hw/top_earlgrey/rdc/rdc_waivers.tcl - 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
 #
 # Meridian RDC Waivers

 # Assumes modules defined in run-rdc.tcl
 if {[info exists modules] == 0} {
   error "modules variable does not exist!" 99
 }

 foreach mod $modules {
   if {[file exists $RDC_WAIVER_DIR/rdc_waivers.$mod.tcl]} {
     source $RDC_WAIVER_DIR/rdc_waivers.$mod.tcl
   }
 }

 # clk_ast_ext_i: Ignore S_GENCLK
 set_rule_status -rule {S_GENCLK} -status {Waived}  \
   -expression {(ClockTreeSignal=~"IOC6")} \
   -comment {External signal has SW bypass option. But usually not used. So internal generated clock is define ans main clock}

 # RstMgrSwRst scenario does not involved in retention logic
 set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
   -expression {(FromScenario=="RstMgrSwRst") && \
     (MetaStableFlop=~"*u_pinmux_aon.*io_*_retreg*")} \
   -comment {RstMgrSwRst scenario does not involved in retention logic}

 # RstMgrSwRst scenario: Xbar should not have any outstanding req.
 set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
   -expression {(FromScenario=="RstMgrSwRst") && \
     (ResetFlop=~"*.u_reg_if.outstanding_q")} \
   -comment {RstMgrSwRst scenario: Xbar should not have any outstanding req.}

 # USBDEV Wake up to PINMUX
 set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
   -expression {(ResetFlop=~"*.u_usbdev.u_reg.u_wake_control_cdc.u_src_to_dst_req.dst_level_q") && \
     (MetaStableFlop=~"*.u_pinmux_aon.u_usbdev_aon_wake.wake_detect_active_q")} \
   -comment {Suspend request signal is a pulse signal. \
     It is to initiate the wakeup detector FSM inside pinmux. \
     When Power is down, the state machine is already configures.}

 # USBDEV SW RST REQ: All reset are in phase (sync assert, sync de-assert)
 set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
   -expression {(FromScenario=="RstMgrSwRst") && \
     (ResetFlop=~"*.u_usbdev.gen_no_stubbed_*") && \
     (MetaStableFlop=~"*.u_xbar_main.u_asf_41.*.fifo_*ptr*") && \
     (ClockDomains=="USB_CLK::USB_CLK")} \
   -comment {SW Reset is sync assert and sync de-assert. \
     So, when signal crossing the domain, it has no metastability issue.}

 # USBDEV, CSR to PAD
 set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
   -expression {(ResetFlop=~"*.u_usbdev.u_reg.u_phy_pins_drive_d*_o.q*") && \
     (MetaStableFlop=~"USB_*")} \
   -comment {For AonPok, MainPok drop cases, the module floats the PAD \
   intentionally. If the PADs should drive values, the values are \
   pre-configured before entering to the low power modes. \
   For SW_RST_REQ cases, SW should correctly configure the pull-ups, \
   pull-downs prior to resetting the USBDEV IP.}

 # Ibex Clock Gating
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression { \
     (ResetFlop=~"*.u_rv_core_ibex.u_core.g_clock_en_secure.u_prim_core_busy_flop.gen_generic.u_impl_generic.q_o[0]") && \
     (MetaStableFlop=~"*.u_rv_core_ibex.u_core.core_clock_gate_i.gen_generic.u_impl_generic.en_latch")} \
   -comment {If clockgating enble is reset, it affects the gating cell when \
     CLK is 0 value.}

 # PINMUX CSR to SPI_DEV PADs
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(ResetFlop=~"*.u_pinmux_aon.dio*.pull_en") && \
     (MetaStableFlop=~"SPI_DEV_*")} \
   -comment {POR_N resets SPI_DEV. The SPI_CLK portion is in idle state.}

 # PINMUX Retention to SPI_HOST
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(ResetFlop=~"*.u_pinmux_aon.dio_oe_retreg_q*") && \
     (MetaStableFlop=~"SPI_HOST_CLK")} \
   -comment {SPI_HOST_CLK is in idle when POR_N is asserted.}
 # PINMUX Retention to USB
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(ResetFlop=~"*.u_pinmux_aon.dio_oe_retreg_q*") && \
     (MetaStableFlop=~"USB_*")} \
   -comment {USB is in idle when POR_N is asserted.}

 # AES Clock Gating
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*clk_main_aes_trans*") && \
     (MetaStableFlop=~"*u_clk_main_aes_trans.u_cg.*en_latch")} \
   -comment {POR_N resets AES module too.}
 # HMAC Clock Gating
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*clk_main_hmac_trans*") && \
     (MetaStableFlop=~"*u_clk_main_hmac_trans.u_cg.*en_latch")} \
   -comment {POR_N resets HMAC module too.}
 # KMAC Clock Gating
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*clk_main_kmac_trans*") && \
     (MetaStableFlop=~"*u_clk_main_kmac_trans.u_cg.*en_latch")} \
   -comment {POR_N resets KMAC module too.}

