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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* TI TRF7970a RFID/NFC Transceiver Driver
*
* Copyright (C) 2013 Texas Instruments Incorporated - http://www.ti.com
*
* Author: Erick Macias <emacias@ti.com>
* Author: Felipe Balbi <balbi@ti.com>
* Author: Mark A. Greer <mgreer@animalcreek.com>
*/
#include <linux/module.h>
#include <linux/device.h>
#include <linux/netdevice.h>
#include <linux/interrupt.h>
#include <linux/pm_runtime.h>
#include <linux/nfc.h>
#include <linux/skbuff.h>
#include <linux/delay.h>
#include <linux/gpio/consumer.h>
#include <linux/of.h>
#include <linux/spi/spi.h>
#include <linux/regulator/consumer.h>
#include <net/nfc/nfc.h>
#include <net/nfc/digital.h>
/* There are 3 ways the host can communicate with the trf7970a:
* parallel mode, SPI with Slave Select (SS) mode, and SPI without
* SS mode. The driver only supports the two SPI modes.
*
* The trf7970a is very timing sensitive and the VIN, EN2, and EN
* pins must asserted in that order and with specific delays in between.
* The delays used in the driver were provided by TI and have been
* confirmed to work with this driver. There is a bug with the current
* version of the trf7970a that requires that EN2 remain low no matter
* what. If it goes high, it will generate an RF field even when in
* passive target mode. TI has indicated that the chip will work okay
* when EN2 is left low. The 'en2-rf-quirk' device tree property
* indicates that trf7970a currently being used has the erratum and
* that EN2 must be kept low.
*
* Timeouts are implemented using the delayed workqueue kernel facility.
* Timeouts are required so things don't hang when there is no response
* from the trf7970a (or tag). Using this mechanism creates a race with
* interrupts, however. That is, an interrupt and a timeout could occur
* closely enough together that one is blocked by the mutex while the other
* executes. When the timeout handler executes first and blocks the
* interrupt handler, it will eventually set the state to IDLE so the
* interrupt handler will check the state and exit with no harm done.
* When the interrupt handler executes first and blocks the timeout handler,
* the cancel_delayed_work() call will know that it didn't cancel the
* work item (i.e., timeout) and will return zero. That return code is
* used by the timer handler to indicate that it should ignore the timeout
* once its unblocked.
*
* Aborting an active command isn't as simple as it seems because the only
* way to abort a command that's already been sent to the tag is so turn
* off power to the tag. If we do that, though, we'd have to go through
* the entire anticollision procedure again but the digital layer doesn't
* support that. So, if an abort is received before trf7970a_send_cmd()
* has sent the command to the tag, it simply returns -ECANCELED. If the
* command has already been sent to the tag, then the driver continues
* normally and recieves the response data (or error) but just before
* sending the data upstream, it frees the rx_skb and sends -ECANCELED
* upstream instead. If the command failed, that error will be sent
* upstream.
*
* When recieving data from a tag and the interrupt status register has
* only the SRX bit set, it means that all of the data has been received
* (once what's in the fifo has been read). However, depending on timing
* an interrupt status with only the SRX bit set may not be recived. In
* those cases, the timeout mechanism is used to wait 20 ms in case more
* data arrives. After 20 ms, it is assumed that all of the data has been
* received and the accumulated rx data is sent upstream. The
* 'TRF7970A_ST_WAIT_FOR_RX_DATA_CONT' state is used for this purpose
* (i.e., it indicates that some data has been received but we're not sure
* if there is more coming so a timeout in this state means all data has
* been received and there isn't an error). The delay is 20 ms since delays
* of ~16 ms have been observed during testing.
*
* When transmitting a frame larger than the FIFO size (127 bytes), the
* driver will wait 20 ms for the FIFO to drain past the low-watermark
* and generate an interrupt. The low-watermark set to 32 bytes so the
* interrupt should fire after 127 - 32 = 95 bytes have been sent. At
* the lowest possible bit rate (6.62 kbps for 15693), it will take up
* to ~14.35 ms so 20 ms is used for the timeout.
*
* Type 2 write and sector select commands respond with a 4-bit ACK or NACK.
* Having only 4 bits in the FIFO won't normally generate an interrupt so
* driver enables the '4_bit_RX' bit of the Special Functions register 1
* to cause an interrupt in that case. Leaving that bit for a read command
* messes up the data returned so it is only enabled when the framing is
* 'NFC_DIGITAL_FRAMING_NFCA_T2T' and the command is not a read command.
* Unfortunately, that means that the driver has to peek into tx frames
* when the framing is 'NFC_DIGITAL_FRAMING_NFCA_T2T'. This is done by
* the trf7970a_per_cmd_config() routine.
*
* ISO/IEC 15693 frames specify whether to use single or double sub-carrier
* frequencies and whether to use low or high data rates in the flags byte
* of the frame. This means that the driver has to peek at all 15693 frames
* to determine what speed to set the communication to. In addition, write
* and lock commands use the OPTION flag to indicate that an EOF must be
* sent to the tag before it will send its response. So the driver has to
* examine all frames for that reason too.
*
* It is unclear how long to wait before sending the EOF. According to the
* Note under Table 1-1 in section 1.6 of
* http://www.ti.com/lit/ug/scbu011/scbu011.pdf, that wait should be at least
* 10 ms for TI Tag-it HF-I tags; however testing has shown that is not long
* enough so 20 ms is used. So the timer is set to 40 ms - 20 ms to drain
* up to 127 bytes in the FIFO at the lowest bit rate plus another 20 ms to
* ensure the wait is long enough before sending the EOF. This seems to work
* reliably.
*/
#define TRF7970A_SUPPORTED_PROTOCOLS \
(NFC_PROTO_MIFARE_MASK | NFC_PROTO_ISO14443_MASK | \
NFC_PROTO_ISO14443_B_MASK | NFC_PROTO_FELICA_MASK | \
NFC_PROTO_ISO15693_MASK | NFC_PROTO_NFC_DEP_MASK)
#define TRF7970A_AUTOSUSPEND_DELAY 30000 /* 30 seconds */
#define TRF7970A_13MHZ_CLOCK_FREQUENCY 13560000
#define TRF7970A_27MHZ_CLOCK_FREQUENCY 27120000
#define TRF7970A_RX_SKB_ALLOC_SIZE 256
#define TRF7970A_FIFO_SIZE 127
/* TX length is 3 nibbles long ==> 4KB - 1 bytes max */
#define TRF7970A_TX_MAX (4096 - 1)
#define TRF7970A_WAIT_FOR_TX_IRQ 20
#define TRF7970A_WAIT_FOR_RX_DATA_TIMEOUT 20
#define TRF7970A_WAIT_FOR_FIFO_DRAIN_TIMEOUT 20
#define TRF7970A_WAIT_TO_ISSUE_ISO15693_EOF 40
/* Guard times for various RF technologies (in us) */
#define TRF7970A_GUARD_TIME_NFCA 5000
#define TRF7970A_GUARD_TIME_NFCB 5000
#define TRF7970A_GUARD_TIME_NFCF 20000
#define TRF7970A_GUARD_TIME_15693 1000
/* Quirks */
/* Erratum: When reading IRQ Status register on trf7970a, we must issue a
* read continuous command for IRQ Status and Collision Position registers.
*/
#define TRF7970A_QUIRK_IRQ_STATUS_READ BIT(0)
#define TRF7970A_QUIRK_EN2_MUST_STAY_LOW BIT(1)
/* Direct commands */
#define TRF7970A_CMD_IDLE 0x00
#define TRF7970A_CMD_SOFT_INIT 0x03
#define TRF7970A_CMD_RF_COLLISION 0x04
#define TRF7970A_CMD_RF_COLLISION_RESPONSE_N 0x05
#define TRF7970A_CMD_RF_COLLISION_RESPONSE_0 0x06
#define TRF7970A_CMD_FIFO_RESET 0x0f
#define TRF7970A_CMD_TRANSMIT_NO_CRC 0x10
#define TRF7970A_CMD_TRANSMIT 0x11
#define TRF7970A_CMD_DELAY_TRANSMIT_NO_CRC 0x12
#define TRF7970A_CMD_DELAY_TRANSMIT 0x13
#define TRF7970A_CMD_EOF 0x14
#define TRF7970A_CMD_CLOSE_SLOT 0x15
#define TRF7970A_CMD_BLOCK_RX 0x16
#define TRF7970A_CMD_ENABLE_RX 0x17
#define TRF7970A_CMD_TEST_INT_RF 0x18
#define TRF7970A_CMD_TEST_EXT_RF 0x19
#define TRF7970A_CMD_RX_GAIN_ADJUST 0x1a
/* Bits determining whether its a direct command or register R/W,
* whether to use a continuous SPI transaction or not, and the actual
* direct cmd opcode or regster address.
