hw/ip/clkmgr/data/clkmgr_testplan.hjson - 3p/lowrisc/opentitan - Git at Google

 // Copyright lowRISC contributors.
 // Licensed under the Apache License, Version 2.0, see LICENSE for details.
 // SPDX-License-Identifier: Apache-2.0
 {
   name: "clkmgr"
   // TODO: remove the common testplans if not applicable
   import_testplans: ["hw/dv/tools/dvsim/testplans/csr_testplan.hjson",
                      "hw/dv/tools/dvsim/testplans/intr_test_testplan.hjson",
                      "hw/dv/tools/dvsim/testplans/alert_test_testplan.hjson",
                      "hw/dv/tools/dvsim/testplans/tl_device_access_types_testplan.hjson",
                      "hw/dv/tools/dvsim/testplans/stress_all_with_reset_testplan.hjson",
                      "hw/dv/tools/dvsim/testplans/shadow_reg_errors_testplan.hjson",
                      // TODO: Top-level specific Hjson imported here. This will likely be resolved
                      // once we move to IPgen flow.
                      "hw/top_earlgrey/ip/clkmgr/data/autogen/clkmgr_sec_cm_testplan.hjson",
                      "hw/dv/tools/dvsim/testplans/sec_cm_count_testplan.hjson"]
   testpoints: [
     {
       name: smoke
       desc: '''
             Smoke test disabling peripheral and transactional clocks.

             - Disables all peripheral clocks from their enabled reset state.
             - Transactional clocks gating depends on whether they are idle.
             - Initializes all units as busy (not idle).
             - Clears each unit's `clk_hints` bit, which has no effect until
               the unit becomes idle.
             - Sets the unit's `idle_i` bit, which should disable the clock.
             - Writes both values of the `jitter_enable` CSR.

             **Stimulus**:
             - CSR writes to `clk_enables` and `clk_hints`.
             - Setting `idle_i` clkmgr input.

             **Checks**:
             - SVA assertions for peripheral clocks enable and disable
               properties.
             - Transactional clocks check SVA properties as follows:
               - If the hint enables it, the clock becomes active.
               - If the hint disables it but the unit is busy, the clock remains
                 active.
               - If the hint disables it and the unit is idle, the clock stops.
             - For transactional units the CSR `clk_hints_status` is checked
               to correspond to `clk_hints` once the units are idle.
             - Check in scoreboard the `jitter_en_o` output tracks updates of the
               `jitter_enable` CSR.
             '''
       stage: V1
       tests: ["clkmgr_smoke"]
     }
     {
       name: peri_enables
       desc: '''
             Peripheral clocks are disabled if its `clk_enables` bit is off,
             or `pwr_i.ip_clk_en` is off, and `scanmode_i` is not
             `lc_ctrl_pkg::On`.

             This test runs multiple rounds, and on each one it randomizes
              `ip_clk_en` and `scanmode_i`, and the initial setting of
              `clk_enables`, it sends a CSR write to `csr_enables` with this
              initial value followed by a write that flips all bits.

             **Checks**:
             - The scoreboard checks the gated clock activities against its
               model of the expected behavior.
             '''
       stage: V2
       tests: ["clkmgr_peri"]
     }
     {
       name: trans_enables
       desc: '''
             Transactional unit clocks are disabled if they are not busy and
             their CSR `clk_hints` bit is off, or `pwr_i.ip_clk_en` is off,
             and `scanmode_i` is not `lc_ctrl_pkg::On`.
             This test randomizes `ip_clk_en`, the initial setting of `idle_i`
             and the desired value of `clk_hints`. Each round performs this
             sequence:
             - Writes the desired value to CSR `clk_hints` and checks that the
               CSR `clk_hints_status` reflects CSR `clk_hints` except for the
               units not-idle.
             - Marks all units as idle, and checks that `csr_hints_status`
               matches `clk_hints`.
             - Writes `clk_hints` to all ones and checks that `csr_hints_status`
               is all ones.
             - Writes `clk_hints` with its reset value.

             **Checks**:
             - SVA assertions for transactional unit clocks described in
               clkmgr_smoke.
             '''
       stage: V2
       tests: ["clkmgr_trans"]
     }
     {
       name: extclk
       desc: '''
             Tests the functionality of enabling external clocks.

