hw/ip/entropy_src/dv/README.md - 3p/lowrisc/opentitan - Git at Google

 # ENTROPY_SRC DV document

 ## Goals
 * **DV**
   * Verify all ENTROPY_SRC IP features by running dynamic simulations with a SV/UVM based testbench
   * Develop and run all tests based on the [testplan](#testplan) below towards closing code and functional coverage on the IP and all of its sub-modules
 * **FPV**
   * Verify TileLink device protocol compliance with an SVA based testbench

 ## Current status
 * [Design & verification stage](../../../README.md)
   * [HW development stages](../../../../doc/project_governance/development_stages.md)
 * [Simulation results](https://reports.opentitan.org/hw/ip/entropy_src/dv/latest/report.html)

 ## Design features
 For detailed information on ENTROPY_SRC design features, please see the [ENTROPY_SRC HWIP technical specification](../README.md).

 ## Testbench architecture
 ENTROPY_SRC testbench has been constructed based on the [CIP testbench architecture](../../../dv/sv/cip_lib/README.md).

 ### Block diagram
 ![Block diagram](./doc/entropy_src_tb.svg)

 ### Top level testbench
 Top level testbench is located at `hw/ip/entropy_src/dv/tb/tb.sv`. It instantiates the ENTROPY_SRC DUT module `hw/ip/entropy_src/rtl/entropy_src.sv`.
 In addition, it instantiates the following interfaces, connects them to the DUT and sets their handle into `uvm_config_db`:
 * [Clock and reset interface](../../../dv/sv/common_ifs/README.md)
 * [TileLink host interface](../../../dv/sv/tl_agent/README.md)
 * ENTROPY_SRC IOs
 * Interrupts ([`pins_if`](../../../dv/sv/common_ifs/README.md))
 * Alerts ([`pins_if`](../../../dv/sv/common_ifs/README.md))
 * Devmode ([`pins_if`](../../../dv/sv/common_ifs/README.md))

 ### Common DV utility components
 The following utilities provide generic helper tasks and functions to perform activities that are common across the project:
 * [common_ifs](../../../dv/sv/common_ifs/README.md)
 * [dv_utils_pkg](../../../dv/sv/dv_utils/README.md)
 * [csr_utils_pkg](../../../dv/sv/csr_utils/README.md)

 <!--### Compile-time configurations
 TODO-->

 ### Global types & methods
 All common types and methods defined at the package level can be found in
 `entropy_src_env_pkg`. Some of them in use are:
 ```systemverilog
 typedef bit [RNG_BUS_WIDTH-1:0] rng_val_t;

 typedef enum { BOOT, STARTUP, CONTINUOUS, HALTED } entropy_phase_e;

 // A function to predict the current state (or phase) of the entropy_src DUT
 // based on the current setting and number of seeds generated
 function automatic entropy_phase_e convert_seed_idx_to_phase(int seed_idx,
                                                              bit fips_enable,
                                                              bit fw_ov_insert);
 ```

 ### TL_agent
 ENTROPY_SRC testbench instantiates (already handled in CIP base env) [tl_agent](../../../dv/sv/tl_agent/README.md)
 which provides the ability to drive and independently monitor random traffic via
 TL host interface into ENTROPY_SRC device.

 ###  Rng_agent
 Entropy_src testbench instantiates this PUSH_pull_agent(../../../dv/sv/push_pull_agent/README.md) which models the rng source.

 ###  Csrng_agent
 Entropy_src testbench instantiates this push_PULL_agent(../../../dv/sv/push_pull_agent/README.md) which models the csrng module.

 ### UVM RAL Model
 The ENTROPY_SRC RAL model is created with the [`ralgen`](../../../dv/tools/ralgen/README.md) FuseSoC generator script automatically when the simulation is at the build stage.

 It can be created manually (separately) by running `make` in the `hw/` area.