*/
#define TRF7970A_CMD_BIT_CTRL BIT(7)
#define TRF7970A_CMD_BIT_RW BIT(6)
#define TRF7970A_CMD_BIT_CONTINUOUS BIT(5)
#define TRF7970A_CMD_BIT_OPCODE(opcode) ((opcode) & 0x1f)
/* Registers addresses */
#define TRF7970A_CHIP_STATUS_CTRL 0x00
#define TRF7970A_ISO_CTRL 0x01
#define TRF7970A_ISO14443B_TX_OPTIONS 0x02
#define TRF7970A_ISO14443A_HIGH_BITRATE_OPTIONS 0x03
#define TRF7970A_TX_TIMER_SETTING_H_BYTE 0x04
#define TRF7970A_TX_TIMER_SETTING_L_BYTE 0x05
#define TRF7970A_TX_PULSE_LENGTH_CTRL 0x06
#define TRF7970A_RX_NO_RESPONSE_WAIT 0x07
#define TRF7970A_RX_WAIT_TIME 0x08
#define TRF7970A_MODULATOR_SYS_CLK_CTRL 0x09
#define TRF7970A_RX_SPECIAL_SETTINGS 0x0a
#define TRF7970A_REG_IO_CTRL 0x0b
#define TRF7970A_IRQ_STATUS 0x0c
#define TRF7970A_COLLISION_IRQ_MASK 0x0d
#define TRF7970A_COLLISION_POSITION 0x0e
#define TRF7970A_RSSI_OSC_STATUS 0x0f
#define TRF7970A_SPECIAL_FCN_REG1 0x10
#define TRF7970A_SPECIAL_FCN_REG2 0x11
#define TRF7970A_RAM1 0x12
#define TRF7970A_RAM2 0x13
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS 0x14
#define TRF7970A_NFC_LOW_FIELD_LEVEL 0x16
#define TRF7970A_NFCID1 0x17
#define TRF7970A_NFC_TARGET_LEVEL 0x18
#define TRF79070A_NFC_TARGET_PROTOCOL 0x19
#define TRF7970A_TEST_REGISTER1 0x1a
#define TRF7970A_TEST_REGISTER2 0x1b
#define TRF7970A_FIFO_STATUS 0x1c
#define TRF7970A_TX_LENGTH_BYTE1 0x1d
#define TRF7970A_TX_LENGTH_BYTE2 0x1e
#define TRF7970A_FIFO_IO_REGISTER 0x1f
/* Chip Status Control Register Bits */
#define TRF7970A_CHIP_STATUS_VRS5_3 BIT(0)
#define TRF7970A_CHIP_STATUS_REC_ON BIT(1)
#define TRF7970A_CHIP_STATUS_AGC_ON BIT(2)
#define TRF7970A_CHIP_STATUS_PM_ON BIT(3)
#define TRF7970A_CHIP_STATUS_RF_PWR BIT(4)
#define TRF7970A_CHIP_STATUS_RF_ON BIT(5)
#define TRF7970A_CHIP_STATUS_DIRECT BIT(6)
#define TRF7970A_CHIP_STATUS_STBY BIT(7)
/* ISO Control Register Bits */
#define TRF7970A_ISO_CTRL_15693_SGL_1OF4_662 0x00
#define TRF7970A_ISO_CTRL_15693_SGL_1OF256_662 0x01
#define TRF7970A_ISO_CTRL_15693_SGL_1OF4_2648 0x02
#define TRF7970A_ISO_CTRL_15693_SGL_1OF256_2648 0x03
#define TRF7970A_ISO_CTRL_15693_DBL_1OF4_667a 0x04
#define TRF7970A_ISO_CTRL_15693_DBL_1OF256_667 0x05
#define TRF7970A_ISO_CTRL_15693_DBL_1OF4_2669 0x06
#define TRF7970A_ISO_CTRL_15693_DBL_1OF256_2669 0x07
#define TRF7970A_ISO_CTRL_14443A_106 0x08
#define TRF7970A_ISO_CTRL_14443A_212 0x09
#define TRF7970A_ISO_CTRL_14443A_424 0x0a
#define TRF7970A_ISO_CTRL_14443A_848 0x0b
#define TRF7970A_ISO_CTRL_14443B_106 0x0c
#define TRF7970A_ISO_CTRL_14443B_212 0x0d
#define TRF7970A_ISO_CTRL_14443B_424 0x0e
#define TRF7970A_ISO_CTRL_14443B_848 0x0f
#define TRF7970A_ISO_CTRL_FELICA_212 0x1a
#define TRF7970A_ISO_CTRL_FELICA_424 0x1b
#define TRF7970A_ISO_CTRL_NFC_NFCA_106 0x01
#define TRF7970A_ISO_CTRL_NFC_NFCF_212 0x02
#define TRF7970A_ISO_CTRL_NFC_NFCF_424 0x03
#define TRF7970A_ISO_CTRL_NFC_CE_14443A 0x00
#define TRF7970A_ISO_CTRL_NFC_CE_14443B 0x01
#define TRF7970A_ISO_CTRL_NFC_CE BIT(2)
#define TRF7970A_ISO_CTRL_NFC_ACTIVE BIT(3)
#define TRF7970A_ISO_CTRL_NFC_INITIATOR BIT(4)
#define TRF7970A_ISO_CTRL_NFC_NFC_CE_MODE BIT(5)
#define TRF7970A_ISO_CTRL_RFID BIT(5)
#define TRF7970A_ISO_CTRL_DIR_MODE BIT(6)
#define TRF7970A_ISO_CTRL_RX_CRC_N BIT(7) /* true == No CRC */
#define TRF7970A_ISO_CTRL_RFID_SPEED_MASK 0x1f
/* Modulator and SYS_CLK Control Register Bits */
#define TRF7970A_MODULATOR_DEPTH(n) ((n) & 0x7)
#define TRF7970A_MODULATOR_DEPTH_ASK10 (TRF7970A_MODULATOR_DEPTH(0))
#define TRF7970A_MODULATOR_DEPTH_OOK (TRF7970A_MODULATOR_DEPTH(1))
#define TRF7970A_MODULATOR_DEPTH_ASK7 (TRF7970A_MODULATOR_DEPTH(2))
#define TRF7970A_MODULATOR_DEPTH_ASK8_5 (TRF7970A_MODULATOR_DEPTH(3))
#define TRF7970A_MODULATOR_DEPTH_ASK13 (TRF7970A_MODULATOR_DEPTH(4))
#define TRF7970A_MODULATOR_DEPTH_ASK16 (TRF7970A_MODULATOR_DEPTH(5))
#define TRF7970A_MODULATOR_DEPTH_ASK22 (TRF7970A_MODULATOR_DEPTH(6))
#define TRF7970A_MODULATOR_DEPTH_ASK30 (TRF7970A_MODULATOR_DEPTH(7))
#define TRF7970A_MODULATOR_EN_ANA BIT(3)
#define TRF7970A_MODULATOR_CLK(n) (((n) & 0x3) << 4)
#define TRF7970A_MODULATOR_CLK_DISABLED (TRF7970A_MODULATOR_CLK(0))
#define TRF7970A_MODULATOR_CLK_3_6 (TRF7970A_MODULATOR_CLK(1))
#define TRF7970A_MODULATOR_CLK_6_13 (TRF7970A_MODULATOR_CLK(2))
#define TRF7970A_MODULATOR_CLK_13_27 (TRF7970A_MODULATOR_CLK(3))
#define TRF7970A_MODULATOR_EN_OOK BIT(6)
#define TRF7970A_MODULATOR_27MHZ BIT(7)
#define TRF7970A_RX_SPECIAL_SETTINGS_NO_LIM BIT(0)
#define TRF7970A_RX_SPECIAL_SETTINGS_AGCR BIT(1)
#define TRF7970A_RX_SPECIAL_SETTINGS_GD_0DB (0x0 << 2)
#define TRF7970A_RX_SPECIAL_SETTINGS_GD_5DB (0x1 << 2)
#define TRF7970A_RX_SPECIAL_SETTINGS_GD_10DB (0x2 << 2)
#define TRF7970A_RX_SPECIAL_SETTINGS_GD_15DB (0x3 << 2)
#define TRF7970A_RX_SPECIAL_SETTINGS_HBT BIT(4)
#define TRF7970A_RX_SPECIAL_SETTINGS_M848 BIT(5)
#define TRF7970A_RX_SPECIAL_SETTINGS_C424 BIT(6)
#define TRF7970A_RX_SPECIAL_SETTINGS_C212 BIT(7)
#define TRF7970A_REG_IO_CTRL_VRS(v) ((v) & 0x07)
#define TRF7970A_REG_IO_CTRL_IO_LOW BIT(5)
#define TRF7970A_REG_IO_CTRL_EN_EXT_PA BIT(6)
#define TRF7970A_REG_IO_CTRL_AUTO_REG BIT(7)
/* IRQ Status Register Bits */
#define TRF7970A_IRQ_STATUS_NORESP BIT(0) /* ISO15693 only */
#define TRF7970A_IRQ_STATUS_NFC_COL_ERROR BIT(0)
#define TRF7970A_IRQ_STATUS_COL BIT(1)
#define TRF7970A_IRQ_STATUS_FRAMING_EOF_ERROR BIT(2)
#define TRF7970A_IRQ_STATUS_NFC_RF BIT(2)
#define TRF7970A_IRQ_STATUS_PARITY_ERROR BIT(3)
#define TRF7970A_IRQ_STATUS_NFC_SDD BIT(3)
#define TRF7970A_IRQ_STATUS_CRC_ERROR BIT(4)
#define TRF7970A_IRQ_STATUS_NFC_PROTO_ERROR BIT(4)
#define TRF7970A_IRQ_STATUS_FIFO BIT(5)
#define TRF7970A_IRQ_STATUS_SRX BIT(6)
#define TRF7970A_IRQ_STATUS_TX BIT(7)
#define TRF7970A_IRQ_STATUS_ERROR \
(TRF7970A_IRQ_STATUS_COL | \
TRF7970A_IRQ_STATUS_FRAMING_EOF_ERROR | \
TRF7970A_IRQ_STATUS_PARITY_ERROR | \
TRF7970A_IRQ_STATUS_CRC_ERROR)
#define TRF7970A_RSSI_OSC_STATUS_RSSI_MASK (BIT(2) | BIT(1) | BIT(0))
#define TRF7970A_RSSI_OSC_STATUS_RSSI_X_MASK (BIT(5) | BIT(4) | BIT(3))
#define TRF7970A_RSSI_OSC_STATUS_RSSI_OSC_OK BIT(6)
#define TRF7970A_SPECIAL_FCN_REG1_COL_7_6 BIT(0)
#define TRF7970A_SPECIAL_FCN_REG1_14_ANTICOLL BIT(1)
#define TRF7970A_SPECIAL_FCN_REG1_4_BIT_RX BIT(2)
#define TRF7970A_SPECIAL_FCN_REG1_SP_DIR_MODE BIT(3)
#define TRF7970A_SPECIAL_FCN_REG1_NEXT_SLOT_37US BIT(4)
#define TRF7970A_SPECIAL_FCN_REG1_PAR43 BIT(5)
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLH_124 (0x0 << 2)
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLH_120 (0x1 << 2)
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLH_112 (0x2 << 2)
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLH_96 (0x3 << 2)
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLL_4 0x0
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLL_8 0x1
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLL_16 0x2
#define TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLL_32 0x3
#define TRF7970A_NFC_LOW_FIELD_LEVEL_RFDET(v) ((v) & 0x07)
#define TRF7970A_NFC_LOW_FIELD_LEVEL_CLEX_DIS BIT(7)
#define TRF7970A_NFC_TARGET_LEVEL_RFDET(v) ((v) & 0x07)
