#include <uhd/rfnoc/register_iface.hpp>

Inheritance diagram for uhd::rfnoc::register_iface:

Public Types
using	sptr = std::shared_ptr< register_iface >

using	async_msg_validator_t = std::function< bool(uint32_t addr, const std::vector< uint32_t > &data)>

using	async_msg_callback_t = std::function< void(uint32_t addr, const std::vector< uint32_t > &data, boost::optional< uint64_t >)>

Public Member Functions
virtual	~register_iface ()=default

virtual void	poke32 (uint32_t addr, uint32_t data, uhd::time_spec_t time=uhd::time_spec_t::ASAP, bool ack=false)=0

void	poke64 (uint32_t addr, uint64_t data, time_spec_t time=uhd::time_spec_t::ASAP, bool ack=false)

virtual void	multi_poke32 (const std::vector< uint32_t > addrs, const std::vector< uint32_t > data, uhd::time_spec_t time=uhd::time_spec_t::ASAP, bool ack=false)=0

virtual void	block_poke32 (uint32_t first_addr, const std::vector< uint32_t > data, uhd::time_spec_t time=uhd::time_spec_t::ASAP, bool ack=false)=0

virtual uint32_t	peek32 (uint32_t addr, time_spec_t time=uhd::time_spec_t::ASAP)=0

uint64_t	peek64 (uint32_t addr, time_spec_t time=uhd::time_spec_t::ASAP)

virtual std::vector< uint32_t >	block_peek32 (uint32_t first_addr, size_t length, time_spec_t time=uhd::time_spec_t::ASAP)=0

virtual void	poll32 (uint32_t addr, uint32_t data, uint32_t mask, time_spec_t timeout, time_spec_t time=uhd::time_spec_t::ASAP, bool ack=false)=0

virtual void	sleep (time_spec_t duration, bool ack=false)=0

virtual void	register_async_msg_validator (async_msg_validator_t callback_f)=0

virtual void	register_async_msg_handler (async_msg_callback_t callback_f)=0

virtual void	set_policy (const std::string &name, const uhd::device_addr_t &args)=0

virtual uint16_t	get_src_epid () const =0

virtual uint16_t	get_port_num () const =0

Detailed Description

A software interface to access low-level registers in a NoC block.

This interface supports the following:

Writing and reading registers
Hardware timed delays (for time sequencing operations)
Asynchronous messages (where a block requests a "register write" in software)

This class has no public factory function or constructor.

Member Typedef Documentation

◆ async_msg_callback_t

using uhd::rfnoc::register_iface::async_msg_callback_t = std::function<void( uint32_t addr, const std::vector<uint32_t>& data, boost::optional<uint64_t>)>

Callback function for acting upon an asynchronous message.

When a block in the FPGA sends an asynchronous message to the software, and it has been validated, the async message callback function is called. An async message can be modelled as a simple register write (key-value pair with addr/data) that is initiated by the FPGA.

When this message is called, the async message was previously verified by calling the async message validator callback.

◆ async_msg_validator_t

using uhd::rfnoc::register_iface::async_msg_validator_t = std::function<bool(uint32_t addr, const std::vector<uint32_t>& data)>

Callback function for validating an asynchronous message.

When a block in the FPGA sends an asynchronous message to the software, the async message validator function is called. An async message can be modelled as a simple register write (key-value pair with addr/data) that is initiated by the FPGA. If this message returns true, the message is considered valid.

◆ sptr

using uhd::rfnoc::register_iface::sptr = std::shared_ptr<register_iface>

Constructor & Destructor Documentation

◆ ~register_iface()

virtual uhd::rfnoc::register_iface::~register_iface ( )

virtualdefault

Member Function Documentation

◆ block_peek32()

virtual std::vector<uint32_t> uhd::rfnoc::register_iface::block_peek32	(	uint32_t	first_addr,
		size_t	length,
		time_spec_t	time = `uhd::time_spec_t::ASAP`
	)

pure virtual

Read multiple 32-bit consecutive registers implemented in the NoC block.

Parameters

first_addr	The byte address of the first register to read from (truncated to 20 bits).
length	The number of 32-bit values to read
time	The time at which the transaction should be executed.

Returns: data New value of this register.

Example: If first_addr is set to 0, and length is 8, then this function will return a vector of length 8, with the content of registers at addresses 0, 4, 8, 12, 16, 20, 24, and 28 respectively.

Note: There is no guarantee that under the hood, the implementation won't separate the reads.

Exceptions

op_failed	if the transaction fails
op_timeout	if no response is received
op_seqerr	if a sequence error occurs

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ block_poke32()

virtual void uhd::rfnoc::register_iface::block_poke32	(	uint32_t	first_addr,
		const std::vector< uint32_t >	data,
		uhd::time_spec_t	time = `uhd::time_spec_t::ASAP`,
		bool	ack = `false`
	)

pure virtual

Write multiple consecutive 32-bit registers implemented in the NoC block.