             - External clock is enabled if the `lc_clk_byp_req_i` input from
               `lc_ctrl` is `lc_ctrl_pkg::On`.
             - External clock is also be enabled when CSR `extclk_ctrl.sel` is
               set to
               `lc_ctrl_pkg::On` and the `lc_dtl_en_i` input from `lc_ctrl` is
               `lc_ctrl_pkg::On`.
             - Notice writes to the `extclk_ctrl.sel` register are ignored unless
               the CSR `extclk_ctrl_regwen` is 1.
             - A successful switch to external clocks due to `lc_clk_byl_req_i`
               will cause the clkmgr to undo a divide by 2 for io_div4 and
               io_div2 clocks except when `(scanmode_i == prim_mubi_pkg::MuBi4True)`.
             - A software triggered switch to external clock will undo divides
               by 2 if `extclk_ctrl.hi_speed_sel` is set to `prim_mubi_pkg::MuBi4True`.

             **Stimulus**:
             - CSR writes to `extclk_ctrl` and `extclk_ctrl_regwen`.
             - Setting `lc_hw_debug_en_i`, `lc_clk_byp_req_i`, and the handshake to
               ast via `ast_clk_byp_req_o` and `ast_clk_byp_ack_i`.
             - Setting `scanmode_i`.

             **Checks**:
             Clock divider checks are done with SVA assertions.
             - When the external clock is selected (and not defeated by
               `scanmode_i` for scoreboard checks):
               - The `clk_io_div2_powerup` output matches the `clk_io_powerup`
                  output.
               - The `clk_io_div4_powerup` output matches the `clk_io_powerup`
                  output at half its frequency.
             - When the external clock is not selected or division is defeated:
               - The `clk_io_div2_powerup` output matches the `clk_io_powerup`
                 output at half its frequency.
               - The `clk_io_div4_powerup` output matches the `clk_io_powerup`
                  output at a quarter of its frequency.
             LC / AST handshake:
             - When the external clock functionality is triggered the
               `ast_clk_byp_req_o` output pin is set to `lc_ctrl_pkg::On`.
             - When `ast_clk_byp_ack_i` is set to `lc_ctrl_pkg::On` in response
               to a corresponding request:
               - The clock dividers are stepped down, unless defeated by
                  `scanmode_i` being `lc_ctrl_pkg::On`.
              - If the initial request was due to the assertion of the
                `lc_clk_byp_req_i`, the `lc_clk_byp_ack_o` output is set to
                `lc_ctrl_pkg::On`.
             '''
       stage: V2
       tests: ["clkmgr_extclk"]
     }
     {
       name: clk_status
       desc: '''
             This tests the three `pwr_o.*_status` output ports, for the
             `io`, `main`, and `usb` clocks.

             The `pwr_o.*_status` output must track the correspponding
             `pwr_i.*_ip_clk_en` input.

             **Stimulus**:
             - Randomize the `pwr_i.*_ip_clk_en` setting for each clock.

             **Check**:
             - The checks are done in SVA at `clkmbf_pwrmgr_sva_if.sv`.
             '''
       stage: V2
       tests: ["clkmgr_clk_status"]
     }
     {
       name: jitter
       desc: '''
             This tests the jitter functionality.

             The jitter functionality is implemented by the AST block, but
             controlled by the `jitter_enable` CSR in this block. This CSR
             directly drives the `jitter_en_o` output pin.

             **Stimulus**:
             - CSR write to `jitter_enable`.

             **Check**:
             - The `jitter_en_o` output pin reflects the `jitter_enable` CSR.
               Test is implemented in the scoreboard, and runs always.
             '''
       stage: V2
       tests: ["clkmgr_smoke"]
     }
     {
       name: frequency
       desc: '''This tests the frequency counters measured count functionality.

             These counters compute the number of cycles of some clock relative
             to the aon timer. It should trigger a recoverable alert when the
             count is not in the expected interval. This tests programs counts
             for each counter, with intervals set to trigger correct, fast, and
             slow counts.

             **Stimulus**:
             - Randomly set slow, correct, and fast interval for each counter
               and test.

             **Check**:
             - Slow and fast intervals should cause a recoverable alert.
             - Coverage collected per clock.
             '''
       stage: V2
       tests: ["clkmgr_frequency"]
     }
     {
       name: frequency_timeout
       desc: '''This tests the frequency counters timeout functionality.

             These counters compute the number of cycles of some clock relative
             to the aon timer. It should trigger a recoverable alert when there
             is no valid measurement when enabled, leading to a timeout. This is
             separate from the `frequenty` testpoint to simplify the test checks.

             **Stimulus**:
             - Randomly stop measured clocks to trigger a timeout.

             **Check**:
             - Timeout should cause a recoverable alert.
             - Coverage collected per clock.
             '''
       stage: V2
       tests: ["clkmgr_frequency_timeout"]
     }
     {
       name: frequency_overflow
       desc: '''This tests the overflow feature in prim_clock_meas.

