size; if (param >= NFC_DIGITAL_FRAMING_LAST) return -EINVAL; protocols = tg_protocols[param]; num_protocols = 0; while (protocols[num_protocols].number != PORT100_TG_PROT_END) num_protocols++; if (!num_protocols) return 0; size = sizeof(struct port100_protocol) * num_protocols; skb = port100_alloc_skb(dev, size); if (!skb) return -ENOMEM; memcpy(skb_put(skb, size), protocols, size); resp = port100_send_cmd_sync(dev, PORT100_CMD_TG_SET_PROTOCOL, skb); if (IS_ERR(resp)) return PTR_ERR(resp); rc = resp->data[0]; dev_kfree_skb(resp); return rc; }

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static int port100_tg_configure_hw(struct nfc_digital_dev *ddev, int type, int param) { if (type == NFC_DIGITAL_CONFIG_RF_TECH) return port100_tg_set_rf(ddev, param); if (type == NFC_DIGITAL_CONFIG_FRAMING) return port100_tg_set_framing(ddev, param); return -EINVAL; }

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static bool port100_tg_target_activated(struct port100 *dev, u8 tgt_activated) { u8 mask; switch (dev->cmd_type) { case PORT100_CMD_TYPE_0: mask = PORT100_MDAA_TGT_HAS_BEEN_ACTIVATED_MASK; break; case PORT100_CMD_TYPE_1: mask = PORT100_MDAA_TGT_HAS_BEEN_ACTIVATED_MASK | PORT100_MDAA_TGT_WAS_ACTIVATED_MASK; break; default: nfc_err(&dev->interface->dev, "Unknown command type\n"); return false; } return ((tgt_activated & mask) == mask); }

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static void port100_tg_comm_rf_complete(struct port100 *dev, void *arg, struct sk_buff *resp) { u32 status; struct port100_cb_arg *cb_arg = arg; nfc_digital_cmd_complete_t cb = cb_arg->complete_cb; struct port100_tg_comm_rf_res *hdr; if (IS_ERR(resp)) goto exit; hdr = (struct port100_tg_comm_rf_res *)resp->data; status = le32_to_cpu(hdr->status); if (cb_arg->mdaa && !port100_tg_target_activated(dev, hdr->target_activated)) { kfree_skb(resp); resp = ERR_PTR(-ETIMEDOUT); goto exit; } skb_pull(resp, sizeof(struct port100_tg_comm_rf_res)); if (status != PORT100_CMD_STATUS_OK) { kfree_skb(resp); if (status == PORT100_CMD_STATUS_TIMEOUT) resp = ERR_PTR(-ETIMEDOUT); else resp = ERR_PTR(-EIO); } exit: cb(dev->nfc_digital_dev, cb_arg->complete_arg, resp); kfree(cb_arg); }

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static int port100_tg_send_cmd(struct nfc_digital_dev *ddev, struct sk_buff *skb, u16 timeout, nfc_digital_cmd_complete_t cb, void *arg) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct port100_tg_comm_rf_cmd *hdr; struct port100_cb_arg *cb_arg; cb_arg = kzalloc(sizeof(struct port100_cb_arg), GFP_KERNEL); if (!cb_arg) return -ENOMEM; cb_arg->complete_cb = cb; cb_arg->complete_arg = arg; skb_push(skb, sizeof(struct port100_tg_comm_rf_cmd)); hdr = (struct port100_tg_comm_rf_cmd *)skb->data; memset(hdr, 0, sizeof(struct port100_tg_comm_rf_cmd)); hdr->guard_time = cpu_to_le16(500); hdr->send_timeout = cpu_to_le16(0xFFFF); hdr->recv_timeout = cpu_to_le16(timeout); return port100_send_cmd_async(dev, PORT100_CMD_TG_COMM_RF, skb, port100_tg_comm_rf_complete, cb_arg); }