This function will only allow writes to adjacent registers, in increasing order. If addr is set to 0, and the length of data is 8, then this method triggers eight writes, in order, to addresses 0, 4, 8, 12, 16, 20, 24, 28. For arbitrary addresses, cf. multi_poke32().

Note: There is no guarantee that under the hood, the implementation won't separate the writes.

Parameters

first_addr	The byte addresses of the first register to write
data	New values of these registers
time	The time at which the first transaction should be executed.
ack	Should transaction completion be acknowledged?

Exceptions

op_failed	if an ACK is requested and the transaction fails
op_timeout	if an ACK is requested and no response is received
op_seqerr	if an ACK is requested and a sequence error occurs
op_timeerr	if an ACK is requested and a time error occurs (late command)

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ get_port_num()

virtual uint16_t uhd::rfnoc::register_iface::get_port_num ( ) const

pure virtual

Get the port number of the software counterpart of this register interface. This information is useful to send async messages to the host.

Returns: The 10-bit port number

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ get_src_epid()

virtual uint16_t uhd::rfnoc::register_iface::get_src_epid ( ) const

pure virtual

Get the endpoint ID of the software counterpart of this register interface. This information is useful to send async messages to the host.

Returns: The 16-bit endpoint ID

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ multi_poke32()

virtual void uhd::rfnoc::register_iface::multi_poke32	(	const std::vector< uint32_t >	addrs,
		const std::vector< uint32_t >	data,
		uhd::time_spec_t	time = `uhd::time_spec_t::ASAP`,
		bool	ack = `false`
	)

pure virtual

Write multiple 32-bit registers implemented in the NoC block.

This method should be called when multiple writes need to happen that are at non-consecutive addresses. For consecutive writes, cf. block_poke32().

Parameters

addrs	The byte addresses of the registers to write to (each truncated to 20 bits).
data	New values of these registers. The lengths of data and addr must match.
time	The time at which the first transaction should be executed.
ack	Should transaction completion be acknowledged?

Exceptions

uhd::value_error	if lengths of data and addr don't match
op_failed	if an ACK is requested and the transaction fails
op_timeout	if an ACK is requested and no response is received
op_seqerr	if an ACK is requested and a sequence error occurs
op_timeerr	if an ACK is requested and a time error occurs (late command)

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ peek32()

virtual uint32_t uhd::rfnoc::register_iface::peek32	(	uint32_t	addr,
		time_spec_t	time = `uhd::time_spec_t::ASAP`
	)

pure virtual

Read a 32-bit register implemented in the NoC block.

Parameters

addr	The byte address of the register to read from (truncated to 20 bits).
time	The time at which the transaction should be executed.

Exceptions

op_failed	if the transaction fails
op_timeout	if no response is received
op_seqerr	if a sequence error occurs

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ peek64()

uint64_t uhd::rfnoc::register_iface::peek64	(	uint32_t	addr,
		time_spec_t	time = `uhd::time_spec_t::ASAP`
	)

inline

Read two consecutive 32-bit registers implemented in the NoC block and return them as one 64-bit value.

Note: This is a convenience call, because all register peeks are 32-bits. This will concatenate two peeks in a block peek, and then return the combined result of the two peeks.

Parameters

addr	The byte address of the lower 32-bit register to read from (truncated to 20 bits).
time	The time at which the transaction should be executed.

Exceptions

op_failed	if the transaction fails
op_timeout	if no response is received
op_seqerr	if a sequence error occurs

◆ poke32()

virtual void uhd::rfnoc::register_iface::poke32	(	uint32_t	addr,
		uint32_t	data,
		uhd::time_spec_t	time = `uhd::time_spec_t::ASAP`,
		bool	ack = `false`
	)

pure virtual

Write a 32-bit register implemented in the NoC block.

Parameters

addr	The byte address of the register to write to (truncated to 20 bits).
data	New value of this register.
time	The time at which the transaction should be executed.
ack	Should transaction completion be acknowledged?

Exceptions

op_failed	if an ACK is requested and the transaction fails
op_timeout	if an ACK is requested and no response is received
op_seqerr	if an ACK is requested and a sequence error occurs
op_timeerr	if an ACK is requested and a time error occurs (late command)

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ poke64()

void uhd::rfnoc::register_iface::poke64	(	uint32_t	addr,
		uint64_t	data,
		time_spec_t	time = `uhd::time_spec_t::ASAP`,
		bool	ack = `false`
	)

inline

Write two consecutive 32-bit registers implemented in the NoC block from one 64-bit value.

Note: This is a convenience call, because all register pokes are 32-bits. This will concatenate two pokes in a block poke, and then return the combined result of the two pokes.