             This needs to modify the state of the counter to trigger the
             feature.

             **Stimulus**:
             - Program the counter. Whenever it hits the value of 1, set it to
               the range - 2.

             **Check**:
             - The internal cnt_ovfl flop is set.
             - The fast_o output should be set.
             '''
       stage: V2
       tests: ["clkmgr_frequency"]
     }
     {
       name: stress_all
       desc: '''This runs random sequences in succession.

             Randomly chooses from the following sequences:
             - clkmgr_extclk_vseq,
             - clkmgr_frequency_timeout_vseq,
             - clkmgr_frequency_vseq,
             - clkmgr_peri_vseq,
             - clkmgr_smoke_vseq,
             - clkmgr_trans_vseq
             '''
       stage: V2
       tests: ["clkmgr_stress_all"]
     }
   ]

   covergroups: [
     {
       name: peri_cg
       desc: '''
             Collects coverage for each peripheral clock.

             The peripheral clocks depend on a bit in the clk_enables CSR,
             the ip_clk_en input from pwrmgr, and the scanmode input.
             This collects the cross of them for each peripheral.

             FIXME This is collected in an array, one instance for each clock,
             but the dvsim coverage flow doesn't yet support arrays.
             '''
     }
     {
       name: trans_cg
       desc: '''
             Collects coverage for each transactional unit clock.

             The transactional unit clocks depend on a bit in the clk_hints CSR,
             the ip_clk_en input from pwrmgr, the respective idle input bit from
             the unit, and the scanmode input.
             This collects the cross of them for each transactional unit.

             FIXME This is collected in an array, one instance for each clock,
             but the dvsim coverage flow doesn't yet support arrays.
             '''
     }
     {
       name: extclk_cg
       desc: '''
             Collects coverage for the external clock selection.

             The external clock selection depends on the `extclk_ctrl` CSR
             fields `sel` and `hi_speed_sel`, and the `lc_hw_debug_en_i`,
             `lc_clk_byp_req_i`, and `scanmode_i` input pins. This covergroup
             collects their cross.
             '''
     }
     {
       name: freq_measure_cg
       desc: '''
             Collects coverage for the frequency measurement counters.

             The relevant information is whether it got an okay, slow, or
             fast measurement, or a timeout.
             '''
     }
   ]
 }
	// Copyright lowRISC contributors.
	// Licensed under the Apache License, Version 2.0, see LICENSE for details.
	// SPDX-License-Identifier: Apache-2.0
	{
	name: "clkmgr"
	// TODO: remove the common testplans if not applicable
	import_testplans: ["hw/dv/tools/dvsim/testplans/csr_testplan.hjson",
	"hw/dv/tools/dvsim/testplans/intr_test_testplan.hjson",
	"hw/dv/tools/dvsim/testplans/alert_test_testplan.hjson",
	"hw/dv/tools/dvsim/testplans/tl_device_access_types_testplan.hjson",
	"hw/dv/tools/dvsim/testplans/stress_all_with_reset_testplan.hjson",
	"hw/dv/tools/dvsim/testplans/shadow_reg_errors_testplan.hjson",
	// TODO: Top-level specific Hjson imported here. This will likely be resolved
	// once we move to IPgen flow.
	"hw/top_earlgrey/ip/clkmgr/data/autogen/clkmgr_sec_cm_testplan.hjson",
	"hw/dv/tools/dvsim/testplans/sec_cm_count_testplan.hjson"]
	testpoints: [
	{
	name: smoke
	desc: '''
	Smoke test disabling peripheral and transactional clocks.

	- Disables all peripheral clocks from their enabled reset state.
	- Transactional clocks gating depends on whether they are idle.
	- Initializes all units as busy (not idle).
	- Clears each unit's `clk_hints` bit, which has no effect until
	the unit becomes idle.
	- Sets the unit's `idle_i` bit, which should disable the clock.
	- Writes both values of the `jitter_enable` CSR.

	Stimulus:
	- CSR writes to `clk_enables` and `clk_hints`.
	- Setting `idle_i` clkmgr input.

