8.9 KiB
#TREZOR Core API
Syntax used below is a valid Python function declaration with type hints defined in PEP 0484.
##trezor.crypto
###trezor.crypto.base58
def trezor.crypto.base58.encode(data: bytes) -> str
Convert bytes to base58 encoded string.
def trezor.crypto.base58.decode(string: str) -> bytes
Convert base58 encoded string to bytes.
def trezor.crypto.base58.encode_check(data: bytes) -> str
Convert bytes to base58 encoded string, append checksum.
def trezor.crypto.base58.decode_check(string: str) -> bytes
Convert base58 encoded string to bytes and verify checksum.
###trezor.crypto.bip39
def trezor.crypto.bip39.generate(strength: int) -> str
Generate a mnemonic of given strength (128, 160, 192, 224 and 256 bits)
def trezor.crypto.bip39.from_data(data: bytes) -> str
Generate a mnemonic from given data (of 16, 20, 24, 28 and 32 bytes)
def trezor.crypto.bip39.check(mnemonic: str) -> bool
Check whether given mnemonic is valid
def trezor.crypto.bip39.seed(mnemonic: str, passphrase: str) -> bytes
Generate seed from mnemonic and passphrase
###trezor.crypto.curve
####trezor.crypto.curve.ed25519
def trezor.crypto.curve.ed25519.publickey(secret_key: bytes) -> bytes
Computes public key from secret key.
def trezor.crypto.curve.ed25519.sign(secret_key: bytes, message: bytes) -> bytes
Uses secret key to produce the signature of message.
def trezor.crypto.curve.ed25519.verify(public_key: bytes, signature: bytes, message: bytes) -> bool
Uses public key to verify the signature of the message Returns True on success.
####trezor.crypto.curve.nist256p1
def trezor.crypto.curve.nist256p1.publickey(secret_key: bytes, compressed: bool=True) -> bytes
Computes public key from secret key.
def trezor.crypto.curve.nist256p1.sign(secret_key: bytes, message: bytes) -> bytes
Uses secret key to produce the signature of message.
def trezor.crypto.curve.nist256p1.verify(public_key: bytes, signature: bytes, message: bytes) -> bool
Uses public key to verify the signature of the message Returns True on success.
####trezor.crypto.curve.secp256k1
def trezor.crypto.curve.secp256k1.publickey(secret_key: bytes, compressed: bool=True) -> bytes
Computes public key from secret key.
def trezor.crypto.curve.secp256k1.sign(secret_key: bytes, message: bytes) -> bytes
Uses secret key to produce the signature of message.
def trezor.crypto.curve.secp256k1.verify(public_key: bytes, signature: bytes, message: bytes) -> bool
Uses public key to verify the signature of the message Returns True on success.
###trezor.crypto.hashlib
####trezor.crypto.hashlib.ripemd160
def trezor.crypto.hashlib.ripemd160(data: bytes=None) -> Ripemd160
Creates a hash context object.
def Ripemd160.update(self, data: bytes) -> None
Update the hash context with hashed data.
def Ripemd160.digest(self) -> bytes
Returns the digest of hashed data.
####trezor.crypto.hashlib.sha256
def trezor.crypto.hashlib.sha256(data: bytes=None) -> Sha256
Creates a hash context object.
def Sha256.update(self, data: bytes) -> None
Update the hash context with hashed data.
def Sha256.digest(self) -> bytes
Returns the digest of hashed data.
####trezor.crypto.hashlib.sha512
def trezor.crypto.hashlib.sha512(data: bytes=None) -> Sha512
Creates a hash context object.
def Sha512.hash(self, data: bytes) -> None
Update the hash context with hashed data.
def Sha512.digest(self) -> bytes
Returns the digest of hashed data.
####trezor.crypto.hashlib.sha3_256
def trezor.crypto.hashlib.sha3_256(data: bytes=None) -> Sha3_256
Creates a hash context object.
def Sha3_256.update(self, data: bytes) -> None
Update the hash context with hashed data.
def Sha3_256.digest(self) -> bytes
Returns the digest of hashed data.
####trezor.crypto.hashlib.sha3_512
def trezor.crypto.hashlib.sha3_512(data: bytes=None) -> Sha3_512
Creates a hash context object.
def Sha3_512.update(self, data: bytes) -> None
Update the hash context with hashed data.
def Sha3_512.digest(self) -> bytes
Returns the digest of hashed data.