#define TRF7970A_NFC_TARGET_LEVEL_HI_RF BIT(3)
#define TRF7970A_NFC_TARGET_LEVEL_SDD_EN BIT(5)
#define TRF7970A_NFC_TARGET_LEVEL_LD_S_4BYTES (0x0 << 6)
#define TRF7970A_NFC_TARGET_LEVEL_LD_S_7BYTES (0x1 << 6)
#define TRF7970A_NFC_TARGET_LEVEL_LD_S_10BYTES (0x2 << 6)
#define TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_106 BIT(0)
#define TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_212 BIT(1)
#define TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_424 (BIT(0) | BIT(1))
#define TRF79070A_NFC_TARGET_PROTOCOL_PAS_14443B BIT(2)
#define TRF79070A_NFC_TARGET_PROTOCOL_PAS_106 BIT(3)
#define TRF79070A_NFC_TARGET_PROTOCOL_FELICA BIT(4)
#define TRF79070A_NFC_TARGET_PROTOCOL_RF_L BIT(6)
#define TRF79070A_NFC_TARGET_PROTOCOL_RF_H BIT(7)
#define TRF79070A_NFC_TARGET_PROTOCOL_106A \
(TRF79070A_NFC_TARGET_PROTOCOL_RF_H | \
TRF79070A_NFC_TARGET_PROTOCOL_RF_L | \
TRF79070A_NFC_TARGET_PROTOCOL_PAS_106 | \
TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_106)
#define TRF79070A_NFC_TARGET_PROTOCOL_106B \
(TRF79070A_NFC_TARGET_PROTOCOL_RF_H | \
TRF79070A_NFC_TARGET_PROTOCOL_RF_L | \
TRF79070A_NFC_TARGET_PROTOCOL_PAS_14443B | \
TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_106)
#define TRF79070A_NFC_TARGET_PROTOCOL_212F \
(TRF79070A_NFC_TARGET_PROTOCOL_RF_H | \
TRF79070A_NFC_TARGET_PROTOCOL_RF_L | \
TRF79070A_NFC_TARGET_PROTOCOL_FELICA | \
TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_212)
#define TRF79070A_NFC_TARGET_PROTOCOL_424F \
(TRF79070A_NFC_TARGET_PROTOCOL_RF_H | \
TRF79070A_NFC_TARGET_PROTOCOL_RF_L | \
TRF79070A_NFC_TARGET_PROTOCOL_FELICA | \
TRF79070A_NFC_TARGET_PROTOCOL_NFCBR_424)
#define TRF7970A_FIFO_STATUS_OVERFLOW BIT(7)
/* NFC (ISO/IEC 14443A) Type 2 Tag commands */
#define NFC_T2T_CMD_READ 0x30
/* ISO 15693 commands codes */
#define ISO15693_CMD_INVENTORY 0x01
#define ISO15693_CMD_READ_SINGLE_BLOCK 0x20
#define ISO15693_CMD_WRITE_SINGLE_BLOCK 0x21
#define ISO15693_CMD_LOCK_BLOCK 0x22
#define ISO15693_CMD_READ_MULTIPLE_BLOCK 0x23
#define ISO15693_CMD_WRITE_MULTIPLE_BLOCK 0x24
#define ISO15693_CMD_SELECT 0x25
#define ISO15693_CMD_RESET_TO_READY 0x26
#define ISO15693_CMD_WRITE_AFI 0x27
#define ISO15693_CMD_LOCK_AFI 0x28
#define ISO15693_CMD_WRITE_DSFID 0x29
#define ISO15693_CMD_LOCK_DSFID 0x2a
#define ISO15693_CMD_GET_SYSTEM_INFO 0x2b
#define ISO15693_CMD_GET_MULTIPLE_BLOCK_SECURITY_STATUS 0x2c
/* ISO 15693 request and response flags */
#define ISO15693_REQ_FLAG_SUB_CARRIER BIT(0)
#define ISO15693_REQ_FLAG_DATA_RATE BIT(1)
#define ISO15693_REQ_FLAG_INVENTORY BIT(2)
#define ISO15693_REQ_FLAG_PROTOCOL_EXT BIT(3)
#define ISO15693_REQ_FLAG_SELECT BIT(4)
#define ISO15693_REQ_FLAG_AFI BIT(4)
#define ISO15693_REQ_FLAG_ADDRESS BIT(5)
#define ISO15693_REQ_FLAG_NB_SLOTS BIT(5)
#define ISO15693_REQ_FLAG_OPTION BIT(6)
#define ISO15693_REQ_FLAG_SPEED_MASK \
(ISO15693_REQ_FLAG_SUB_CARRIER | ISO15693_REQ_FLAG_DATA_RATE)
enum trf7970a_state {
TRF7970A_ST_PWR_OFF,
TRF7970A_ST_RF_OFF,
TRF7970A_ST_IDLE,
TRF7970A_ST_IDLE_RX_BLOCKED,
TRF7970A_ST_WAIT_FOR_TX_FIFO,
TRF7970A_ST_WAIT_FOR_RX_DATA,
TRF7970A_ST_WAIT_FOR_RX_DATA_CONT,
TRF7970A_ST_WAIT_TO_ISSUE_EOF,
TRF7970A_ST_LISTENING,
TRF7970A_ST_LISTENING_MD,
TRF7970A_ST_MAX
};
struct trf7970a {
enum trf7970a_state state;
struct device *dev;
struct spi_device *spi;
struct regulator *regulator;
struct nfc_digital_dev *ddev;
u32 quirks;
bool is_initiator;
bool aborting;
struct sk_buff *tx_skb;
struct sk_buff *rx_skb;
nfc_digital_cmd_complete_t cb;
void *cb_arg;
u8 chip_status_ctrl;
u8 iso_ctrl;
u8 iso_ctrl_tech;
u8 modulator_sys_clk_ctrl;
u8 special_fcn_reg1;
u8 io_ctrl;
unsigned int guard_time;
int technology;
int framing;
u8 md_rf_tech;
u8 tx_cmd;
bool issue_eof;
struct gpio_desc *en_gpiod;
struct gpio_desc *en2_gpiod;
struct mutex lock;
unsigned int timeout;
bool ignore_timeout;
struct delayed_work timeout_work;
};
static int trf7970a_cmd(struct trf7970a *trf, u8 opcode)
{
u8 cmd = TRF7970A_CMD_BIT_CTRL | TRF7970A_CMD_BIT_OPCODE(opcode);
int ret;
dev_dbg(trf->dev, "cmd: 0x%x\n", cmd);
ret = spi_write(trf->spi, &cmd, 1);
if (ret)
dev_err(trf->dev, "%s - cmd: 0x%x, ret: %d\n", __func__, cmd,
ret);
return ret;
}
static int trf7970a_read(struct trf7970a *trf, u8 reg, u8 *val)
{
u8 addr = TRF7970A_CMD_BIT_RW | reg;
int ret;
ret = spi_write_then_read(trf->spi, &addr, 1, val, 1);
if (ret)
dev_err(trf->dev, "%s - addr: 0x%x, ret: %d\n", __func__, addr,
ret);
dev_dbg(trf->dev, "read(0x%x): 0x%x\n", addr, *val);
return ret;
}
static int trf7970a_read_cont(struct trf7970a *trf, u8 reg, u8 *buf,
size_t len)
{
u8 addr = reg | TRF7970A_CMD_BIT_RW | TRF7970A_CMD_BIT_CONTINUOUS;
struct spi_transfer t[2];
struct spi_message m;
int ret;
dev_dbg(trf->dev, "read_cont(0x%x, %zd)\n", addr, len);
spi_message_init(&m);
memset(&t, 0, sizeof(t));
t[0].tx_buf = &addr;
t[0].len = sizeof(addr);
spi_message_add_tail(&t[0], &m);
t[1].rx_buf = buf;
t[1].len = len;
spi_message_add_tail(&t[1], &m);
ret = spi_sync(trf->spi, &m);
if (ret)
dev_err(trf->dev, "%s - addr: 0x%x, ret: %d\n", __func__, addr,
ret);
return ret;
}
static int trf7970a_write(struct trf7970a *trf, u8 reg, u8 val)
{
u8 buf[2] = { reg, val };
int ret;
dev_dbg(trf->dev, "write(0x%x): 0x%x\n", reg, val);
ret = spi_write(trf->spi, buf, 2);
if (ret)
dev_err(trf->dev, "%s - write: 0x%x 0x%x, ret: %d\n", __func__,
buf[0], buf[1], ret);
return ret;
}
static int trf7970a_read_irqstatus(struct trf7970a *trf, u8 *status)
{
int ret;
u8 buf[2];
u8 addr;
addr = TRF7970A_IRQ_STATUS | TRF7970A_CMD_BIT_RW;
if (trf->quirks & TRF7970A_QUIRK_IRQ_STATUS_READ) {
addr |= TRF7970A_CMD_BIT_CONTINUOUS;
ret = spi_write_then_read(trf->spi, &addr, 1, buf, 2);
} else {
ret = spi_write_then_read(trf->spi, &addr, 1, buf, 1);
}
if (ret)
dev_err(trf->dev, "%s - irqstatus: Status read failed: %d\n",
__func__, ret);
else
*status = buf[0];
return ret;
}
static int trf7970a_read_target_proto(struct trf7970a *trf, u8 *target_proto)
{
int ret;
u8 buf[2];
u8 addr;
addr = TRF79070A_NFC_TARGET_PROTOCOL | TRF7970A_CMD_BIT_RW |
TRF7970A_CMD_BIT_CONTINUOUS;
ret = spi_write_then_read(trf->spi, &addr, 1, buf, 2);
if (ret)
dev_err(trf->dev, "%s - target_proto: Read failed: %d\n",
__func__, ret);
else
*target_proto = buf[0];
return ret;
}
static int trf7970a_mode_detect(struct trf7970a *trf, u8 *rf_tech)
{
int ret;
u8 target_proto, tech;
ret = trf7970a_read_target_proto(trf, &target_proto);
if (ret)
return ret;
switch (target_proto) {
case TRF79070A_NFC_TARGET_PROTOCOL_106A:
tech = NFC_DIGITAL_RF_TECH_106A;
break;
case TRF79070A_NFC_TARGET_PROTOCOL_106B:
tech = NFC_DIGITAL_RF_TECH_106B;
break;
case TRF79070A_NFC_TARGET_PROTOCOL_212F:
tech = NFC_DIGITAL_RF_TECH_212F;
break;
case TRF79070A_NFC_TARGET_PROTOCOL_424F:
tech = NFC_DIGITAL_RF_TECH_424F;
break;
default:
dev_dbg(trf->dev, "%s - mode_detect: target_proto: 0x%x\n",
__func__, target_proto);
return -EIO;
}
*rf_tech = tech;
return ret;
}
static void trf7970a_send_upstream(struct trf7970a *trf)
{
dev_kfree_skb_any(trf->tx_skb);
trf->tx_skb = NULL;