	Checks:
	- SVA assertions for peripheral clocks enable and disable
	properties.
	- Transactional clocks check SVA properties as follows:
	- If the hint enables it, the clock becomes active.
	- If the hint disables it but the unit is busy, the clock remains
	active.
	- If the hint disables it and the unit is idle, the clock stops.
	- For transactional units the CSR `clk_hints_status` is checked
	to correspond to `clk_hints` once the units are idle.
	- Check in scoreboard the `jitter_en_o` output tracks updates of the
	`jitter_enable` CSR.
	'''
	stage: V1
	tests: ["clkmgr_smoke"]
	}
	{
	name: peri_enables
	desc: '''
	Peripheral clocks are disabled if its `clk_enables` bit is off,
	or `pwr_i.ip_clk_en` is off, and `scanmode_i` is not
	`lc_ctrl_pkg::On`.

	This test runs multiple rounds, and on each one it randomizes
	`ip_clk_en` and `scanmode_i`, and the initial setting of
	`clk_enables`, it sends a CSR write to `csr_enables` with this
	initial value followed by a write that flips all bits.

	Checks:
	- The scoreboard checks the gated clock activities against its
	model of the expected behavior.
	'''
	stage: V2
	tests: ["clkmgr_peri"]
	}
	{
	name: trans_enables
	desc: '''
	Transactional unit clocks are disabled if they are not busy and
	their CSR `clk_hints` bit is off, or `pwr_i.ip_clk_en` is off,
	and `scanmode_i` is not `lc_ctrl_pkg::On`.
	This test randomizes `ip_clk_en`, the initial setting of `idle_i`
	and the desired value of `clk_hints`. Each round performs this
	sequence:
	- Writes the desired value to CSR `clk_hints` and checks that the
	CSR `clk_hints_status` reflects CSR `clk_hints` except for the
	units not-idle.
	- Marks all units as idle, and checks that `csr_hints_status`
	matches `clk_hints`.
	- Writes `clk_hints` to all ones and checks that `csr_hints_status`
	is all ones.
	- Writes `clk_hints` with its reset value.

	Checks:
	- SVA assertions for transactional unit clocks described in
	clkmgr_smoke.
	'''
	stage: V2
	tests: ["clkmgr_trans"]
	}
	{
	name: extclk
	desc: '''
	Tests the functionality of enabling external clocks.

	- External clock is enabled if the `lc_clk_byp_req_i` input from
	`lc_ctrl` is `lc_ctrl_pkg::On`.
	- External clock is also be enabled when CSR `extclk_ctrl.sel` is
	set to
	`lc_ctrl_pkg::On` and the `lc_dtl_en_i` input from `lc_ctrl` is
	`lc_ctrl_pkg::On`.
	- Notice writes to the `extclk_ctrl.sel` register are ignored unless
	the CSR `extclk_ctrl_regwen` is 1.
	- A successful switch to external clocks due to `lc_clk_byl_req_i`
	will cause the clkmgr to undo a divide by 2 for io_div4 and
	io_div2 clocks except when `(scanmode_i == prim_mubi_pkg::MuBi4True)`.
	- A software triggered switch to external clock will undo divides
	by 2 if `extclk_ctrl.hi_speed_sel` is set to `prim_mubi_pkg::MuBi4True`.

	Stimulus:
	- CSR writes to `extclk_ctrl` and `extclk_ctrl_regwen`.
	- Setting `lc_hw_debug_en_i`, `lc_clk_byp_req_i`, and the handshake to
	ast via `ast_clk_byp_req_o` and `ast_clk_byp_ack_i`.
	- Setting `scanmode_i`.

	Checks:
	Clock divider checks are done with SVA assertions.
	- When the external clock is selected (and not defeated by
	`scanmode_i` for scoreboard checks):
	- The `clk_io_div2_powerup` output matches the `clk_io_powerup`
	output.
	- The `clk_io_div4_powerup` output matches the `clk_io_powerup`
	output at half its frequency.
	- When the external clock is not selected or division is defeated:
	- The `clk_io_div2_powerup` output matches the `clk_io_powerup`
	output at half its frequency.
	- The `clk_io_div4_powerup` output matches the `clk_io_powerup`
	output at a quarter of its frequency.
	LC / AST handshake:
	- When the external clock functionality is triggered the
	`ast_clk_byp_req_o` output pin is set to `lc_ctrl_pkg::On`.
	- When `ast_clk_byp_ack_i` is set to `lc_ctrl_pkg::On` in response
	to a corresponding request:
	- The clock dividers are stepped down, unless defeated by
	`scanmode_i` being `lc_ctrl_pkg::On`.
	- If the initial request was due to the assertion of the
	`lc_clk_byp_req_i`, the `lc_clk_byp_ack_o` output is set to
	`lc_ctrl_pkg::On`.
	'''
	stage: V2
	tests: ["clkmgr_extclk"]
	}
	{
	name: clk_status
	desc: '''
	This tests the three `pwr_o.*_status` output ports, for the
	`io`, `main`, and `usb` clocks.