 ### Stimulus strategy
 #### Test sequences
 All test sequences reside in `hw/ip/entropy_src/dv/env/seq_lib`.
 The `entropy_src_base_vseq` virtual sequence is extended from `cip_base_vseq` and serves as a starting point.
 All test sequences are extended from `entropy_src_base_vseq`.
 It provides commonly used handles, variables, functions and tasks that the test sequences can simple use / call.
 Some of the most commonly used tasks / functions are as follows:
 * entropy_src_init:     Initialize the ENTROPY_SRC module from the randomized environment variables in the config.

 #### Functional coverage
 To ensure high quality constrained random stimulus, it is necessary to develop a functional coverage model.
 The following covergroups have been developed to prove that the test intent has been adequately met:
 * common covergroup for interrupts `hw/dv/sv/cip_lib/cip_base_env_cov.sv`: Cover interrupt value, interrupt enable, intr_test, interrupt pin

 ### Self-checking strategy
 #### Scoreboard
 The `entropy_src_scoreboard` is primarily used for end to end checking.
 It creates the following analysis ports to retrieve the data monitored by corresponding interface agents:
 * tl_a_chan_fifo, tl_d_chan_fifo:  These 2 fifos provide transaction items at the end of Tilelink address channel and data channel respectively
 * rng_fifo, csrng_fifo:   The rng_fifo provides transaction items from the predictor and the csrng_fifo provide actual post-entropy_src transaction items to compare

 #### Assertions
 * TLUL assertions: The `tb/entropy_src_bind.sv` binds the `tlul_assert` [assertions](../../tlul/doc/TlulProtocolChecker.md) to the IP to ensure TileLink interface protocol compliance.
 * Unknown checks on DUT outputs: The RTL has assertions to ensure all outputs are initialized to known values after coming out of reset.

 ## Building and running tests
 We are using our in-house developed [regression tool](../../../../util/dvsim/README.md) for building and running our tests and regressions.
 Please take a look at the link for detailed information on the usage, capabilities, features and known issues.
 Here's how to run a smoke test:
 ```console
 $ cd hw/ip/entropy_src/dv
 $ make TEST_NAME=entropy_src_smoke
 ```

 ## Testplan
 [Testplan](../data/entropy_src_testplan.hjson)
	# ENTROPY_SRC DV document

	## Goals
	* DV
	* Verify all ENTROPY_SRC IP features by running dynamic simulations with a SV/UVM based testbench
	* Develop and run all tests based on the [testplan](#testplan) below towards closing code and functional coverage on the IP and all of its sub-modules
	* FPV
	* Verify TileLink device protocol compliance with an SVA based testbench

	## Current status
	* [Design & verification stage](../../../README.md)
	* [HW development stages](../../../../doc/project_governance/development_stages.md)
	* [Simulation results](https://reports.opentitan.org/hw/ip/entropy_src/dv/latest/report.html)

	## Design features
	For detailed information on ENTROPY_SRC design features, please see the [ENTROPY_SRC HWIP technical specification](../README.md).

	## Testbench architecture
	ENTROPY_SRC testbench has been constructed based on the [CIP testbench architecture](../../../dv/sv/cip_lib/README.md).

	### Block diagram
	![Block diagram](./doc/entropy_src_tb.svg)

	### Top level testbench
	Top level testbench is located at `hw/ip/entropy_src/dv/tb/tb.sv`. It instantiates the ENTROPY_SRC DUT module `hw/ip/entropy_src/rtl/entropy_src.sv`.
	In addition, it instantiates the following interfaces, connects them to the DUT and sets their handle into `uvm_config_db`:
	* [Clock and reset interface](../../../dv/sv/common_ifs/README.md)
	* [TileLink host interface](../../../dv/sv/tl_agent/README.md)
	* ENTROPY_SRC IOs
	* Interrupts ([`pins_if`](../../../dv/sv/common_ifs/README.md))
	* Alerts ([`pins_if`](../../../dv/sv/common_ifs/README.md))
	* Devmode ([`pins_if`](../../../dv/sv/common_ifs/README.md))