if (trf->rx_skb && !IS_ERR(trf->rx_skb) && !trf->aborting)
print_hex_dump_debug("trf7970a rx data: ", DUMP_PREFIX_NONE,
16, 1, trf->rx_skb->data, trf->rx_skb->len,
false);
trf->state = TRF7970A_ST_IDLE;
if (trf->aborting) {
dev_dbg(trf->dev, "Abort process complete\n");
if (!IS_ERR(trf->rx_skb)) {
kfree_skb(trf->rx_skb);
trf->rx_skb = ERR_PTR(-ECANCELED);
}
trf->aborting = false;
}
trf->cb(trf->ddev, trf->cb_arg, trf->rx_skb);
trf->rx_skb = NULL;
}
static void trf7970a_send_err_upstream(struct trf7970a *trf, int errno)
{
dev_dbg(trf->dev, "Error - state: %d, errno: %d\n", trf->state, errno);
cancel_delayed_work(&trf->timeout_work);
kfree_skb(trf->rx_skb);
trf->rx_skb = ERR_PTR(errno);
trf7970a_send_upstream(trf);
}
static int trf7970a_transmit(struct trf7970a *trf, struct sk_buff *skb,
unsigned int len, u8 *prefix,
unsigned int prefix_len)
{
struct spi_transfer t[2];
struct spi_message m;
unsigned int timeout;
int ret;
print_hex_dump_debug("trf7970a tx data: ", DUMP_PREFIX_NONE,
16, 1, skb->data, len, false);
spi_message_init(&m);
memset(&t, 0, sizeof(t));
t[0].tx_buf = prefix;
t[0].len = prefix_len;
spi_message_add_tail(&t[0], &m);
t[1].tx_buf = skb->data;
t[1].len = len;
spi_message_add_tail(&t[1], &m);
ret = spi_sync(trf->spi, &m);
if (ret) {
dev_err(trf->dev, "%s - Can't send tx data: %d\n", __func__,
ret);
return ret;
}
skb_pull(skb, len);
if (skb->len > 0) {
trf->state = TRF7970A_ST_WAIT_FOR_TX_FIFO;
timeout = TRF7970A_WAIT_FOR_FIFO_DRAIN_TIMEOUT;
} else {
if (trf->issue_eof) {
trf->state = TRF7970A_ST_WAIT_TO_ISSUE_EOF;
timeout = TRF7970A_WAIT_TO_ISSUE_ISO15693_EOF;
} else {
trf->state = TRF7970A_ST_WAIT_FOR_RX_DATA;
if (!trf->timeout)
timeout = TRF7970A_WAIT_FOR_TX_IRQ;
else
timeout = trf->timeout;
}
}
dev_dbg(trf->dev, "Setting timeout for %d ms, state: %d\n", timeout,
trf->state);
schedule_delayed_work(&trf->timeout_work, msecs_to_jiffies(timeout));
return 0;
}
static void trf7970a_fill_fifo(struct trf7970a *trf)
{
struct sk_buff *skb = trf->tx_skb;
unsigned int len;
int ret;
u8 fifo_bytes;
u8 prefix;
ret = trf7970a_read(trf, TRF7970A_FIFO_STATUS, &fifo_bytes);
if (ret) {
trf7970a_send_err_upstream(trf, ret);
return;
}
dev_dbg(trf->dev, "Filling FIFO - fifo_bytes: 0x%x\n", fifo_bytes);
fifo_bytes &= ~TRF7970A_FIFO_STATUS_OVERFLOW;
/* Calculate how much more data can be written to the fifo */
len = TRF7970A_FIFO_SIZE - fifo_bytes;
if (!len) {
schedule_delayed_work(&trf->timeout_work,
msecs_to_jiffies(TRF7970A_WAIT_FOR_FIFO_DRAIN_TIMEOUT));
return;
}
len = min(skb->len, len);
prefix = TRF7970A_CMD_BIT_CONTINUOUS | TRF7970A_FIFO_IO_REGISTER;
ret = trf7970a_transmit(trf, skb, len, &prefix, sizeof(prefix));
if (ret)
trf7970a_send_err_upstream(trf, ret);
}
static void trf7970a_drain_fifo(struct trf7970a *trf, u8 status)
{
struct sk_buff *skb = trf->rx_skb;
int ret;
u8 fifo_bytes;
if (status & TRF7970A_IRQ_STATUS_ERROR) {
trf7970a_send_err_upstream(trf, -EIO);
return;
}
ret = trf7970a_read(trf, TRF7970A_FIFO_STATUS, &fifo_bytes);
if (ret) {
trf7970a_send_err_upstream(trf, ret);
return;
}
dev_dbg(trf->dev, "Draining FIFO - fifo_bytes: 0x%x\n", fifo_bytes);
fifo_bytes &= ~TRF7970A_FIFO_STATUS_OVERFLOW;
if (!fifo_bytes)
goto no_rx_data;
if (fifo_bytes > skb_tailroom(skb)) {
skb = skb_copy_expand(skb, skb_headroom(skb),
max_t(int, fifo_bytes,
TRF7970A_RX_SKB_ALLOC_SIZE),
GFP_KERNEL);
if (!skb) {
trf7970a_send_err_upstream(trf, -ENOMEM);
return;
}
kfree_skb(trf->rx_skb);
trf->rx_skb = skb;
}
ret = trf7970a_read_cont(trf, TRF7970A_FIFO_IO_REGISTER,
skb_put(skb, fifo_bytes), fifo_bytes);
if (ret) {
trf7970a_send_err_upstream(trf, ret);
return;
}
/* If received Type 2 ACK/NACK, shift right 4 bits and pass up */
if ((trf->framing == NFC_DIGITAL_FRAMING_NFCA_T2T) && (skb->len == 1) &&
(trf->special_fcn_reg1 == TRF7970A_SPECIAL_FCN_REG1_4_BIT_RX)) {
skb->data[0] >>= 4;
status = TRF7970A_IRQ_STATUS_SRX;
} else {
trf->state = TRF7970A_ST_WAIT_FOR_RX_DATA_CONT;
ret = trf7970a_read(trf, TRF7970A_FIFO_STATUS, &fifo_bytes);
if (ret) {
trf7970a_send_err_upstream(trf, ret);
return;
}
fifo_bytes &= ~TRF7970A_FIFO_STATUS_OVERFLOW;
/* If there are bytes in the FIFO, set status to '0' so
* the if stmt below doesn't fire and the driver will wait
* for the trf7970a to generate another RX interrupt.
*/
if (fifo_bytes)
status = 0;
}
no_rx_data:
if (status == TRF7970A_IRQ_STATUS_SRX) { /* Receive complete */
trf7970a_send_upstream(trf);
return;
}
dev_dbg(trf->dev, "Setting timeout for %d ms\n",
TRF7970A_WAIT_FOR_RX_DATA_TIMEOUT);
schedule_delayed_work(&trf->timeout_work,
msecs_to_jiffies(TRF7970A_WAIT_FOR_RX_DATA_TIMEOUT));
}
static irqreturn_t trf7970a_irq(int irq, void *dev_id)
{
struct trf7970a *trf = dev_id;
int ret;
u8 status, fifo_bytes, iso_ctrl;
mutex_lock(&trf->lock);
if (trf->state == TRF7970A_ST_RF_OFF) {
mutex_unlock(&trf->lock);
return IRQ_NONE;
}
ret = trf7970a_read_irqstatus(trf, &status);
if (ret) {
mutex_unlock(&trf->lock);
return IRQ_NONE;
}
dev_dbg(trf->dev, "IRQ - state: %d, status: 0x%x\n", trf->state,
status);
if (!status) {
mutex_unlock(&trf->lock);
return IRQ_NONE;
}
switch (trf->state) {
case TRF7970A_ST_IDLE:
case TRF7970A_ST_IDLE_RX_BLOCKED:
/* If initiator and getting interrupts caused by RF noise,
* turn off the receiver to avoid unnecessary interrupts.
* It will be turned back on in trf7970a_send_cmd() when
* the next command is issued.
*/
if (trf->is_initiator && (status & TRF7970A_IRQ_STATUS_ERROR)) {
trf7970a_cmd(trf, TRF7970A_CMD_BLOCK_RX);
trf->state = TRF7970A_ST_IDLE_RX_BLOCKED;
}
trf7970a_cmd(trf, TRF7970A_CMD_FIFO_RESET);
break;
case TRF7970A_ST_WAIT_FOR_TX_FIFO:
if (status & TRF7970A_IRQ_STATUS_TX) {
trf->ignore_timeout =
!cancel_delayed_work(&trf->timeout_work);
trf7970a_fill_fifo(trf);
} else {
trf7970a_send_err_upstream(trf, -EIO);
}
break;
case TRF7970A_ST_WAIT_FOR_RX_DATA:
case TRF7970A_ST_WAIT_FOR_RX_DATA_CONT:
if (status & TRF7970A_IRQ_STATUS_SRX) {
trf->ignore_timeout =
!cancel_delayed_work(&trf->timeout_work);
trf7970a_drain_fifo(trf, status);
} else if (status & TRF7970A_IRQ_STATUS_FIFO) {
ret = trf7970a_read(trf, TRF7970A_FIFO_STATUS,
&fifo_bytes);
fifo_bytes &= ~TRF7970A_FIFO_STATUS_OVERFLOW;
if (ret)
trf7970a_send_err_upstream(trf, ret);
else if (!fifo_bytes)
trf7970a_cmd(trf, TRF7970A_CMD_FIFO_RESET);
} else if ((status == TRF7970A_IRQ_STATUS_TX) ||
(!trf->is_initiator &&
(status == (TRF7970A_IRQ_STATUS_TX |
TRF7970A_IRQ_STATUS_NFC_RF)))) {
trf7970a_cmd(trf, TRF7970A_CMD_FIFO_RESET);
if (!trf->timeout) {
trf->ignore_timeout =
!cancel_delayed_work(&trf->timeout_work);
trf->rx_skb = ERR_PTR(0);
trf7970a_send_upstream(trf);
break;
}
if (trf->is_initiator)
break;
iso_ctrl = trf->iso_ctrl;
switch (trf->framing) {
case NFC_DIGITAL_FRAMING_NFCA_STANDARD:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT_NO_CRC;
iso_ctrl |= TRF7970A_ISO_CTRL_RX_CRC_N;
trf->iso_ctrl = 0xff; /* Force ISO_CTRL write */
break;
case NFC_DIGITAL_FRAMING_NFCA_STANDARD_WITH_CRC_A:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT;
iso_ctrl &= ~TRF7970A_ISO_CTRL_RX_CRC_N;
