1###################### Start of libnfc-brcm-common.conf ####################### 2 3############################################################################### 4# Application options 5APPL_TRACE_LEVEL=0x01 6PROTOCOL_TRACE_LEVEL=0x00000000 7 8############################################################################### 9# performance measurement 10# Change this setting to control how often USERIAL log the performance (throughput) 11# data on read/write/poll 12# defailt is to log performance dara for every 100 read or write 13#REPORT_PERFORMANCE_MEASURE=100 14 15############################################################################### 16# File used for NFA storage 17NFA_STORAGE="/data/nfc" 18 19############################################################################### 20# Insert a delay in milliseconds after NFC_WAKE and before write to NFCC 21NFC_WAKE_DELAY=20 22 23############################################################################### 24# Various Delay settings (in ms) used in USERIAL 25# POWER_ON_DELAY 26# Delay after turning on chip, before writing to transport (default 300) 27# PRE_POWER_OFF_DELAY 28# Delay after deasserting NFC-Wake before turn off chip (default 0) 29# POST_POWER_OFF_DELAY 30# Delay after turning off chip, before USERIAL_close returns (default 0) 31# 32POWER_ON_DELAY=0 33PRE_POWER_OFF_DELAY=10 34#POST_POWER_OFF_DELAY=0 35 36############################################################################### 37# Maximum time (ms) to wait for RESET NTF after setting REG_PU to high 38# The default is 1000. 39NFCC_ENABLE_TIMEOUT=1000 40 41############################################################################### 42# Device Manager Config 43# 44# If NFA_DM_CFG is not provided, stack default settings are 45# used (see nfa_dm_cfg.c). They are as follows: 46# 0 (FALSE) Automatic NDEF detection when background polling 47# 0 (FALSE) Automatic NDEF read when background polling 48# 49#NFA_DM_CFG={00:00} 50 51############################################################################### 52# Default poll duration (in ms) 53# The defualt is 500ms if not set (see nfc_target.h) 54#NFA_DM_DISC_DURATION_POLL=500 55 56############################################################################### 57# Startup Vendor Specific Configuration (100 bytes maximum); 58# byte[0] TLV total len = 0x5 59# byte[1] NCI_MTS_CMD|NCI_GID_PROP = 0x2f 60# byte[2] NCI_MSG_FRAME_LOG = 0x9 61# byte[3] 2 62# byte[4] 0=turn off RF frame logging; 1=turn on 63# byte[5] 0=turn off SWP frame logging; 1=turn on 64# NFA_DM_START_UP_VSC_CFG={05:2F:09:02:01:01} 65 66############################################################################### 67# Configure the default Destination Gate used by HCI (the default is 4, which 68# is the ETSI loopback gate. 69#NFA_HCI_DEFAULT_DEST_GATE=0x04 70 71############################################################################### 72# Override the stack default for NFA_EE_MAX_EE_SUPPORTED set in nfc_target.h. 73# The value is set to 3 by default as it assumes we will discover 0xF2, 74# 0xF3, and 0xF4. If a platform will exclude and SE, this value can be reduced 75# so that the stack will not wait any longer than necessary. 76# 77# Use for Host based CE 78NFA_MAX_EE_SUPPORTED=0 79 80# Use for UICC support 81# NFA_MAX_EE_SUPPORTED=3 82 83############################################################################### 84# Configure the single default SE to use. The default is to use the first 85# SE that is detected by the stack. This value might be used when the phone 86# supports multiple SE (e.g. 0xF3 and 0xF4) but you want to force it to use 87# one of them (e.g. 0xF4). This can be set to 0 if there are no SE on the 88# system in order to skip SE initialization. 89# 90# Use for Host based CE 91ACTIVE_SE=0x0 92 93# Use for UICC support 94#ACTIVE_SE=0xF3 95 96############################################################################### 97# Configure the NFC Extras to open and use a static pipe. If the value is 98# not set or set to 0, then the default is use a dynamic pipe based on a 99# destination gate (see NFA_HCI_DEFAULT_DEST_GATE). Note there is a value 100# for each UICC (where F3="UICC0" and F4="UICC1") 101#NFA_HCI_STATIC_PIPE_ID_F3=0x70 102NFA_HCI_STATIC_PIPE_ID_F4=0x71 103 104############################################################################### 105# When disconnecting from Oberthur secure element, perform a warm-reset of 106# the secure element to deselect the applet. 107# The default hex value of the command is 0x3. If this variable is undefined, 108# then this feature is not used. 109OBERTHUR_WARM_RESET_COMMAND=0x03 110 111############################################################################### 112# Force UICC to only listen to the following technology(s). 113# The bits are defined as tNFA_TECHNOLOGY_MASK in nfa_api.h. 114# Default is NFA_TECHNOLOGY_MASK_A | NFA_TECHNOLOGY_MASK_B. 115#UICC_LISTEN_TECH_MASK=0x01 116 117############################################################################### 118# AID for Empty Select command 119# If specified, this AID will be substituted when an Empty SELECT command is 120# detected. The first byte is the length of the AID. Maximum length is 16. 121AID_FOR_EMPTY_SELECT={08:A0:00:00:01:51:00:00:00} 122 123############################################################################### 124# Force tag polling for the following technology(s). 