###trezor.crypto.hmac
def trezor.crypto.hmac.new(key, msg, digestmod) -> Hmac
Creates a HMAC context object.
def Hmac.update(self, msg: bytes) -> None
Update the context with data.
def Hmac.digest(self) -> bytes
Returns the digest of processed data.
##trezor.msg
def trezor.msg.send(message) -> int
Sends message using USB HID (device) or UDP (emulator).
def trezor.msg.select(timeout_us: int) -> tuple
Polls the event queue and returns the event object. Function returns None if timeout specified in microseconds is reached.
##trezor.ui
def trezor.ui.rgbcolor(r: int, g: int, b: int) -> int
def trezor.ui.in_area(pos: tuple, area: tuple) -> bool
def trezor.ui.lerpi(a: int, b: int, t: float) -> int
def trezor.ui.blend(ca: int, cb: int, t: float) -> int
def trezor.ui.animate_pulse(func, ca, cb, speed=200000, delay=30000)
###trezor.ui.display
def trezor.ui.display.bar(x: int, y: int, w: int, h: int, fgcolor: int, bgcolor: int=None) -> None
Renders a bar at position (x,y = upper left corner) with width w and height h of color fgcolor. When a bgcolor is set, the bar is drawn with rounded corners and bgcolor is used for background.
def trezor.ui.display.blit(x: int, y: int, w: int, h: int, data: bytes) -> None
Renders rectangle at position (x,y = upper left corner) with width w and height h with data. The data needs to have the correct format.
def trezor.ui.display.image(x: int, y: int, image: bytes) -> None
Renders an image at position (x,y). The image needs to be in TREZOR Optimized Image Format (TOIF) - full-color mode.
def trezor.ui.display.icon(x: int, y: int, icon: bytes, fgcolor: int, bgcolor: int) -> None
Renders an icon at position (x,y), fgcolor is used as foreground color, bgcolor as background. The image needs to be in TREZOR Optimized Image Format (TOIF) - gray-scale mode.
def trezor.ui.display.text(x: int, y: int, text: bytes, font: int, fgcolor: int, bgcolor: int) -> None
Renders left-aligned text at position (x,y) where x is left position and y is baseline. Font font is used for rendering, fgcolor is used as foreground color, bgcolor as background.
def trezor.ui.display.text_center(x: int, y: int, text: bytes, font: int, fgcolor: int, bgcolor: int) -> None
Renders text centered at position (x,y) where x is text center and y is baseline. Font font is used for rendering, fgcolor is used as foreground color, bgcolor as background.
def trezor.ui.display.text_right(x: int, y: int, text: bytes, font: int, fgcolor: int, bgcolor: int) -> None
Renders right-aligned text at position (x,y) where x is right position and y is baseline. Font font is used for rendering, fgcolor is used as foreground color, bgcolor as background.
def trezor.ui.display.text_width(text: bytes, font: int) -> int
Returns a width of text in pixels. Font font is used for rendering.
def trezor.ui.display.qrcode(x: int, y: int, data: bytes, scale: int) -> None
Renders data encoded as a QR code at position (x,y). Scale determines a zoom factor.
def trezor.ui.display.loader(progress: int, fgcolor: int, bgcolor: int, icon: bytes=None, iconfgcolor: int=None) -> None
Renders a rotating loader graphic. Progress determines its position (0-1000), fgcolor is used as foreground color, bgcolor as background. When icon and iconfgcolor are provided, an icon is drawn in the middle using the color specified in iconfgcolor. Icon needs to be of exaclty 96x96 pixels size.
def trezor.ui.display.orientation(degrees: int=None) -> int
Sets display orientation to 0, 90, 180 or 270 degrees. Everything needs to be redrawn again when this function is used. Call without the degrees parameter to just perform the read of the value.
def trezor.ui.display.backlight(val: int=None) -> int
Sets backlight intensity to the value specified in val. Call without the val parameter to just perform the read of the value.
def trezor.ui.display.raw(reg: int, data: bytes) -> None
Performs a raw command on the display. Read the datasheet to learn more.
###trezor.utils
def trezor.utils.memaccess(address: int, length: int) -> bytes
Creates a bytes object that can be used to access certain memory location.