trf->iso_ctrl = 0xff; /* Force ISO_CTRL write */
break;
case NFC_DIGITAL_FRAMING_NFCA_ANTICOL_COMPLETE:
ret = trf7970a_write(trf,
TRF7970A_SPECIAL_FCN_REG1,
TRF7970A_SPECIAL_FCN_REG1_14_ANTICOLL);
if (ret)
goto err_unlock_exit;
trf->special_fcn_reg1 =
TRF7970A_SPECIAL_FCN_REG1_14_ANTICOLL;
break;
default:
break;
}
if (iso_ctrl != trf->iso_ctrl) {
ret = trf7970a_write(trf, TRF7970A_ISO_CTRL,
iso_ctrl);
if (ret)
goto err_unlock_exit;
trf->iso_ctrl = iso_ctrl;
}
} else {
trf7970a_send_err_upstream(trf, -EIO);
}
break;
case TRF7970A_ST_WAIT_TO_ISSUE_EOF:
if (status != TRF7970A_IRQ_STATUS_TX)
trf7970a_send_err_upstream(trf, -EIO);
break;
case TRF7970A_ST_LISTENING:
if (status & TRF7970A_IRQ_STATUS_SRX) {
trf->ignore_timeout =
!cancel_delayed_work(&trf->timeout_work);
trf7970a_drain_fifo(trf, status);
} else if (!(status & TRF7970A_IRQ_STATUS_NFC_RF)) {
trf7970a_send_err_upstream(trf, -EIO);
}
break;
case TRF7970A_ST_LISTENING_MD:
if (status & TRF7970A_IRQ_STATUS_SRX) {
trf->ignore_timeout =
!cancel_delayed_work(&trf->timeout_work);
ret = trf7970a_mode_detect(trf, &trf->md_rf_tech);
if (ret) {
trf7970a_send_err_upstream(trf, ret);
} else {
trf->state = TRF7970A_ST_LISTENING;
trf7970a_drain_fifo(trf, status);
}
} else if (!(status & TRF7970A_IRQ_STATUS_NFC_RF)) {
trf7970a_send_err_upstream(trf, -EIO);
}
break;
default:
dev_err(trf->dev, "%s - Driver in invalid state: %d\n",
__func__, trf->state);
}
err_unlock_exit:
mutex_unlock(&trf->lock);
return IRQ_HANDLED;
}
static void trf7970a_issue_eof(struct trf7970a *trf)
{
int ret;
dev_dbg(trf->dev, "Issuing EOF\n");
ret = trf7970a_cmd(trf, TRF7970A_CMD_FIFO_RESET);
if (ret)
trf7970a_send_err_upstream(trf, ret);
ret = trf7970a_cmd(trf, TRF7970A_CMD_EOF);
if (ret)
trf7970a_send_err_upstream(trf, ret);
trf->state = TRF7970A_ST_WAIT_FOR_RX_DATA;
dev_dbg(trf->dev, "Setting timeout for %d ms, state: %d\n",
trf->timeout, trf->state);
schedule_delayed_work(&trf->timeout_work,
msecs_to_jiffies(trf->timeout));
}
static void trf7970a_timeout_work_handler(struct work_struct *work)
{
struct trf7970a *trf = container_of(work, struct trf7970a,
timeout_work.work);
dev_dbg(trf->dev, "Timeout - state: %d, ignore_timeout: %d\n",
trf->state, trf->ignore_timeout);
mutex_lock(&trf->lock);
if (trf->ignore_timeout)
trf->ignore_timeout = false;
else if (trf->state == TRF7970A_ST_WAIT_FOR_RX_DATA_CONT)
trf7970a_drain_fifo(trf, TRF7970A_IRQ_STATUS_SRX);
else if (trf->state == TRF7970A_ST_WAIT_TO_ISSUE_EOF)
trf7970a_issue_eof(trf);
else
trf7970a_send_err_upstream(trf, -ETIMEDOUT);
mutex_unlock(&trf->lock);
}
static int trf7970a_init(struct trf7970a *trf)
{
int ret;
dev_dbg(trf->dev, "Initializing device - state: %d\n", trf->state);
ret = trf7970a_cmd(trf, TRF7970A_CMD_SOFT_INIT);
if (ret)
goto err_out;
ret = trf7970a_cmd(trf, TRF7970A_CMD_IDLE);
if (ret)
goto err_out;
ret = trf7970a_write(trf, TRF7970A_REG_IO_CTRL,
trf->io_ctrl | TRF7970A_REG_IO_CTRL_VRS(0x1));
if (ret)
goto err_out;
ret = trf7970a_write(trf, TRF7970A_NFC_TARGET_LEVEL, 0);
if (ret)
goto err_out;
usleep_range(1000, 2000);
trf->chip_status_ctrl &= ~TRF7970A_CHIP_STATUS_RF_ON;
ret = trf7970a_write(trf, TRF7970A_MODULATOR_SYS_CLK_CTRL,
trf->modulator_sys_clk_ctrl);
if (ret)
goto err_out;
ret = trf7970a_write(trf, TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS,
TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLH_96 |
TRF7970A_ADJUTABLE_FIFO_IRQ_LEVELS_WLL_32);
if (ret)
goto err_out;
ret = trf7970a_write(trf, TRF7970A_SPECIAL_FCN_REG1, 0);
if (ret)
goto err_out;
trf->special_fcn_reg1 = 0;
trf->iso_ctrl = 0xff;
return 0;
err_out:
dev_dbg(trf->dev, "Couldn't init device: %d\n", ret);
return ret;
}
static void trf7970a_switch_rf_off(struct trf7970a *trf)
{
if ((trf->state == TRF7970A_ST_PWR_OFF) ||
(trf->state == TRF7970A_ST_RF_OFF))
return;
dev_dbg(trf->dev, "Switching rf off\n");
trf->chip_status_ctrl &= ~TRF7970A_CHIP_STATUS_RF_ON;
trf7970a_write(trf, TRF7970A_CHIP_STATUS_CTRL, trf->chip_status_ctrl);
trf->aborting = false;
trf->state = TRF7970A_ST_RF_OFF;
pm_runtime_mark_last_busy(trf->dev);
pm_runtime_put_autosuspend(trf->dev);
}
static int trf7970a_switch_rf_on(struct trf7970a *trf)
{
int ret;
dev_dbg(trf->dev, "Switching rf on\n");
pm_runtime_get_sync(trf->dev);
if (trf->state != TRF7970A_ST_RF_OFF) { /* Power on, RF off */
dev_err(trf->dev, "%s - Incorrect state: %d\n", __func__,
trf->state);
return -EINVAL;
}
ret = trf7970a_init(trf);
if (ret) {
dev_err(trf->dev, "%s - Can't initialize: %d\n", __func__, ret);
return ret;
}
trf->state = TRF7970A_ST_IDLE;
return 0;
}
static int trf7970a_switch_rf(struct nfc_digital_dev *ddev, bool on)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
int ret = 0;
dev_dbg(trf->dev, "Switching RF - state: %d, on: %d\n", trf->state, on);
mutex_lock(&trf->lock);
if (on) {
switch (trf->state) {
case TRF7970A_ST_PWR_OFF:
case TRF7970A_ST_RF_OFF:
ret = trf7970a_switch_rf_on(trf);
break;
case TRF7970A_ST_IDLE:
case TRF7970A_ST_IDLE_RX_BLOCKED:
break;
default:
dev_err(trf->dev, "%s - Invalid request: %d %d\n",
__func__, trf->state, on);
trf7970a_switch_rf_off(trf);
ret = -EINVAL;
}
} else {
switch (trf->state) {
case TRF7970A_ST_PWR_OFF:
case TRF7970A_ST_RF_OFF:
break;
default:
dev_err(trf->dev, "%s - Invalid request: %d %d\n",
__func__, trf->state, on);
ret = -EINVAL;
/* FALLTHROUGH */
case TRF7970A_ST_IDLE:
case TRF7970A_ST_IDLE_RX_BLOCKED:
case TRF7970A_ST_WAIT_FOR_RX_DATA:
case TRF7970A_ST_WAIT_FOR_RX_DATA_CONT:
trf7970a_switch_rf_off(trf);
}
}
mutex_unlock(&trf->lock);
return ret;
}
static int trf7970a_in_config_rf_tech(struct trf7970a *trf, int tech)
{
int ret = 0;
dev_dbg(trf->dev, "rf technology: %d\n", tech);
switch (tech) {
case NFC_DIGITAL_RF_TECH_106A:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_14443A_106;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_OOK;
trf->guard_time = TRF7970A_GUARD_TIME_NFCA;
break;
case NFC_DIGITAL_RF_TECH_106B:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_14443B_106;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_ASK10;
trf->guard_time = TRF7970A_GUARD_TIME_NFCB;
break;
case NFC_DIGITAL_RF_TECH_212F:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_FELICA_212;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_ASK10;
trf->guard_time = TRF7970A_GUARD_TIME_NFCF;
break;
case NFC_DIGITAL_RF_TECH_424F:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_FELICA_424;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_ASK10;
trf->guard_time = TRF7970A_GUARD_TIME_NFCF;
break;
case NFC_DIGITAL_RF_TECH_ISO15693:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_15693_SGL_1OF4_2648;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_OOK;
trf->guard_time = TRF7970A_GUARD_TIME_15693;
break;
default:
dev_dbg(trf->dev, "Unsupported rf technology: %d\n", tech);
return -EINVAL;
}
trf->technology = tech;
/* If in initiator mode and not changing the RF tech due to a
* PSL sequence (indicated by 'trf->iso_ctrl == 0xff' from
* trf7970a_init()), clear the NFC Target Detection Level register
* due to erratum.