125# The bits are defined as tNFA_TECHNOLOGY_MASK in nfa_api.h. 126# Default is NFA_TECHNOLOGY_MASK_A | NFA_TECHNOLOGY_MASK_B | 127# NFA_TECHNOLOGY_MASK_F | NFA_TECHNOLOGY_MASK_ISO15693 | 128# NFA_TECHNOLOGY_MASK_B_PRIME | NFA_TECHNOLOGY_MASK_A_ACTIVE | 129# NFA_TECHNOLOGY_MASK_F_ACTIVE. 130# 131# Notable bits: 132# NFA_TECHNOLOGY_MASK_KOVIO 0x20 133# NFA_TECHNOLOGY_MASK_A_ACTIVE 0x40 134# NFA_TECHNOLOGY_MASK_F_ACTIVE 0x80 135POLLING_TECH_MASK=0xFF 136 137############################################################################### 138# Force P2P to only listen for the following technology(s). 139# The bits are defined as tNFA_TECHNOLOGY_MASK in nfa_api.h. 140# Default is NFA_TECHNOLOGY_MASK_A | NFA_TECHNOLOGY_MASK_F | 141# NFA_TECHNOLOGY_MASK_A_ACTIVE | NFA_TECHNOLOGY_MASK_F_ACTIVE 142#P2P_LISTEN_TECH_MASK=0xC5 143 144############################################################################### 145# Maximum Number of Credits to be allowed by the NFCC 146# This value overrides what the NFCC specifices allowing the host to have 147# the control to work-around transport limitations. If this value does 148# not exist or is set to 0, the NFCC will provide the number of credits. 149#MAX_RF_DATA_CREDITS=1 150 151############################################################################### 152# This setting allows you to disable registering the T4t Virtual SE that causes 153# the NFCC to send PPSE requests to the DH. 154# The default setting is enabled (i.e. T4t Virtual SE is registered). 155#REGISTER_VIRTUAL_SE=1 156 157############################################################################### 158# When screen is turned off, specify the desired power state of the controller. 159# 0: power-off-sleep state; DEFAULT 160# 1: full-power state (note: this is still low-power ("snooze") on BRCM devices. 161# 2: screen-off card-emulation (CE4/CE3/CE1 modes are used) 162SCREEN_OFF_POWER_STATE=1 163 164############################################################################### 165# SPD Debug mode 166# If set to 1, any failure of downloading a patch will trigger a hard-stop 167#SPD_DEBUG=0 168 169############################################################################### 170# SPD Max Retry Count 171# The number of attempts to download a patch before giving up (defualt is 3). 172# Note, this resets after a power-cycle. 173#SPD_MAX_RETRY_COUNT=3 174 175############################################################################### 176# transport driver 177# 178# TRANSPORT_DRIVER=<driver> 179# 180# where <driver> can be, for example: 181# "/dev/ttyS" (UART) 182# "/dev/bcmi2cnfc" (I2C) 183# "hwtun" (HW Tunnel) 184# "/dev/bcmspinfc" (SPI) 185# "/dev/btusb0" (BT USB) 186TRANSPORT_DRIVER="/dev/bcm2079x" 187 188############################################################################### 189# power control driver 190# Specify a kernel driver that support ioctl commands to control NFC_EN and 191# NFC_WAKE gpio signals. 192# 193# POWER_CONTRL_DRIVER=<driver> 194# where <driver> can be, for example: 195# "/dev/nfcpower" 196# "/dev/bcmi2cnfc" (I2C) 197# "/dev/bcmspinfc" (SPI) 198# i2c and spi driver may be used to control NFC_EN and NFC_WAKE signal 199POWER_CONTROL_DRIVER="/dev/bcm2079x" 200 201############################################################################### 202# I2C transport driver options 203# BCMI2CNFC_ADDRESS=0 204 205############################################################################### 206# I2C transport driver try to read multiple packets in read() if data is available 207# remove the comment below to enable this feature 208#READ_MULTIPLE_PACKETS=1 209 210############################################################################### 211# SPI transport driver options 212#SPI_NEGOTIATION={0A:F0:00:01:00:00:00:FF:FF:00:00} 213 214############################################################################### 215# UART transport driver options 216# 217# PORT=1,2,3,... 218# BAUD=115200, 19200, 9600, 4800, 219# DATABITS=8, 7, 6, 5 220# PARITY="even" | "odd" | "none" 221# STOPBITS="0" | "1" | "1.5" | "2" 222 223#UART_PORT=2 224#UART_BAUD=115200 225#UART_DATABITS=8 226#UART_PARITY="none" 227#UART_STOPBITS="1" 228 229############################################################################### 230# Insert a delay in microseconds per byte after a write to NFCC. 231# after writing a block of data to the NFCC, delay this an amopunt of time before 232# writing next block of data. the delay is calculated as below 233# NFC_WRITE_DELAY * (number of byte written) / 1000 milliseconds 234# e.g. after 259 bytes is written, delay (259 * 20 / 1000) 5 ms before next write 235NFC_WRITE_DELAY=20 236 237############################################################################### 238# Configuration for the RF discovery frequency for each technology. The values mean 239# frequency for NFC Technology A 240# Technology B 241# Technology F 242# Proprietary Technology/15693 243# Proprietary Technology/B-Prime 244# Proprietary Technology/Kovio 245# Technology A active mode 246# Technology F active mode 247#POLL_FREQUENCY={01:01:01:01:01:01:01:01} 248 249############################################################################### 250# Choose the presence-check algorithm for type-4 tag. If not defined, 251# the default value is 1. 252# 0 NFA_RW_PRES_CHK_DEFAULT; Let stack selects an algorithm 253# 1 NFA_RW_PRES_CHK_I_BLOCK; ISO-DEP protocol's empty I-block 254# 2 NFA_RW_PRES_CHK_RESET; Deactivate to Sleep, then re-activate 255# 3 NFA_RW_PRES_CHK_RB_CH0; Type-4 tag protocol's ReadBinary command on channel 0 256# 4 NFA_RW_PRES_CHK_RB_CH3; Type-4 tag protocol's ReadBinary command on channel 3 257PRESENCE_CHECK_ALGORITHM=1 258