/* * Copyright (c) 2012-2018, NVIDIA Corporation. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ /* * Function naming determines intended use: * * _r(void) : Returns the offset for register . * * _w(void) : Returns the word offset for word (4 byte) element . * * __s(void) : Returns size of field of register in bits. * * __f(u32 v) : Returns a value based on 'v' which has been shifted * and masked to place it at field of register . This value * can be |'d with others to produce a full register value for * register . * * __m(void) : Returns a mask for field of register . This * value can be ~'d and then &'d to clear the value of field for * register . * * ___f(void) : Returns the constant value after being shifted * to place it at field of register . This value can be |'d * with others to produce a full register value for . * * __v(u32 r) : Returns the value of field from a full register * value 'r' after being shifted to place its LSB at bit 0. * This value is suitable for direct comparison with other unshifted * values appropriate for use in field of register . * * ___v(void) : Returns the constant value for defined for * field of register . This value is suitable for direct * comparison with unshifted values appropriate for use in field * of register . */ #ifndef __hw_sim_pci_h__ #define __hw_sim_pci_h__ /*This file is autogenerated. Do not edit. */ static inline u32 sim_r(void) { return 0x0008f000U; } static inline u32 sim_send_ring_r(void) { return 0x00000000U; } static inline u32 sim_send_ring_target_s(void) { return 2U; } static inline u32 sim_send_ring_target_f(u32 v) { return (v & 0x3U) << 0U; } static inline u32 sim_send_ring_target_m(void) { return 0x3U << 0U; } static inline u32 sim_send_ring_target_v(u32 r) { return (r >> 0U) & 0x3U; } static inline u32 sim_send_ring_target_phys_init_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_target_phys_init_f(void) { return 0x1U; } static inline u32 sim_send_ring_target_phys__init_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_target_phys__init_f(void) { return 0x1U; } static inline u32 sim_send_ring_target_phys__prod_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_target_phys__prod_f(void) { return 0x1U; } static inline u32 sim_send_ring_target_phys_nvm_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_target_phys_nvm_f(void) { return 0x1U; } static inline u32 sim_send_ring_target_phys_pci_v(void) { return 0x00000002U; } static inline u32 sim_send_ring_target_phys_pci_f(void) { return 0x2U; } static inline u32 sim_send_ring_target_phys_pci_coherent_v(void) { return 0x00000003U; } static inline u32 sim_send_ring_target_phys_pci_coherent_f(void) { return 0x3U; } static inline u32 sim_send_ring_status_s(void) { return 1U; } static inline u32 sim_send_ring_status_f(u32 v) { return (v & 0x1U) << 3U; } static inline u32 sim_send_ring_status_m(void) { return 0x1U << 3U; } static inline u32 sim_send_ring_status_v(u32 r) { return (r >> 3U) & 0x1U; } static inline u32 sim_send_ring_status_init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_status_init_f(void) { return 0x0U; } static inline u32 sim_send_ring_status__init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_status__init_f(void) { return 0x0U; } static inline u32 sim_send_ring_status__prod_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_status__prod_f(void) { return 0x0U; } static inline u32 sim_send_ring_status_invalid_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_status_invalid_f(void) { return 0x0U; } static inline u32 sim_send_ring_status_valid_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_status_valid_f(void) { return 0x8U; } static inline u32 sim_send_ring_size_s(void) { return 2U; } static inline u32 sim_send_ring_size_f(u32 v) { return (v & 0x3U) << 4U; } static inline u32 sim_send_ring_size_m(void) { return 0x3U << 4U; } static inline u32 sim_send_ring_size_v(u32 r) { return (r >> 4U) & 0x3U; } static inline u32 sim_send_ring_size_init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_size_init_f(void) { return 0x0U; } static inline u32 sim_send_ring_size__init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_size__init_f(void) { return 0x0U; } static inline u32 sim_send_ring_size__prod_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_size__prod_f(void) { return 0x0U; } static inline u32 sim_send_ring_size_4kb_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_size_4kb_f(void) { return 0x0U; } static inline u32 sim_send_ring_size_8kb_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_size_8kb_f(void) { return 0x10U; } static inline u32 sim_send_ring_size_12kb_v(void) { return 0x00000002U; } static inline u32 sim_send_ring_size_12kb_f(void) { return 0x20U; } static inline u32 sim_send_ring_size_16kb_v(void) { return 0x00000003U; } static inline u32 sim_send_ring_size_16kb_f(void) { return 0x30U; } static inline u32 sim_send_ring_gp_in_ring_s(void) { return 1U; } static inline u32 sim_send_ring_gp_in_ring_f(u32 v) { return (v & 0x1) << 11U; } static inline u32 sim_send_ring_gp_in_ring_m(void) { return 0x1 << 11U; } static inline u32 sim_send_ring_gp_in_ring_v(u32 r) { return (r >> 11) & 0x1U; } static inline u32 sim_send_ring_gp_in_ring__init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_gp_in_ring__init_f(void) { return 0x0U; } static inline u32 sim_send_ring_gp_in_ring__prod_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_gp_in_ring__prod_f(void) { return 0x0U; } static inline u32 sim_send_ring_gp_in_ring_no_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_gp_in_ring_no_f(void) { return 0x0U; } static inline u32 sim_send_ring_gp_in_ring_yes_v(void) { return 0x00000001U; } static inline u32 sim_send_ring_gp_in_ring_yes_f(void) { return 0x800U; } static inline u32 sim_send_ring_addr_lo_s(void) { return 20U; } static inline u32 sim_send_ring_addr_lo_f(u32 v) { return (v & 0xfffffU) << 12U; } static inline u32 