*/
if (trf->iso_ctrl == 0xff)
ret = trf7970a_write(trf, TRF7970A_NFC_TARGET_LEVEL, 0);
return ret;
}
static int trf7970a_is_rf_field(struct trf7970a *trf, bool *is_rf_field)
{
int ret;
u8 rssi;
ret = trf7970a_write(trf, TRF7970A_CHIP_STATUS_CTRL,
trf->chip_status_ctrl |
TRF7970A_CHIP_STATUS_REC_ON);
if (ret)
return ret;
ret = trf7970a_cmd(trf, TRF7970A_CMD_TEST_EXT_RF);
if (ret)
return ret;
usleep_range(50, 60);
ret = trf7970a_read(trf, TRF7970A_RSSI_OSC_STATUS, &rssi);
if (ret)
return ret;
ret = trf7970a_write(trf, TRF7970A_CHIP_STATUS_CTRL,
trf->chip_status_ctrl);
if (ret)
return ret;
if (rssi & TRF7970A_RSSI_OSC_STATUS_RSSI_MASK)
*is_rf_field = true;
else
*is_rf_field = false;
return 0;
}
static int trf7970a_in_config_framing(struct trf7970a *trf, int framing)
{
u8 iso_ctrl = trf->iso_ctrl_tech;
bool is_rf_field = false;
int ret;
dev_dbg(trf->dev, "framing: %d\n", framing);
switch (framing) {
case NFC_DIGITAL_FRAMING_NFCA_SHORT:
case NFC_DIGITAL_FRAMING_NFCA_STANDARD:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT_NO_CRC;
iso_ctrl |= TRF7970A_ISO_CTRL_RX_CRC_N;
break;
case NFC_DIGITAL_FRAMING_NFCA_STANDARD_WITH_CRC_A:
case NFC_DIGITAL_FRAMING_NFCA_T4T:
case NFC_DIGITAL_FRAMING_NFCB:
case NFC_DIGITAL_FRAMING_NFCB_T4T:
case NFC_DIGITAL_FRAMING_NFCF:
case NFC_DIGITAL_FRAMING_NFCF_T3T:
case NFC_DIGITAL_FRAMING_ISO15693_INVENTORY:
case NFC_DIGITAL_FRAMING_ISO15693_T5T:
case NFC_DIGITAL_FRAMING_NFCA_NFC_DEP:
case NFC_DIGITAL_FRAMING_NFCF_NFC_DEP:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT;
iso_ctrl &= ~TRF7970A_ISO_CTRL_RX_CRC_N;
break;
case NFC_DIGITAL_FRAMING_NFCA_T2T:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT;
iso_ctrl |= TRF7970A_ISO_CTRL_RX_CRC_N;
break;
default:
dev_dbg(trf->dev, "Unsupported Framing: %d\n", framing);
return -EINVAL;
}
trf->framing = framing;
if (!(trf->chip_status_ctrl & TRF7970A_CHIP_STATUS_RF_ON)) {
ret = trf7970a_is_rf_field(trf, &is_rf_field);
if (ret)
return ret;
if (is_rf_field)
return -EBUSY;
}
if (iso_ctrl != trf->iso_ctrl) {
ret = trf7970a_write(trf, TRF7970A_ISO_CTRL, iso_ctrl);
if (ret)
return ret;
trf->iso_ctrl = iso_ctrl;
ret = trf7970a_write(trf, TRF7970A_MODULATOR_SYS_CLK_CTRL,
trf->modulator_sys_clk_ctrl);
if (ret)
return ret;
}
if (!(trf->chip_status_ctrl & TRF7970A_CHIP_STATUS_RF_ON)) {
ret = trf7970a_write(trf, TRF7970A_CHIP_STATUS_CTRL,
trf->chip_status_ctrl |
TRF7970A_CHIP_STATUS_RF_ON);
if (ret)
return ret;
trf->chip_status_ctrl |= TRF7970A_CHIP_STATUS_RF_ON;
usleep_range(trf->guard_time, trf->guard_time + 1000);
}
return 0;
}
static int trf7970a_in_configure_hw(struct nfc_digital_dev *ddev, int type,
int param)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
int ret;
dev_dbg(trf->dev, "Configure hw - type: %d, param: %d\n", type, param);
mutex_lock(&trf->lock);
trf->is_initiator = true;
if ((trf->state == TRF7970A_ST_PWR_OFF) ||
(trf->state == TRF7970A_ST_RF_OFF)) {
ret = trf7970a_switch_rf_on(trf);
if (ret)
goto err_unlock;
}
switch (type) {
case NFC_DIGITAL_CONFIG_RF_TECH:
ret = trf7970a_in_config_rf_tech(trf, param);
break;
case NFC_DIGITAL_CONFIG_FRAMING:
ret = trf7970a_in_config_framing(trf, param);
break;
default:
dev_dbg(trf->dev, "Unknown type: %d\n", type);
ret = -EINVAL;
}
err_unlock:
mutex_unlock(&trf->lock);
return ret;
}
static int trf7970a_is_iso15693_write_or_lock(u8 cmd)
{
switch (cmd) {
case ISO15693_CMD_WRITE_SINGLE_BLOCK:
case ISO15693_CMD_LOCK_BLOCK:
case ISO15693_CMD_WRITE_MULTIPLE_BLOCK:
case ISO15693_CMD_WRITE_AFI:
case ISO15693_CMD_LOCK_AFI:
case ISO15693_CMD_WRITE_DSFID:
case ISO15693_CMD_LOCK_DSFID:
return 1;
break;
default:
return 0;
}
}
static int trf7970a_per_cmd_config(struct trf7970a *trf, struct sk_buff *skb)
{
u8 *req = skb->data;
u8 special_fcn_reg1, iso_ctrl;
int ret;
trf->issue_eof = false;
/* When issuing Type 2 read command, make sure the '4_bit_RX' bit in
* special functions register 1 is cleared; otherwise, its a write or
* sector select command and '4_bit_RX' must be set.
*
* When issuing an ISO 15693 command, inspect the flags byte to see
* what speed to use. Also, remember if the OPTION flag is set on
* a Type 5 write or lock command so the driver will know that it
* has to send an EOF in order to get a response.
*/
if ((trf->technology == NFC_DIGITAL_RF_TECH_106A) &&
(trf->framing == NFC_DIGITAL_FRAMING_NFCA_T2T)) {
if (req[0] == NFC_T2T_CMD_READ)
special_fcn_reg1 = 0;
else
special_fcn_reg1 = TRF7970A_SPECIAL_FCN_REG1_4_BIT_RX;
if (special_fcn_reg1 != trf->special_fcn_reg1) {
ret = trf7970a_write(trf, TRF7970A_SPECIAL_FCN_REG1,
special_fcn_reg1);
if (ret)
return ret;
trf->special_fcn_reg1 = special_fcn_reg1;
}
} else if (trf->technology == NFC_DIGITAL_RF_TECH_ISO15693) {
iso_ctrl = trf->iso_ctrl & ~TRF7970A_ISO_CTRL_RFID_SPEED_MASK;
switch (req[0] & ISO15693_REQ_FLAG_SPEED_MASK) {
case 0x00:
iso_ctrl |= TRF7970A_ISO_CTRL_15693_SGL_1OF4_662;
break;
case ISO15693_REQ_FLAG_SUB_CARRIER:
iso_ctrl |= TRF7970A_ISO_CTRL_15693_DBL_1OF4_667a;
break;
case ISO15693_REQ_FLAG_DATA_RATE:
iso_ctrl |= TRF7970A_ISO_CTRL_15693_SGL_1OF4_2648;
break;
case (ISO15693_REQ_FLAG_SUB_CARRIER |
ISO15693_REQ_FLAG_DATA_RATE):
iso_ctrl |= TRF7970A_ISO_CTRL_15693_DBL_1OF4_2669;
break;
}
if (iso_ctrl != trf->iso_ctrl) {
ret = trf7970a_write(trf, TRF7970A_ISO_CTRL, iso_ctrl);
if (ret)
return ret;
trf->iso_ctrl = iso_ctrl;
}
if ((trf->framing == NFC_DIGITAL_FRAMING_ISO15693_T5T) &&
trf7970a_is_iso15693_write_or_lock(req[1]) &&
(req[0] & ISO15693_REQ_FLAG_OPTION))
trf->issue_eof = true;
}
return 0;
}
static int trf7970a_send_cmd(struct nfc_digital_dev *ddev,
struct sk_buff *skb, u16 timeout,
nfc_digital_cmd_complete_t cb, void *arg)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
u8 prefix[5];
unsigned int len;
int ret;
u8 status;
dev_dbg(trf->dev, "New request - state: %d, timeout: %d ms, len: %d\n",
trf->state, timeout, skb->len);
if (skb->len > TRF7970A_TX_MAX)
return -EINVAL;
mutex_lock(&trf->lock);
if ((trf->state != TRF7970A_ST_IDLE) &&
(trf->state != TRF7970A_ST_IDLE_RX_BLOCKED)) {
dev_err(trf->dev, "%s - Bogus state: %d\n", __func__,
trf->state);
ret = -EIO;
goto out_err;
}
if (trf->aborting) {
dev_dbg(trf->dev, "Abort process complete\n");
trf->aborting = false;
ret = -ECANCELED;
goto out_err;
}
if (timeout) {
trf->rx_skb = nfc_alloc_recv_skb(TRF7970A_RX_SKB_ALLOC_SIZE,
GFP_KERNEL);
if (!trf->rx_skb) {
dev_dbg(trf->dev, "Can't alloc rx_skb\n");
ret = -ENOMEM;
goto out_err;
}
}
if (trf->state == TRF7970A_ST_IDLE_RX_BLOCKED) {
ret = trf7970a_cmd(trf, TRF7970A_CMD_ENABLE_RX);
if (ret)
goto out_err;
trf->state = TRF7970A_ST_IDLE;
}
if (trf->is_initiator) {
ret = trf7970a_per_cmd_config(trf, skb);
if (ret)
goto out_err;
}
trf->ddev = ddev;
trf->tx_skb = skb;
trf->cb = cb;
trf->cb_arg = arg;
trf->timeout = timeout;
trf->ignore_timeout = false;
len = skb->len;
/* TX data must be prefixed with a FIFO reset cmd, a cmd that depends
* on what the current framing is, the address of the TX length byte 1
* register (0x1d), and the 2 byte length of the data to be transmitted.
* That totals 5 bytes.
*/
prefix[0] = TRF7970A_CMD_BIT_CTRL |
TRF7970A_CMD_BIT_OPCODE(TRF7970A_CMD_FIFO_RESET);
prefix[1] = TRF7970A_CMD_BIT_CTRL |
TRF7970A_CMD_BIT_OPCODE(trf->tx_cmd);
prefix[2] = TRF7970A_CMD_BIT_CONTINUOUS | TRF7970A_TX_LENGTH_BYTE1;
if (trf->framing == NFC_DIGITAL_FRAMING_NFCA_SHORT) {
prefix[3] = 0x00;
prefix[4] = 0x0f; /* 7 bits */
} else {
prefix[3] = (len & 0xf00) >> 4;
prefix[3] |= ((len & 0xf0) >> 4);
prefix[4] = ((len & 0x0f) << 4);
}
len = min_t(int, skb->len, TRF7970A_FIFO_SIZE);
/* Clear possible spurious interrupt */
ret = trf7970a_read_irqstatus(trf, &status);
if (ret)
goto out_err;
ret = trf7970a_transmit(trf, skb, len, prefix, sizeof(prefix));
if (ret) {
kfree_skb(trf->rx_skb);
trf->rx_skb = NULL;
}
out_err:
mutex_unlock(&trf->lock);
return ret;
}
static int trf7970a_tg_config_rf_tech(struct trf7970a *trf, int tech)
{
int ret = 0;
dev_dbg(trf->dev, "rf technology: %d\n", tech);
switch (tech) {
case NFC_DIGITAL_RF_TECH_106A:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_NFC_NFC_CE_MODE |
TRF7970A_ISO_CTRL_NFC_CE | TRF7970A_ISO_CTRL_NFC_CE_14443A;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_OOK;
break;
case NFC_DIGITAL_RF_TECH_212F:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_NFC_NFC_CE_MODE |
TRF7970A_ISO_CTRL_NFC_NFCF_212;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_ASK10;
break;
case NFC_DIGITAL_RF_TECH_424F:
trf->iso_ctrl_tech = TRF7970A_ISO_CTRL_NFC_NFC_CE_MODE |
TRF7970A_ISO_CTRL_NFC_NFCF_424;
trf->modulator_sys_clk_ctrl =
(trf->modulator_sys_clk_ctrl & 0xf8) |
TRF7970A_MODULATOR_DEPTH_ASK10;
break;
default:
dev_dbg(trf->dev, "Unsupported rf technology: %d\n", tech);
return -EINVAL;
}
trf->technology = tech;
/* Normally we write the ISO_CTRL register in
* trf7970a_tg_config_framing() because the framing can change
* the value written. However, when sending a PSL RES,
* digital_tg_send_psl_res_complete() doesn't call
* trf7970a_tg_config_framing() so we must write the register
* here.