 # OTBN Clock Gating
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*clk_main_otbn_trans*") && \
     (MetaStableFlop=~"*u_clk_main_otbn_trans.u_cg.*en_latch")} \
   -comment {POR_N resets OTBN module too.}

 # SW_EN to CG
 create_view_criteria -name PorNSwEnCg -rule E_RST_METASTABILITY \
   -criteria {(SourceReset=="POR_N") && \
     (ResetFlop=~"*.u_clkmgr_aon.*_sw_en_sync*")}
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*.u_clkmgr_aon.*io_div2_peri_sw_en_sync*") && \
     (MetaStableFlop=~"*.u_clk_io_div2_peri_cg.*")}
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*.u_clkmgr_aon.*io_peri_sw_en_sync*") && \
     (MetaStableFlop=~"*.u_clk_io_peri_cg.*")}
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*.u_clkmgr_aon.*io_div4_peri_sw_en_sync*") && \
     (MetaStableFlop=~"*.u_clk_io_div4_peri_cg.*")}
 set_rule_status -rule E_RST_METASTABILITY -status Waived \
   -expression {(SourceReset=="POR_N") && \
     (ResetFlop=~"*.u_clkmgr_aon.*usb_peri_sw_en_sync*") && \
     (MetaStableFlop=~"*.u_clk_usb_peri_cg.*")}

 # SPI_HOST_CLK
 set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
   -expression {(ResetFlop=~"*u_spi_host*u_sck_flop*") && \
     (MetaStableFlop=~"SPI_HOST_CLK")} \
   -comment {If SPI_HOST receives a reset, CS_L will be de-asserted. \
     Any transactions will be cancelled.}

 # W_ASYNC_RST_FLOPS
 set_rule_status -rule W_ASYNC_RST_FLOPS -status Waived \
   -expression {(DrivingSignal=~"*strap_sampling.tap_strap_q*")} \
   -comment {STRAP can be changed. \
     However, whenever the tap sample is changed, TRST_N holds the \
     reset state. So, all TAPs remain in the reset state. \
     Async reset glitch won't affect the design.  }
 set_rule_status -rule W_ASYNC_RST_FLOPS -status Waived \
   -expression {(DrivingSignal=~"*.u_rv_dm.u_pm_en_sync.*")} \
   -comment {LifeCycle HW Debug Enable signal is static and determined \
     at boot time.}
	# Copyright lowRISC contributors.
	# Licensed under the Apache License, Version 2.0, see LICENSE for details.
	# SPDX-License-Identifier: Apache-2.0
	#
	# Meridian RDC Waivers

	# Assumes modules defined in run-rdc.tcl
	if {[info exists modules] == 0} {
	error "modules variable does not exist!" 99
	}

	foreach mod $modules {
	if {[file exists $RDC_WAIVER_DIR/rdc_waivers.$mod.tcl]} {
	source $RDC_WAIVER_DIR/rdc_waivers.$mod.tcl
	}
	}

	# clk_ast_ext_i: Ignore S_GENCLK
	set_rule_status -rule {S_GENCLK} -status {Waived} \
	-expression {(ClockTreeSignal=~"IOC6")} \
	-comment {External signal has SW bypass option. But usually not used. So internal generated clock is define ans main clock}

	# RstMgrSwRst scenario does not involved in retention logic
	set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
	-expression {(FromScenario=="RstMgrSwRst") && \
	(MetaStableFlop=~"u_pinmux_aon.io__retreg")} \
	-comment {RstMgrSwRst scenario does not involved in retention logic}

	# RstMgrSwRst scenario: Xbar should not have any outstanding req.
	set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
	-expression {(FromScenario=="RstMgrSwRst") && \
	(ResetFlop=~"*.u_reg_if.outstanding_q")} \
	-comment {RstMgrSwRst scenario: Xbar should not have any outstanding req.}

	# USBDEV Wake up to PINMUX
	set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
	-expression {(ResetFlop=~"*.u_usbdev.u_reg.u_wake_control_cdc.u_src_to_dst_req.dst_level_q") && \
	(MetaStableFlop=~"*.u_pinmux_aon.u_usbdev_aon_wake.wake_detect_active_q")} \
	-comment {Suspend request signal is a pulse signal. \
	It is to initiate the wakeup detector FSM inside pinmux. \
	When Power is down, the state machine is already configures.}

	# USBDEV SW RST REQ: All reset are in phase (sync assert, sync de-assert)
	set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
	-expression {(FromScenario=="RstMgrSwRst") && \
	(ResetFlop=~".u_usbdev.gen_no_stubbed_") && \
	(MetaStableFlop=~".u_xbar_main.u_asf_41..fifo_ptr") && \
	(ClockDomains=="USB_CLK::USB_CLK")} \
	-comment {SW Reset is sync assert and sync de-assert. \
	So, when signal crossing the domain, it has no metastability issue.}