	The `pwr_o.*_status` output must track the correspponding
	`pwr_i.*_ip_clk_en` input.

	Stimulus:
	- Randomize the `pwr_i.*_ip_clk_en` setting for each clock.

	Check:
	- The checks are done in SVA at `clkmbf_pwrmgr_sva_if.sv`.
	'''
	stage: V2
	tests: ["clkmgr_clk_status"]
	}
	{
	name: jitter
	desc: '''
	This tests the jitter functionality.

	The jitter functionality is implemented by the AST block, but
	controlled by the `jitter_enable` CSR in this block. This CSR
	directly drives the `jitter_en_o` output pin.

	Stimulus:
	- CSR write to `jitter_enable`.

	Check:
	- The `jitter_en_o` output pin reflects the `jitter_enable` CSR.
	Test is implemented in the scoreboard, and runs always.
	'''
	stage: V2
	tests: ["clkmgr_smoke"]
	}
	{
	name: frequency
	desc: '''This tests the frequency counters measured count functionality.

	These counters compute the number of cycles of some clock relative
	to the aon timer. It should trigger a recoverable alert when the
	count is not in the expected interval. This tests programs counts
	for each counter, with intervals set to trigger correct, fast, and
	slow counts.

	Stimulus:
	- Randomly set slow, correct, and fast interval for each counter
	and test.

	Check:
	- Slow and fast intervals should cause a recoverable alert.
	- Coverage collected per clock.
	'''
	stage: V2
	tests: ["clkmgr_frequency"]
	}
	{
	name: frequency_timeout
	desc: '''This tests the frequency counters timeout functionality.

	These counters compute the number of cycles of some clock relative
	to the aon timer. It should trigger a recoverable alert when there
	is no valid measurement when enabled, leading to a timeout. This is
	separate from the `frequenty` testpoint to simplify the test checks.

	Stimulus:
	- Randomly stop measured clocks to trigger a timeout.

	Check:
	- Timeout should cause a recoverable alert.
	- Coverage collected per clock.
	'''
	stage: V2
	tests: ["clkmgr_frequency_timeout"]
	}
	{
	name: frequency_overflow
	desc: '''This tests the overflow feature in prim_clock_meas.

	This needs to modify the state of the counter to trigger the
	feature.

	Stimulus:
	- Program the counter. Whenever it hits the value of 1, set it to
	the range - 2.

	Check:
	- The internal cnt_ovfl flop is set.
	- The fast_o output should be set.
	'''
	stage: V2
	tests: ["clkmgr_frequency"]
	}
	{
	name: stress_all
	desc: '''This runs random sequences in succession.

	Randomly chooses from the following sequences:
	- clkmgr_extclk_vseq,
	- clkmgr_frequency_timeout_vseq,
	- clkmgr_frequency_vseq,
	- clkmgr_peri_vseq,
	- clkmgr_smoke_vseq,
	- clkmgr_trans_vseq
	'''
	stage: V2
	tests: ["clkmgr_stress_all"]
	}
	]

	covergroups: [
	{
	name: peri_cg
	desc: '''
	Collects coverage for each peripheral clock.

	The peripheral clocks depend on a bit in the clk_enables CSR,
	the ip_clk_en input from pwrmgr, and the scanmode input.
	This collects the cross of them for each peripheral.

	FIXME This is collected in an array, one instance for each clock,
	but the dvsim coverage flow doesn't yet support arrays.
	'''
	}
	{
	name: trans_cg
	desc: '''
	Collects coverage for each transactional unit clock.

	The transactional unit clocks depend on a bit in the clk_hints CSR,
	the ip_clk_en input from pwrmgr, the respective idle input bit from
	the unit, and the scanmode input.
	This collects the cross of them for each transactional unit.

	FIXME This is collected in an array, one instance for each clock,
	but the dvsim coverage flow doesn't yet support arrays.
	'''
	}
	{
	name: extclk_cg
	desc: '''
	Collects coverage for the external clock selection.

	The external clock selection depends on the `extclk_ctrl` CSR
	fields `sel` and `hi_speed_sel`, and the `lc_hw_debug_en_i`,
	`lc_clk_byp_req_i`, and `scanmode_i` input pins. This covergroup
	collects their cross.
	'''
	}
	{
	name: freq_measure_cg
	desc: '''
	Collects coverage for the frequency measurement counters.

	The relevant information is whether it got an okay, slow, or
	fast measurement, or a timeout.
	'''
	}
	]
	}