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Thierry Escande156100.00%1100.00%
Total156100.00%1100.00%


static int port100_listen_mdaa(struct nfc_digital_dev *ddev, struct digital_tg_mdaa_params *params, u16 timeout, nfc_digital_cmd_complete_t cb, void *arg) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct port100_tg_comm_rf_cmd *hdr; struct port100_cb_arg *cb_arg; struct sk_buff *skb; int rc; rc = port100_tg_configure_hw(ddev, NFC_DIGITAL_CONFIG_RF_TECH, NFC_DIGITAL_RF_TECH_106A); if (rc) return rc; rc = port100_tg_configure_hw(ddev, NFC_DIGITAL_CONFIG_FRAMING, NFC_DIGITAL_FRAMING_NFCA_NFC_DEP); if (rc) return rc; cb_arg = kzalloc(sizeof(struct port100_cb_arg), GFP_KERNEL); if (!cb_arg) return -ENOMEM; cb_arg->complete_cb = cb; cb_arg->complete_arg = arg; cb_arg->mdaa = 1; skb = port100_alloc_skb(dev, 0); if (!skb) { kfree(cb_arg); return -ENOMEM; } skb_push(skb, sizeof(struct port100_tg_comm_rf_cmd)); hdr = (struct port100_tg_comm_rf_cmd *)skb->data; memset(hdr, 0, sizeof(struct port100_tg_comm_rf_cmd)); hdr->guard_time = 0; hdr->send_timeout = cpu_to_le16(0xFFFF); hdr->mdaa = 1; hdr->nfca_param[0] = (params->sens_res >> 8) & 0xFF; hdr->nfca_param[1] = params->sens_res & 0xFF; memcpy(hdr->nfca_param + 2, params->nfcid1, 3); hdr->nfca_param[5] = params->sel_res; memcpy(hdr->nfcf_param, params->nfcid2, 8); hdr->nfcf_param[16] = (params->sc >> 8) & 0xFF; hdr->nfcf_param[17] = params->sc & 0xFF; hdr->recv_timeout = cpu_to_le16(timeout); return port100_send_cmd_async(dev, PORT100_CMD_TG_COMM_RF, skb, port100_tg_comm_rf_complete, cb_arg); }

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Thierry Escande333100.00%1100.00%
Total333100.00%1100.00%


static int port100_listen(struct nfc_digital_dev *ddev, u16 timeout, nfc_digital_cmd_complete_t cb, void *arg) { struct port100 *dev = nfc_digital_get_drvdata(ddev); struct sk_buff *skb; skb = port100_alloc_skb(dev, 0); if (!skb) return -ENOMEM; return port100_tg_send_cmd(ddev, skb, timeout, cb, arg); }

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Thierry Escande68100.00%2100.00%
Total68100.00%2100.00%