*/
if ((trf->framing == NFC_DIGITAL_FRAMING_NFC_DEP_ACTIVATED) &&
(trf->iso_ctrl_tech != trf->iso_ctrl)) {
ret = trf7970a_write(trf, TRF7970A_ISO_CTRL,
trf->iso_ctrl_tech);
trf->iso_ctrl = trf->iso_ctrl_tech;
}
return ret;
}
/* Since this is a target routine, several of the framing calls are
* made between receiving the request and sending the response so they
* should take effect until after the response is sent. This is accomplished
* by skipping the ISO_CTRL register write here and doing it in the interrupt
* handler.
*/
static int trf7970a_tg_config_framing(struct trf7970a *trf, int framing)
{
u8 iso_ctrl = trf->iso_ctrl_tech;
int ret;
dev_dbg(trf->dev, "framing: %d\n", framing);
switch (framing) {
case NFC_DIGITAL_FRAMING_NFCA_NFC_DEP:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT_NO_CRC;
iso_ctrl |= TRF7970A_ISO_CTRL_RX_CRC_N;
break;
case NFC_DIGITAL_FRAMING_NFCA_STANDARD:
case NFC_DIGITAL_FRAMING_NFCA_STANDARD_WITH_CRC_A:
case NFC_DIGITAL_FRAMING_NFCA_ANTICOL_COMPLETE:
/* These ones are applied in the interrupt handler */
iso_ctrl = trf->iso_ctrl; /* Don't write to ISO_CTRL yet */
break;
case NFC_DIGITAL_FRAMING_NFCF_NFC_DEP:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT;
iso_ctrl &= ~TRF7970A_ISO_CTRL_RX_CRC_N;
break;
case NFC_DIGITAL_FRAMING_NFC_DEP_ACTIVATED:
trf->tx_cmd = TRF7970A_CMD_TRANSMIT;
iso_ctrl &= ~TRF7970A_ISO_CTRL_RX_CRC_N;
break;
default:
dev_dbg(trf->dev, "Unsupported Framing: %d\n", framing);
return -EINVAL;
}
trf->framing = framing;
if (iso_ctrl != trf->iso_ctrl) {
ret = trf7970a_write(trf, TRF7970A_ISO_CTRL, iso_ctrl);
if (ret)
return ret;
trf->iso_ctrl = iso_ctrl;
ret = trf7970a_write(trf, TRF7970A_MODULATOR_SYS_CLK_CTRL,
trf->modulator_sys_clk_ctrl);
if (ret)
return ret;
}
if (!(trf->chip_status_ctrl & TRF7970A_CHIP_STATUS_RF_ON)) {
ret = trf7970a_write(trf, TRF7970A_CHIP_STATUS_CTRL,
trf->chip_status_ctrl |
TRF7970A_CHIP_STATUS_RF_ON);
if (ret)
return ret;
trf->chip_status_ctrl |= TRF7970A_CHIP_STATUS_RF_ON;
}
return 0;
}
static int trf7970a_tg_configure_hw(struct nfc_digital_dev *ddev, int type,
int param)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
int ret;
dev_dbg(trf->dev, "Configure hw - type: %d, param: %d\n", type, param);
mutex_lock(&trf->lock);
trf->is_initiator = false;
if ((trf->state == TRF7970A_ST_PWR_OFF) ||
(trf->state == TRF7970A_ST_RF_OFF)) {
ret = trf7970a_switch_rf_on(trf);
if (ret)
goto err_unlock;
}
switch (type) {
case NFC_DIGITAL_CONFIG_RF_TECH:
ret = trf7970a_tg_config_rf_tech(trf, param);
break;
case NFC_DIGITAL_CONFIG_FRAMING:
ret = trf7970a_tg_config_framing(trf, param);
break;
default:
dev_dbg(trf->dev, "Unknown type: %d\n", type);
ret = -EINVAL;
}
err_unlock:
mutex_unlock(&trf->lock);
return ret;
}
static int _trf7970a_tg_listen(struct nfc_digital_dev *ddev, u16 timeout,
nfc_digital_cmd_complete_t cb, void *arg,
bool mode_detect)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
int ret;
mutex_lock(&trf->lock);
if ((trf->state != TRF7970A_ST_IDLE) &&
(trf->state != TRF7970A_ST_IDLE_RX_BLOCKED)) {
dev_err(trf->dev, "%s - Bogus state: %d\n", __func__,
trf->state);
ret = -EIO;
goto out_err;
}
if (trf->aborting) {
dev_dbg(trf->dev, "Abort process complete\n");
trf->aborting = false;
ret = -ECANCELED;
goto out_err;
}
trf->rx_skb = nfc_alloc_recv_skb(TRF7970A_RX_SKB_ALLOC_SIZE,
GFP_KERNEL);
if (!trf->rx_skb) {
dev_dbg(trf->dev, "Can't alloc rx_skb\n");
ret = -ENOMEM;
goto out_err;
}
ret = trf7970a_write(trf, TRF7970A_RX_SPECIAL_SETTINGS,
TRF7970A_RX_SPECIAL_SETTINGS_HBT |
TRF7970A_RX_SPECIAL_SETTINGS_M848 |
TRF7970A_RX_SPECIAL_SETTINGS_C424 |
TRF7970A_RX_SPECIAL_SETTINGS_C212);
if (ret)
goto out_err;
ret = trf7970a_write(trf, TRF7970A_REG_IO_CTRL,
trf->io_ctrl | TRF7970A_REG_IO_CTRL_VRS(0x1));
if (ret)
goto out_err;
ret = trf7970a_write(trf, TRF7970A_NFC_LOW_FIELD_LEVEL,
TRF7970A_NFC_LOW_FIELD_LEVEL_RFDET(0x3));
if (ret)
goto out_err;
ret = trf7970a_write(trf, TRF7970A_NFC_TARGET_LEVEL,
TRF7970A_NFC_TARGET_LEVEL_RFDET(0x7));
if (ret)
goto out_err;
trf->ddev = ddev;
trf->cb = cb;
trf->cb_arg = arg;
trf->timeout = timeout;
trf->ignore_timeout = false;
ret = trf7970a_cmd(trf, TRF7970A_CMD_ENABLE_RX);
if (ret)
goto out_err;
trf->state = mode_detect ? TRF7970A_ST_LISTENING_MD :
TRF7970A_ST_LISTENING;
schedule_delayed_work(&trf->timeout_work, msecs_to_jiffies(timeout));
out_err:
mutex_unlock(&trf->lock);
return ret;
}
static int trf7970a_tg_listen(struct nfc_digital_dev *ddev, u16 timeout,
nfc_digital_cmd_complete_t cb, void *arg)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
dev_dbg(trf->dev, "Listen - state: %d, timeout: %d ms\n",
trf->state, timeout);
return _trf7970a_tg_listen(ddev, timeout, cb, arg, false);
}
static int trf7970a_tg_listen_md(struct nfc_digital_dev *ddev,
u16 timeout, nfc_digital_cmd_complete_t cb,
void *arg)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
int ret;
dev_dbg(trf->dev, "Listen MD - state: %d, timeout: %d ms\n",
trf->state, timeout);
ret = trf7970a_tg_configure_hw(ddev, NFC_DIGITAL_CONFIG_RF_TECH,
NFC_DIGITAL_RF_TECH_106A);
if (ret)
return ret;
ret = trf7970a_tg_configure_hw(ddev, NFC_DIGITAL_CONFIG_FRAMING,
NFC_DIGITAL_FRAMING_NFCA_NFC_DEP);
if (ret)
return ret;
return _trf7970a_tg_listen(ddev, timeout, cb, arg, true);
}
static int trf7970a_tg_get_rf_tech(struct nfc_digital_dev *ddev, u8 *rf_tech)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
dev_dbg(trf->dev, "Get RF Tech - state: %d, rf_tech: %d\n",
trf->state, trf->md_rf_tech);
*rf_tech = trf->md_rf_tech;
return 0;
}
static void trf7970a_abort_cmd(struct nfc_digital_dev *ddev)
{
struct trf7970a *trf = nfc_digital_get_drvdata(ddev);
dev_dbg(trf->dev, "Abort process initiated\n");
mutex_lock(&trf->lock);
switch (trf->state) {
case TRF7970A_ST_WAIT_FOR_TX_FIFO:
case TRF7970A_ST_WAIT_FOR_RX_DATA:
case TRF7970A_ST_WAIT_FOR_RX_DATA_CONT:
case TRF7970A_ST_WAIT_TO_ISSUE_EOF:
trf->aborting = true;
break;
case TRF7970A_ST_LISTENING:
trf->ignore_timeout = !cancel_delayed_work(&trf->timeout_work);
trf7970a_send_err_upstream(trf, -ECANCELED);
dev_dbg(trf->dev, "Abort process complete\n");
break;
default:
break;
}
mutex_unlock(&trf->lock);
}
static struct nfc_digital_ops trf7970a_nfc_ops = {
.in_configure_hw = trf7970a_in_configure_hw,
.in_send_cmd = trf7970a_send_cmd,
.tg_configure_hw = trf7970a_tg_configure_hw,
.tg_send_cmd = trf7970a_send_cmd,
.tg_listen = trf7970a_tg_listen,
.tg_listen_md = trf7970a_tg_listen_md,
.tg_get_rf_tech = trf7970a_tg_get_rf_tech,
.switch_rf = trf7970a_switch_rf,
.abort_cmd = trf7970a_abort_cmd,
};
static int trf7970a_power_up(struct trf7970a *trf)
{
int ret;
dev_dbg(trf->dev, "Powering up - state: %d\n", trf->state);
if (trf->state != TRF7970A_ST_PWR_OFF)
return 0;
ret = regulator_enable(trf->regulator);
if (ret) {
dev_err(trf->dev, "%s - Can't enable VIN: %d\n", __func__, ret);
return ret;
}
usleep_range(5000, 6000);
if (trf->en2_gpiod &&
!(trf->quirks & TRF7970A_QUIRK_EN2_MUST_STAY_LOW)) {
gpiod_set_value_cansleep(trf->en2_gpiod, 1);
usleep_range(1000, 2000);
}
gpiod_set_value_cansleep(trf->en_gpiod, 1);
usleep_range(20000, 21000);
trf->state = TRF7970A_ST_RF_OFF;
return 0;
}
static int trf7970a_power_down(struct trf7970a *trf)
{
int ret;
dev_dbg(trf->dev, "Powering down - state: %d\n", trf->state);
if (trf->state == TRF7970A_ST_PWR_OFF)
return 0;
if (trf->state != TRF7970A_ST_RF_OFF) {
dev_dbg(trf->dev, "Can't power down - not RF_OFF state (%d)\n",
trf->state);
return -EBUSY;
}
gpiod_set_value_cansleep(trf->en_gpiod, 0);
if (trf->en2_gpiod && !(trf->quirks & TRF7970A_QUIRK_EN2_MUST_STAY_LOW))
gpiod_set_value_cansleep(trf->en2_gpiod, 0);