	# USBDEV, CSR to PAD
	set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
	-expression {(ResetFlop=~".u_usbdev.u_reg.u_phy_pins_drive_d_o.q*") && \
	(MetaStableFlop=~"USB_*")} \
	-comment {For AonPok, MainPok drop cases, the module floats the PAD \
	intentionally. If the PADs should drive values, the values are \
	pre-configured before entering to the low power modes. \
	For SW_RST_REQ cases, SW should correctly configure the pull-ups, \
	pull-downs prior to resetting the USBDEV IP.}

	# Ibex Clock Gating
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression { \
	(ResetFlop=~"*.u_rv_core_ibex.u_core.g_clock_en_secure.u_prim_core_busy_flop.gen_generic.u_impl_generic.q_o[0]") && \
	(MetaStableFlop=~"*.u_rv_core_ibex.u_core.core_clock_gate_i.gen_generic.u_impl_generic.en_latch")} \
	-comment {If clockgating enble is reset, it affects the gating cell when \
	CLK is 0 value.}

	# PINMUX CSR to SPI_DEV PADs
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(ResetFlop=~".u_pinmux_aon.dio.pull_en") && \
	(MetaStableFlop=~"SPI_DEV_*")} \
	-comment {POR_N resets SPI_DEV. The SPI_CLK portion is in idle state.}

	# PINMUX Retention to SPI_HOST
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(ResetFlop=~".u_pinmux_aon.dio_oe_retreg_q") && \
	(MetaStableFlop=~"SPI_HOST_CLK")} \
	-comment {SPI_HOST_CLK is in idle when POR_N is asserted.}
	# PINMUX Retention to USB
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(ResetFlop=~".u_pinmux_aon.dio_oe_retreg_q") && \
	(MetaStableFlop=~"USB_*")} \
	-comment {USB is in idle when POR_N is asserted.}

	# AES Clock Gating
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~"clk_main_aes_trans") && \
	(MetaStableFlop=~"u_clk_main_aes_trans.u_cg.en_latch")} \
	-comment {POR_N resets AES module too.}
	# HMAC Clock Gating
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~"clk_main_hmac_trans") && \
	(MetaStableFlop=~"u_clk_main_hmac_trans.u_cg.en_latch")} \
	-comment {POR_N resets HMAC module too.}
	# KMAC Clock Gating
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~"clk_main_kmac_trans") && \
	(MetaStableFlop=~"u_clk_main_kmac_trans.u_cg.en_latch")} \
	-comment {POR_N resets KMAC module too.}

	# OTBN Clock Gating
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~"clk_main_otbn_trans") && \
	(MetaStableFlop=~"u_clk_main_otbn_trans.u_cg.en_latch")} \
	-comment {POR_N resets OTBN module too.}

	# SW_EN to CG
	create_view_criteria -name PorNSwEnCg -rule E_RST_METASTABILITY \
	-criteria {(SourceReset=="POR_N") && \
	(ResetFlop=~".u_clkmgr_aon._sw_en_sync*")}
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~".u_clkmgr_aon.io_div2_peri_sw_en_sync*") && \
	(MetaStableFlop=~".u_clk_io_div2_peri_cg.")}
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~".u_clkmgr_aon.io_peri_sw_en_sync*") && \
	(MetaStableFlop=~".u_clk_io_peri_cg.")}
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~".u_clkmgr_aon.io_div4_peri_sw_en_sync*") && \
	(MetaStableFlop=~".u_clk_io_div4_peri_cg.")}
	set_rule_status -rule E_RST_METASTABILITY -status Waived \
	-expression {(SourceReset=="POR_N") && \
	(ResetFlop=~".u_clkmgr_aon.usb_peri_sw_en_sync*") && \
	(MetaStableFlop=~".u_clk_usb_peri_cg.")}

	# SPI_HOST_CLK
	set_rule_status -rule {E_RST_METASTABILITY} -status {Waived} \
	-expression {(ResetFlop=~"u_spi_hostu_sck_flop*") && \
	(MetaStableFlop=~"SPI_HOST_CLK")} \
	-comment {If SPI_HOST receives a reset, CS_L will be de-asserted. \
	Any transactions will be cancelled.}

	# W_ASYNC_RST_FLOPS
	set_rule_status -rule W_ASYNC_RST_FLOPS -status Waived \
	-expression {(DrivingSignal=~"strap_sampling.tap_strap_q")} \
	-comment {STRAP can be changed. \
	However, whenever the tap sample is changed, TRST_N holds the \
	reset state. So, all TAPs remain in the reset state. \
	Async reset glitch won't affect the design. }
	set_rule_status -rule W_ASYNC_RST_FLOPS -status Waived \
	-expression {(DrivingSignal=~".u_rv_dm.u_pm_en_sync.")} \
	-comment {LifeCycle HW Debug Enable signal is static and determined \
	at boot time.}