[PATCH v6 0/2] Add ASPEED AST2600 I2Cv2 controller driver
Ryan Chen
ryan_chen at aspeedtech.com
Sun Feb 26 14:13:19 AEDT 2023
This series add AST2600 i2cv2 new register set driver. The i2cv2 new
register set have new clock divider option for more flexiable generation.
And also have separate i2c master and slave register set for control.
The legacy register layout is mix master/slave register control together.
The following is add more detail description about new register layout.
And new feature set add for register.
-Add new clock divider option for more flexible and accurate clock
rate generation
-Add tCKHighMin timing to guarantee SCL high pulse width.
-Add support dual pool buffer mode, split 32 bytes pool buffer of
each device into 2 x 16 bytes for Tx and Rx individually.
-Increase DMA buffer size to 4096 bytes and support byte alignment.
-Re-define the base address of BUS1 ~ BUS16 and Pool buffer.
-Re-define registers for separating master and slave mode control.
-Support 4 individual DMA buffers for master Tx and Rx, slave Tx and Rx.
And following is new register set for package transfer sequence.
-New Master operation mode:
S -> Aw -> P
S -> Aw -> TxD -> P
S -> Ar -> RxD -> P
S -> Aw -> RxD -> Sr -> Ar -> TxD -> P
-Bus SDA lock auto-release capability for new master DMA command mode.
-Bus auto timeout for new master/slave DMA mode.
The following is two versus register layout.
Old:
{I2CD00}: Function Control Register
{I2CD04}: Clock and AC Timing Control Register
{I2CD08}: Clock and AC Timing Control Register
{I2CD0C}: Interrupt Control Register
{I2CD10}: Interrupt Status Register
{I2CD14}: Command/Status Register
{I2CD18}: Slave Device Address Register
{I2CD1C}: Pool Buffer Control Register
{I2CD20}: Transmit/Receive Byte Buffer Register
{I2CD24}: DMA Mode Buffer Address Register
{I2CD28}: DMA Transfer Length Register
{I2CD2C}: Original DMA Mode Buffer Address Setting
{I2CD30}: Original DMA Transfer Length Setting and Final Status
New Register mode
{I2CC00}: Master/Slave Function Control Register
{I2CC04}: Master/Slave Clock and AC Timing Control Register
{I2CC08}: Master/Slave Transmit/Receive Byte Buffer Register
{I2CC0C}: Master/Slave Pool Buffer Control Register
{I2CM10}: Master Interrupt Control Register
{I2CM14}: Master Interrupt Status Register
{I2CM18}: Master Command/Status Register
{I2CM1C}: Master DMA Buffer Length Register
{I2CS20}: Slave~ Interrupt Control Register
{I2CS24}: Slave~ Interrupt Status Register
{I2CS28}: Slave~ Command/Status Register
{I2CS2C}: Slave~ DMA Buffer Length Register
{I2CM30}: Master DMA Mode Tx Buffer Base Address
{I2CM34}: Master DMA Mode Rx Buffer Base Address
{I2CS38}: Slave~ DMA Mode Tx Buffer Base Address
{I2CS3C}: Slave~ DMA Mode Rx Buffer Base Address
{I2CS40}: Slave Device Address Register
{I2CM48}: Master DMA Length Status Register
{I2CS4C}: Slave DMA Length Status Register
{I2CC50}: Current DMA Operating Address Status
{I2CC54}: Current DMA Operating Length Status
aspeed,global-regs:
This global register is needed, global register is setting for
new clock divide control, and new register set control.
ASPEED SOC chip is server product, i2c bus may have
fingerprint connect to another board. And also support hotplug.
The following is board-specific design example.
Board A Board B
------------------------- ------------------------
|i2c bus#1(master/slave) <===fingerprint ===> i2c bus#x (master/slave)|
|i2c bus#2(master)-> tmp i2c device | | |
|i2c bus#3(master)-> adc i2c device | | |
------------------------- ------------------------
aspeed,timout properites:
For example I2C controller as slave mode, and suddenly disconnected.
Slave state machine will keep waiting for master clock in for rx/tx transmit.
So it need timeout setting to enable timeout unlock controller state.
And in another side. In Master side also need avoid suddenly slave miss(un-plug),
Master will timeout and release the SDA/SCL.
aspeed,xfer-mode:
For example The bus#1 have trunk data needed for tranfer, it can enable
bus dma mode transfer, it can reduce cpu utilized. bus#2 is small
transmit, it can enable buffer mode or byte mode to reduce memory
cache flush overhead.
v6:
-remove aspeed,i2cv2.yaml, merge to aspeed,i2c.yaml
-add support for i2cv2 properites.
-i2c-ast2600.c
-fix ast2600_i2c_remove ordering.
-remove ast2600_i2c_probe goto labels, and add dev_err_probe
-remove redundant deb_dbg debug message.
-rename gr_regmap -> global_regs
v5:
-remove ast2600-i2c-global.yaml, i2c-ast2600-global.c.
-i2c-ast2600.c
-remove legacy clock divide, all go for new clock divide.
-remove duplicated read isr.
-remove no used driver match
-fix probe return for each labels return.
-global use mfd driver, driver use phandle to regmap read/write.
-rename aspeed,i2c-ast2600.yaml to aspeed,i2cv2.yaml
-remove bus-frequency.
-add required aspeed,gr
-add timeout, byte-mode, buff-mode properites.
v4:
-fix i2c-ast2600.c driver buffer mode use single buffer conflit in
master slave mode both enable.
-fix kmemleak issue when use dma mode.
-fix typo aspeed,i2c-ast2600.yaml compatible is "aspeed,ast2600-i2c"
-fix typo aspeed,i2c-ast2600.ymal to aspeed,i2c-ast2600.yaml
v3:
-fix i2c global clock divide default value.
-remove i2c slave no used dev_dbg info.
v2:
-add i2c global ymal file commit.
-rename file name from new to ast2600.
aspeed-i2c-new-global.c -> i2c-ast2600-global.c
aspeed-i2c-new-global.h -> i2c-ast2600-global.h
i2c-new-aspeed.c -> i2c-ast2600.c
-rename all driver function name to ast2600.
Ryan Chen (2):
dt-bindings: i2c: aspeed: support for AST2600-i2cv2
i2c: aspeed: support ast2600 i2cv new register mode driver
.../devicetree/bindings/i2c/aspeed,i2c.yaml | 44 +
MAINTAINERS | 9 +
drivers/i2c/busses/Kconfig | 11 +
drivers/i2c/busses/Makefile | 1 +
drivers/i2c/busses/i2c-ast2600.c | 1630 +++++++++++++++++
5 files changed, 1695 insertions(+)
create mode 100644 drivers/i2c/busses/i2c-ast2600.c
--
2.34.1
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