ret = regulator_disable(trf->regulator);
if (ret)
dev_err(trf->dev, "%s - Can't disable VIN: %d\n", __func__,
ret);
trf->state = TRF7970A_ST_PWR_OFF;
return ret;
}
static int trf7970a_startup(struct trf7970a *trf)
{
int ret;
ret = trf7970a_power_up(trf);
if (ret)
return ret;
pm_runtime_set_active(trf->dev);
pm_runtime_enable(trf->dev);
pm_runtime_mark_last_busy(trf->dev);
return 0;
}
static void trf7970a_shutdown(struct trf7970a *trf)
{
switch (trf->state) {
case TRF7970A_ST_WAIT_FOR_TX_FIFO:
case TRF7970A_ST_WAIT_FOR_RX_DATA:
case TRF7970A_ST_WAIT_FOR_RX_DATA_CONT:
case TRF7970A_ST_WAIT_TO_ISSUE_EOF:
case TRF7970A_ST_LISTENING:
trf7970a_send_err_upstream(trf, -ECANCELED);
/* FALLTHROUGH */
case TRF7970A_ST_IDLE:
case TRF7970A_ST_IDLE_RX_BLOCKED:
trf7970a_switch_rf_off(trf);
break;
default:
break;
}
pm_runtime_disable(trf->dev);
pm_runtime_set_suspended(trf->dev);
trf7970a_power_down(trf);
}
static int trf7970a_get_autosuspend_delay(struct device_node *np)
{
int autosuspend_delay, ret;
ret = of_property_read_u32(np, "autosuspend-delay", &autosuspend_delay);
if (ret)
autosuspend_delay = TRF7970A_AUTOSUSPEND_DELAY;
return autosuspend_delay;
}
static int trf7970a_probe(struct spi_device *spi)
{
struct device_node *np = spi->dev.of_node;
struct trf7970a *trf;
int uvolts, autosuspend_delay, ret;
u32 clk_freq = TRF7970A_13MHZ_CLOCK_FREQUENCY;
if (!np) {
dev_err(&spi->dev, "No Device Tree entry\n");
return -EINVAL;
}
trf = devm_kzalloc(&spi->dev, sizeof(*trf), GFP_KERNEL);
if (!trf)
return -ENOMEM;
trf->state = TRF7970A_ST_PWR_OFF;
trf->dev = &spi->dev;
trf->spi = spi;
spi->mode = SPI_MODE_1;
spi->bits_per_word = 8;
ret = spi_setup(spi);
if (ret < 0) {
dev_err(trf->dev, "Can't set up SPI Communication\n");
return ret;
}
if (of_property_read_bool(np, "irq-status-read-quirk"))
trf->quirks |= TRF7970A_QUIRK_IRQ_STATUS_READ;
/* There are two enable pins - only EN must be present in the DT */
trf->en_gpiod = devm_gpiod_get_index(trf->dev, "ti,enable", 0,
GPIOD_OUT_LOW);
if (IS_ERR(trf->en_gpiod)) {
dev_err(trf->dev, "No EN GPIO property\n");
return PTR_ERR(trf->en_gpiod);
}
trf->en2_gpiod = devm_gpiod_get_index_optional(trf->dev, "ti,enable", 1,
GPIOD_OUT_LOW);
if (!trf->en2_gpiod) {
dev_info(trf->dev, "No EN2 GPIO property\n");
} else if (IS_ERR(trf->en2_gpiod)) {
dev_err(trf->dev, "Error getting EN2 GPIO property: %ld\n",
PTR_ERR(trf->en2_gpiod));
return PTR_ERR(trf->en2_gpiod);
} else if (of_property_read_bool(np, "en2-rf-quirk")) {
trf->quirks |= TRF7970A_QUIRK_EN2_MUST_STAY_LOW;
}
of_property_read_u32(np, "clock-frequency", &clk_freq);
if ((clk_freq != TRF7970A_27MHZ_CLOCK_FREQUENCY) &&
(clk_freq != TRF7970A_13MHZ_CLOCK_FREQUENCY)) {
dev_err(trf->dev,
"clock-frequency (%u Hz) unsupported\n", clk_freq);
return -EINVAL;
}
if (clk_freq == TRF7970A_27MHZ_CLOCK_FREQUENCY) {
trf->modulator_sys_clk_ctrl = TRF7970A_MODULATOR_27MHZ;
dev_dbg(trf->dev, "trf7970a configured for 27MHz crystal\n");
} else {
trf->modulator_sys_clk_ctrl = 0;
}
ret = devm_request_threaded_irq(trf->dev, spi->irq, NULL,
trf7970a_irq,
IRQF_TRIGGER_RISING | IRQF_ONESHOT,
"trf7970a", trf);
if (ret) {
dev_err(trf->dev, "Can't request IRQ#%d: %d\n", spi->irq, ret);
return ret;
}
mutex_init(&trf->lock);
INIT_DELAYED_WORK(&trf->timeout_work, trf7970a_timeout_work_handler);
trf->regulator = devm_regulator_get(&spi->dev, "vin");
if (IS_ERR(trf->regulator)) {
ret = PTR_ERR(trf->regulator);
dev_err(trf->dev, "Can't get VIN regulator: %d\n", ret);
goto err_destroy_lock;
}
ret = regulator_enable(trf->regulator);
if (ret) {
dev_err(trf->dev, "Can't enable VIN: %d\n", ret);
goto err_destroy_lock;
}
uvolts = regulator_get_voltage(trf->regulator);
if (uvolts > 4000000)
trf->chip_status_ctrl = TRF7970A_CHIP_STATUS_VRS5_3;
trf->regulator = devm_regulator_get(&spi->dev, "vdd-io");
if (IS_ERR(trf->regulator)) {
ret = PTR_ERR(trf->regulator);
dev_err(trf->dev, "Can't get VDD_IO regulator: %d\n", ret);
goto err_destroy_lock;
}
ret = regulator_enable(trf->regulator);
if (ret) {
dev_err(trf->dev, "Can't enable VDD_IO: %d\n", ret);
goto err_destroy_lock;
}
if (regulator_get_voltage(trf->regulator) == 1800000) {
trf->io_ctrl = TRF7970A_REG_IO_CTRL_IO_LOW;
dev_dbg(trf->dev, "trf7970a config vdd_io to 1.8V\n");
}
trf->ddev = nfc_digital_allocate_device(&trf7970a_nfc_ops,
TRF7970A_SUPPORTED_PROTOCOLS,
NFC_DIGITAL_DRV_CAPS_IN_CRC |
NFC_DIGITAL_DRV_CAPS_TG_CRC, 0,
0);
if (!trf->ddev) {
dev_err(trf->dev, "Can't allocate NFC digital device\n");
ret = -ENOMEM;
goto err_disable_regulator;
}
nfc_digital_set_parent_dev(trf->ddev, trf->dev);
nfc_digital_set_drvdata(trf->ddev, trf);
spi_set_drvdata(spi, trf);
autosuspend_delay = trf7970a_get_autosuspend_delay(np);
pm_runtime_set_autosuspend_delay(trf->dev, autosuspend_delay);
pm_runtime_use_autosuspend(trf->dev);
ret = trf7970a_startup(trf);
if (ret)
goto err_free_ddev;
ret = nfc_digital_register_device(trf->ddev);
if (ret) {
dev_err(trf->dev, "Can't register NFC digital device: %d\n",
ret);
goto err_shutdown;
}
return 0;
err_shutdown:
trf7970a_shutdown(trf);
err_free_ddev:
nfc_digital_free_device(trf->ddev);
err_disable_regulator:
regulator_disable(trf->regulator);
err_destroy_lock:
mutex_destroy(&trf->lock);
return ret;
}
static int trf7970a_remove(struct spi_device *spi)
{
struct trf7970a *trf = spi_get_drvdata(spi);
mutex_lock(&trf->lock);
trf7970a_shutdown(trf);
mutex_unlock(&trf->lock);
nfc_digital_unregister_device(trf->ddev);
nfc_digital_free_device(trf->ddev);
regulator_disable(trf->regulator);
mutex_destroy(&trf->lock);
return 0;
}
#ifdef CONFIG_PM_SLEEP
static int trf7970a_suspend(struct device *dev)
{
struct spi_device *spi = to_spi_device(dev);
struct trf7970a *trf = spi_get_drvdata(spi);
dev_dbg(dev, "Suspend\n");
mutex_lock(&trf->lock);
trf7970a_shutdown(trf);
mutex_unlock(&trf->lock);
return 0;
}
static int trf7970a_resume(struct device *dev)
{
struct spi_device *spi = to_spi_device(dev);
struct trf7970a *trf = spi_get_drvdata(spi);
int ret;
dev_dbg(dev, "Resume\n");
mutex_lock(&trf->lock);
ret = trf7970a_startup(trf);
mutex_unlock(&trf->lock);
return ret;
}
#endif
#ifdef CONFIG_PM
static int trf7970a_pm_runtime_suspend(struct device *dev)
{
struct spi_device *spi = to_spi_device(dev);
struct trf7970a *trf = spi_get_drvdata(spi);
int ret;
dev_dbg(dev, "Runtime suspend\n");
mutex_lock(&trf->lock);
ret = trf7970a_power_down(trf);
mutex_unlock(&trf->lock);
return ret;
}
static int trf7970a_pm_runtime_resume(struct device *dev)
{
struct spi_device *spi = to_spi_device(dev);
struct trf7970a *trf = spi_get_drvdata(spi);
int ret;
dev_dbg(dev, "Runtime resume\n");
ret = trf7970a_power_up(trf);
if (!ret)
pm_runtime_mark_last_busy(dev);
return ret;
}
#endif
static const struct dev_pm_ops trf7970a_pm_ops = {
SET_SYSTEM_SLEEP_PM_OPS(trf7970a_suspend, trf7970a_resume)
SET_RUNTIME_PM_OPS(trf7970a_pm_runtime_suspend,
trf7970a_pm_runtime_resume, NULL)
};
static const struct of_device_id trf7970a_of_match[] = {
{.compatible = "ti,trf7970a",},
{},
};
MODULE_DEVICE_TABLE(of, trf7970a_of_match);
static const struct spi_device_id trf7970a_id_table[] = {
{"trf7970a", 0},
{}
};
MODULE_DEVICE_TABLE(spi, trf7970a_id_table);
static struct spi_driver trf7970a_spi_driver = {
.probe = trf7970a_probe,
.remove = trf7970a_remove,
.id_table = trf7970a_id_table,
.driver = {
.name = "trf7970a",
.of_match_table = of_match_ptr(trf7970a_of_match),
.pm = &trf7970a_pm_ops,
},
};
module_spi_driver(trf7970a_spi_driver);
MODULE_AUTHOR("Mark A. Greer <mgreer@animalcreek.com>");
MODULE_LICENSE("GPL v2");
MODULE_DESCRIPTION("TI trf7970a RFID/NFC Transceiver Driver");
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