4.7 KiB
#spi module All transactions for sending and receiving are most-significant-bit first and least-significant last. For technical details of the underlying hardware refer to metalphreak's ESP8266 HSPI articles.
High Level Functions
The high level functions provide a send & receive API for half- and full-duplex mode. Sent and received data items are restricted to 1 - 32 bit length and each data item is surrounded by (H)SPI CS inactive.
spi.recv()
Receive data from SPI.
Syntax
spi.recv(id, size[, default_data])
Parameters
id
SPI ID number: 0 for SPI, 1 for HSPIsize
number of data items to be readdefault_data
default data being sent on MOSI (all-1 if omitted)
Returns
String containing the bytes read from SPI.
####See also spi.send()
spi.send()
Send data via SPI in half-duplex mode. Send & receive data in full-duplex mode.
Syntax
HALFDUPLEX:
wrote = spi.send(id, data1[, data2[, ..., datan]])
FULLDUPLEX:
wrote[, rdata1[, ..., rdatan]] = spi.send(id, data1[, data2[, ..., datan]])
Parameters
id
SPI ID number: 0 for SPI, 1 for HSPIdata
data can be either a string, a table or an integer number.
Each data item is considered withdatabits
number of bits.
Returns
wrote
number of written bytesrdata
received data when configured withspi.FULLDUPLEX
Same data type as corresponding data parameter.
Example
=spi.send(1, 0, 255, 255, 255)
4 255 192 32 0
x = {spi.send(1, 0, 255, 255, 255)}
=x[1]
4
=x[2]
255
=x[3]
192
=x[4]
32
=x[5]
0
=x[6]
nil
=#x
5
_, _, x = spi.send(1, 0, {255, 255, 255})
=x[1]
192
=x[2]
32
=x[3]
0
See also
spi.setup()
Set up the SPI configuration. Refer to Serial Peripheral Interface Bus for details regarding the clock polarity and phase definition.
Syntax
spi.setup(id, mode, cpol, cpha, databits, clock_div[, duplex_mode])
Parameters
id
SPI ID number: 0 for SPI, 1 for HSPImode
select master or slave modespi.MASTER
spi.SLAVE
- not supported currently
cpol
clock polarity selectionspi.CPOL_LOW
spi.CPOL_HIGH
- not supported currently
cpha
clock phase selectionspi.CPHA_LOW
spi.CPHA_HIGH
databits
number of bits per data item 1 - 32clock_div
SPI clock divider, f(SPI) = f(CPU) /clock_div
duplex_mode
duplex modespi.HALFDUPLEX
(default when omitted)spi.FULLDUPLEX
Returns
Number: 1
Low Level Hardware Functions
The low level functions provide a hardware-centric API for application scenarios that need to excercise more complex SPI transactions. The programming model is built up around the HW send and receive buffers and SPI transactions are initiated with full control over the hardware features.
spi.get_miso()
Extract data items from MISO buffer after spi.transaction()
.
Syntax
data1[, data2[, ..., datan]] = spi.get_miso(id, offset, bitlen, num)
Parameters
id
SPI ID number: 0 for SPI, 1 for HSPIoffset
bit offset into MISO buffer for first data itembitlen
bit length of a single data itemnum
number of data items to retrieve
####Returns
num
data items
See also
spi.set_mosi()
Insert data items into MOSI buffer for spi.transaction()
.
Syntax
spi.set_mosi(id, offset, bitlen, data1[, data2[, ..., datan]])
####Parameters
id
SPI ID number: 0 for SPI, 1 for HSPIoffset
bit offset into MOSI buffer for inserting data1 and subsequent itemsbitlen
bit length of data1, data2, ...data
data items wherebitlen
number of bits are considered for the transaction.
Returns
nil
See also
spi.transaction()
Start an SPI transaction, consisting of up to 5 phases:
- Command
- Address
- MOSI
- Dummy
- MISO
Syntax
spi.transaction(id, cmd_bitlen, cmd_data, addr_bitlen, addr_data, mosi_bitlen, dummy_bitlen, miso_bitlen)
Parameters
id
SPI ID number: 0 for SPI, 1 for HSPIcmd_bitlen
bit length of the command phase (0 - 16)cmd_data
data for command phaseaddr_bitlen
bit length for address phase (0 - 32)addr_data
data for command phasemosi_bitlen
bit length of the MOSI phase (0 - 512)dummy_bitlen
bit length of the dummy phase (0 - 256)miso_bitlen
bit length of the MISO phase (0 - 512) for half-duplex.
Full-duplex mode is activated with a negative value.
####Returns
nil
####See also