Parameters

addr	The byte address of the lower 32-bit register to read from (truncated to 20 bits).
data	New value of the register(s).
time	The time at which the transaction should be executed.
ack	Should transaction completion be acknowledged?

Exceptions

op_failed	if the transaction fails
op_timeout	if no response is received
op_seqerr	if a sequence error occurs

◆ poll32()

virtual void uhd::rfnoc::register_iface::poll32	(	uint32_t	addr,
		uint32_t	data,
		uint32_t	mask,
		time_spec_t	timeout,
		time_spec_t	time = `uhd::time_spec_t::ASAP`,
		bool	ack = `false`
	)

pure virtual

Poll a 32-bit register until its value for all bits in mask match data&mask

This will insert a command into the command queue to wait until a register is of a certain value. This can be used, e.g., to poll for a lock pin before executing the next command. It is related to sleep(), except it has a condition to wait on, rather than an unconditional stall duration. The timeout is hardware-timed. If the register does not attain the requested value within the requested duration, ${something bad happens}.

Example: Assume readback register 16 is a status register, and bit 0 indicates a lock is in place (i.e., we want it to be 1) and bit 1 is an error flag (i.e., we want it to be 0). The previous command can modify the state of the block, so we give it 1ms to settle. In that case, the call would be thus:

// iface is a register_iface::sptr:

iface->poll32(16, 0x1, 0x3, 1e-3);

Parameters

addr	The byte address of the register to read from (truncated to 20 bits).
data	The values that the register must have
mask	The bitmask that is applied before checking the readback value
timeout	The max duration that the register is allowed to take before reaching its new state.
time	When the poll should be executed
ack	Should transaction completion be acknowledged? This is typically only necessary if the software needs a condition to be fulfilled before continueing, or during debugging.

Exceptions

op_failed	if an ACK is requested and the transaction fails
op_timeout	if an ACK is requested and no response is received
op_seqerr	if an ACK is requested and a sequence error occurs
op_timeerr	if an ACK is requested and a time error occurs (late command)

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ register_async_msg_handler()

virtual void uhd::rfnoc::register_iface::register_async_msg_handler ( async_msg_callback_t callback_f )

pure virtual

Register a callback function for when an async message is received

Only one callback function can be registered. When calling this multiple times, only the last callback will be accepted.

Parameters

callback_f The function to call when an asynchronous message is received.

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ register_async_msg_validator()

virtual void uhd::rfnoc::register_iface::register_async_msg_validator ( async_msg_validator_t callback_f )

pure virtual

Register a callback function to validate a received async message

The purpose of this callback is to provide a method to the framework to make sure a received async message is valid. If this callback is provided, the framework will first pass the message to the validator for validation. If the validator returns true, the async message is ACK'd with a ctrl_status_t::CMD_OKAY response, and then the async message is executed. If the validator returns false, then the async message is ACK'd with a ctrl_status_t::CMD_CMDERR, and the async message handler is not excecuted.

This callback may not communicate with the device, it can only look at the data and make a valid/not valid decision.

Only one callback function can be registered. When calling this multiple times, only the last callback will be accepted.

Parameters

callback_f The function to call when an asynchronous message is received.

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ set_policy()

virtual void uhd::rfnoc::register_iface::set_policy	(	const std::string &	name,
		const uhd::device_addr_t &	args
	)

pure virtual

Set a policy that governs the operational parameters of this register bus. Policies can be used to make tradeoffs between performance, resilience, latency, etc.

Parameters

name	The name of the policy to apply
args	Additional arguments to pass to the policy governor

Implemented in uhd::rfnoc::mock_reg_iface_t.

◆ sleep()

virtual void uhd::rfnoc::register_iface::sleep	(	time_spec_t	duration,
		bool	ack = `false`
	)

pure virtual

Send a command to halt (block) the control bus for a specified time. This is a hardware-timed sleep.

Parameters

duration	The amount of time to sleep.
ack	Should transaction completion be acknowledged?

Exceptions

op_failed	if an ACK is requested and the transaction fails
op_timeout	if an ACK is requested and no response is received
op_seqerr	if an ACK is requested and a sequence error occurs

Implemented in uhd::rfnoc::mock_reg_iface_t.

The documentation for this class was generated from the following file:

register_iface.hpp

Public Types

Public Member Functions

Detailed Description

Member Typedef Documentation

◆ async_msg_callback_t

◆ async_msg_validator_t

◆ sptr

Constructor & Destructor Documentation

◆ ~register_iface()

Member Function Documentation

◆ block_peek32()

◆ block_poke32()

◆ get_port_num()

◆ get_src_epid()

◆ multi_poke32()

◆ peek32()

◆ peek64()

◆ poke32()

◆ poke64()

◆ poll32()

◆ register_async_msg_handler()

◆ register_async_msg_validator()

◆ set_policy()

◆ sleep()