	### Common DV utility components
	The following utilities provide generic helper tasks and functions to perform activities that are common across the project:
	* [common_ifs](../../../dv/sv/common_ifs/README.md)
	* [dv_utils_pkg](../../../dv/sv/dv_utils/README.md)
	* [csr_utils_pkg](../../../dv/sv/csr_utils/README.md)

	<!--### Compile-time configurations
	TODO-->

	### Global types & methods
	All common types and methods defined at the package level can be found in
	`entropy_src_env_pkg`. Some of them in use are:
	```systemverilog
	typedef bit [RNG_BUS_WIDTH-1:0] rng_val_t;

	typedef enum { BOOT, STARTUP, CONTINUOUS, HALTED } entropy_phase_e;

	// A function to predict the current state (or phase) of the entropy_src DUT
	// based on the current setting and number of seeds generated
	function automatic entropy_phase_e convert_seed_idx_to_phase(int seed_idx,
	bit fips_enable,
	bit fw_ov_insert);
	```

	### TL_agent
	ENTROPY_SRC testbench instantiates (already handled in CIP base env) [tl_agent](../../../dv/sv/tl_agent/README.md)
	which provides the ability to drive and independently monitor random traffic via
	TL host interface into ENTROPY_SRC device.

	### Rng_agent
	Entropy_src testbench instantiates this PUSH_pull_agent(../../../dv/sv/push_pull_agent/README.md) which models the rng source.

	### Csrng_agent
	Entropy_src testbench instantiates this push_PULL_agent(../../../dv/sv/push_pull_agent/README.md) which models the csrng module.

	### UVM RAL Model
	The ENTROPY_SRC RAL model is created with the [`ralgen`](../../../dv/tools/ralgen/README.md) FuseSoC generator script automatically when the simulation is at the build stage.

	It can be created manually (separately) by running `make` in the `hw/` area.

	### Stimulus strategy
	#### Test sequences
	All test sequences reside in `hw/ip/entropy_src/dv/env/seq_lib`.
	The `entropy_src_base_vseq` virtual sequence is extended from `cip_base_vseq` and serves as a starting point.
	All test sequences are extended from `entropy_src_base_vseq`.
	It provides commonly used handles, variables, functions and tasks that the test sequences can simple use / call.
	Some of the most commonly used tasks / functions are as follows:
	* entropy_src_init: Initialize the ENTROPY_SRC module from the randomized environment variables in the config.

	#### Functional coverage
	To ensure high quality constrained random stimulus, it is necessary to develop a functional coverage model.
	The following covergroups have been developed to prove that the test intent has been adequately met:
	* common covergroup for interrupts `hw/dv/sv/cip_lib/cip_base_env_cov.sv`: Cover interrupt value, interrupt enable, intr_test, interrupt pin

	### Self-checking strategy
	#### Scoreboard
	The `entropy_src_scoreboard` is primarily used for end to end checking.
	It creates the following analysis ports to retrieve the data monitored by corresponding interface agents:
	* tl_a_chan_fifo, tl_d_chan_fifo: These 2 fifos provide transaction items at the end of Tilelink address channel and data channel respectively
	* rng_fifo, csrng_fifo: The rng_fifo provides transaction items from the predictor and the csrng_fifo provide actual post-entropy_src transaction items to compare

	#### Assertions
	* TLUL assertions: The `tb/entropy_src_bind.sv` binds the `tlul_assert` [assertions](../../tlul/doc/TlulProtocolChecker.md) to the IP to ensure TileLink interface protocol compliance.
	* Unknown checks on DUT outputs: The RTL has assertions to ensure all outputs are initialized to known values after coming out of reset.

	## Building and running tests
	We are using our in-house developed [regression tool](../../../../util/dvsim/README.md) for building and running our tests and regressions.
	Please take a look at the link for detailed information on the usage, capabilities, features and known issues.
	Here's how to run a smoke test:
	```console
	$ cd hw/ip/entropy_src/dv
	$ make TEST_NAME=entropy_src_smoke
	```

	## Testplan
	[Testplan](../data/entropy_src_testplan.hjson)