static struct nfc_digital_ops port100_digital_ops = { .in_configure_hw = port100_in_configure_hw, .in_send_cmd = port100_in_send_cmd, .tg_listen_mdaa = port100_listen_mdaa, .tg_listen = port100_listen, .tg_configure_hw = port100_tg_configure_hw, .tg_send_cmd = port100_tg_send_cmd, .switch_rf = port100_switch_rf, .abort_cmd = port100_abort_cmd, }; static const struct usb_device_id port100_table[] = { { USB_DEVICE(SONY_VENDOR_ID, RCS380_PRODUCT_ID), }, { } }; MODULE_DEVICE_TABLE(usb, port100_table);
static int port100_probe(struct usb_interface *interface, const struct usb_device_id *id) { struct port100 *dev; int rc; struct usb_host_interface *iface_desc; struct usb_endpoint_descriptor *endpoint; int in_endpoint; int out_endpoint; u16 fw_version; u64 cmd_type_mask; int i; dev = devm_kzalloc(&interface->dev, sizeof(struct port100), GFP_KERNEL); if (!dev) return -ENOMEM; mutex_init(&dev->out_urb_lock); dev->udev = usb_get_dev(interface_to_usbdev(interface)); dev->interface = interface; usb_set_intfdata(interface, dev); in_endpoint = out_endpoint = 0; iface_desc = interface->cur_altsetting; for (i = 0; i < iface_desc->desc.bNumEndpoints; ++i) { endpoint = &iface_desc->endpoint[i].desc; if (!in_endpoint && usb_endpoint_is_bulk_in(endpoint)) in_endpoint = endpoint->bEndpointAddress; if (!out_endpoint && usb_endpoint_is_bulk_out(endpoint)) out_endpoint = endpoint->bEndpointAddress; } if (!in_endpoint || !out_endpoint) { nfc_err(&interface->dev, "Could not find bulk-in or bulk-out endpoint\n"); rc = -ENODEV; goto error; } dev->in_urb = usb_alloc_urb(0, GFP_KERNEL); dev->out_urb = usb_alloc_urb(0, GFP_KERNEL); if (!dev->in_urb || !dev->out_urb) { nfc_err(&interface->dev, "Could not allocate USB URBs\n"); rc = -ENOMEM; goto error; } usb_fill_bulk_urb(dev->in_urb, dev->udev, usb_rcvbulkpipe(dev->udev, in_endpoint), NULL, 0, NULL, dev); usb_fill_bulk_urb(dev->out_urb, dev->udev, usb_sndbulkpipe(dev->udev, out_endpoint), NULL, 0, port100_send_complete, dev); dev->skb_headroom = PORT100_FRAME_HEADER_LEN + PORT100_COMM_RF_HEAD_MAX_LEN; dev->skb_tailroom = PORT100_FRAME_TAIL_LEN; INIT_WORK(&dev->cmd_complete_work, port100_wq_cmd_complete); /* The first thing to do with the Port-100 is to set the command type * to be used. If supported we use command type 1. 0 otherwise. */ cmd_type_mask = port100_get_command_type_mask(dev); if (!cmd_type_mask) { nfc_err(&interface->dev, "Could not get supported command types\n"); rc = -ENODEV; goto error; } if (PORT100_CMD_TYPE_IS_SUPPORTED(cmd_type_mask, PORT100_CMD_TYPE_1)) dev->cmd_type = PORT100_CMD_TYPE_1; else dev->cmd_type = PORT100_CMD_TYPE_0; rc = port100_set_command_type(dev, dev->cmd_type); if (rc) { nfc_err(&interface->dev, "The device does not support command type %u\n", dev->cmd_type); goto error; } fw_version = port100_get_firmware_version(dev); if (!fw_version) nfc_err(&interface->dev, "Could not get device firmware version\n"); nfc_info(&interface->dev, "Sony NFC Port-100 Series attached (firmware v%x.%02x)\n", (fw_version & 0xFF00) >> 8, fw_version & 0xFF); dev->nfc_digital_dev = nfc_digital_allocate_device(&port100_digital_ops, PORT100_PROTOCOLS, PORT100_CAPABILITIES, dev->skb_headroom, dev->skb_tailroom); if (!dev->nfc_digital_dev) { nfc_err(&interface->dev, "Could not allocate nfc_digital_dev\n"); rc = -ENOMEM; goto error; } nfc_digital_set_parent_dev(dev->nfc_digital_dev, &interface->dev); nfc_digital_set_drvdata(dev->nfc_digital_dev, dev); rc = nfc_digital_register_device(dev->nfc_digital_dev); if (rc) { nfc_err(&interface->dev, "Could not register digital device\n"); goto free_nfc_dev; } return 0; free_nfc_dev: nfc_digital_free_device(dev->nfc_digital_dev); error: usb_free_urb(dev->in_urb); usb_free_urb(dev->out_urb); usb_put_dev(dev->udev); return rc; }

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Thierry Escande61199.19%375.00%
Joe Perches50.81%125.00%
Total616100.00%4100.00%


static void port100_disconnect(struct usb_interface *interface) { struct port100 *dev; dev = usb_get_intfdata(interface); usb_set_intfdata(interface, NULL); nfc_digital_unregister_device(dev->nfc_digital_dev); nfc_digital_free_device(dev->nfc_digital_dev); usb_kill_urb(dev->in_urb); usb_kill_urb(dev->out_urb); usb_free_urb(dev->in_urb); usb_free_urb(dev->out_urb); usb_put_dev(dev->udev); kfree(dev->cmd); nfc_info(&interface->dev, "Sony Port-100 NFC device disconnected\n"); }

Contributors

PersonTokensPropCommitsCommitProp
Thierry Escande8891.67%250.00%
Alexey Khoroshilov77.29%125.00%
Joe Perches11.04%125.00%
Total96100.00%4100.00%

static struct usb_driver port100_driver = { .name = "port100", .probe = port100_probe, .disconnect = port100_disconnect, .id_table = port100_table, }; module_usb_driver(port100_driver); MODULE_DESCRIPTION("NFC Port-100 series usb driver ver " VERSION); MODULE_VERSION(VERSION); MODULE_LICENSE("GPL");

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PersonTokensPropCommitsCommitProp
Thierry Escande690599.57%1280.00%
Joe Perches180.26%16.67%
Alexey Khoroshilov70.10%16.67%
Axel Lin50.07%16.67%
Total6935100.00%15100.00%
Directory: drivers/nfc
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