sim_send_ring_addr_lo_m(void) { return 0xfffffU << 12U; } static inline u32 sim_send_ring_addr_lo_v(u32 r) { return (r >> 12U) & 0xfffffU; } static inline u32 sim_send_ring_addr_lo__init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_addr_lo__init_f(void) { return 0x0U; } static inline u32 sim_send_ring_addr_lo__prod_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_addr_lo__prod_f(void) { return 0x0U; } static inline u32 sim_send_ring_hi_r(void) { return 0x00000004U; } static inline u32 sim_send_ring_hi_addr_s(void) { return 20U; } static inline u32 sim_send_ring_hi_addr_f(u32 v) { return (v & 0xfffffU) << 0U; } static inline u32 sim_send_ring_hi_addr_m(void) { return 0xfffffU << 0U; } static inline u32 sim_send_ring_hi_addr_v(u32 r) { return (r >> 0U) & 0xfffffU; } static inline u32 sim_send_ring_hi_addr__init_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_hi_addr__init_f(void) { return 0x0U; } static inline u32 sim_send_ring_hi_addr__prod_v(void) { return 0x00000000U; } static inline u32 sim_send_ring_hi_addr__prod_f(void) { return 0x0U; } static inline u32 sim_send_put_r(void) { return 0x00000008U; } static inline u32 sim_send_put_pointer_s(void) { return 29U; } static inline u32 sim_send_put_pointer_f(u32 v) { return (v & 0x1fffffffU) << 3U; } static inline u32 sim_send_put_pointer_m(void) { return 0x1fffffffU << 3U; } static inline u32 sim_send_put_pointer_v(u32 r) { return (r >> 3U) & 0x1fffffffU; } static inline u32 sim_send_get_r(void) { return 0x0000000cU; } static inline u32 sim_send_get_pointer_s(void) { return 29U; } static inline u32 sim_send_get_pointer_f(u32 v) { return (v & 0x1fffffffU) << 3U; } static inline u32 sim_send_get_pointer_m(void) { return 0x1fffffffU << 3U; } static inline u32 sim_send_get_pointer_v(u32 r) { return (r >> 3U) & 0x1fffffffU; } static inline u32 sim_recv_ring_r(void) { return 0x00000010U; } static inline u32 sim_recv_ring_target_s(void) { return 2U; } static inline u32 sim_recv_ring_target_f(u32 v) { return (v & 0x3U) << 0U; } static inline u32 sim_recv_ring_target_m(void) { return 0x3U << 0U; } static inline u32 sim_recv_ring_target_v(u32 r) { return (r >> 0) & 0x3U; } static inline u32 sim_recv_ring_target_phys_init_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_target_phys_init_f(void) { return 0x1U; } static inline u32 sim_recv_ring_target_phys__init_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_target_phys__init_f(void) { return 0x1U; } static inline u32 sim_recv_ring_target_phys__prod_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_target_phys__prod_f(void) { return 0x1U; } static inline u32 sim_recv_ring_target_phys_nvm_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_target_phys_nvm_f(void) { return 0x1U; } static inline u32 sim_recv_ring_target_phys_pci_v(void) { return 0x00000002U; } static inline u32 sim_recv_ring_target_phys_pci_f(void) { return 0x2U; } static inline u32 sim_recv_ring_target_phys_pci_coherent_v(void) { return 0x00000003U; } static inline u32 sim_recv_ring_target_phys_pci_coherent_f(void) { return 0x3U; } static inline u32 sim_recv_ring_status_s(void) { return 1U; } static inline u32 sim_recv_ring_status_f(u32 v) { return (v & 0x1U) << 3U; } static inline u32 sim_recv_ring_status_m(void) { return 0x1U << 3U; } static inline u32 sim_recv_ring_status_v(u32 r) { return (r >> 3U) & 0x1U; } static inline u32 sim_recv_ring_status_init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_status_init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_status__init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_status__init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_status__prod_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_status__prod_f(void) { return 0x0U; } static inline u32 sim_recv_ring_status_invalid_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_status_invalid_f(void) { return 0x0U; } static inline u32 sim_recv_ring_status_valid_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_status_valid_f(void) { return 0x8U; } static inline u32 sim_recv_ring_size_s(void) { return 2U; } static inline u32 sim_recv_ring_size_f(u32 v) { return (v & 0x3U) << 4U; } static inline u32 sim_recv_ring_size_m(void) { return 0x3U << 4U; } static inline u32 sim_recv_ring_size_v(u32 r) { return (r >> 4U) & 0x3U; } static inline u32 sim_recv_ring_size_init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_size_init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_size__init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_size__init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_size__prod_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_size__prod_f(void) { return 0x0U; } static inline u32 sim_recv_ring_size_4kb_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_size_4kb_f(void) { return 0x0U; } static inline u32 sim_recv_ring_size_8kb_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_size_8kb_f(void) { return 0x10U; } static inline u32 sim_recv_ring_size_12kb_v(void) { return 0x00000002U; } static inline u32 sim_recv_ring_size_12kb_f(void) { return 0x20U; } static inline u32 sim_recv_ring_size_16kb_v(void) { return 0x00000003U; } static inline u32 sim_recv_ring_size_16kb_f(void) { return 0x30U; } static inline u32 sim_recv_ring_gp_in_ring_s(void) { return 1U; } static inline u32 sim_recv_ring_gp_in_ring_f(u32 v) { return (v & 0x1U) << 11U; } static inline u32 sim_recv_ring_gp_in_ring_m(void) { return 0x1U << 11U; } static inline u32 sim_recv_ring_gp_in_ring_v(u32 r) { return (r >> 11U) & 0x1U; } static inline u32 sim_recv_ring_gp_in_ring__init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_gp_in_ring__init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_gp_in_ring__prod_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_gp_in_ring__prod_f(void) { return 0x0U; } static inline u32 sim_recv_ring_gp_in_ring_no_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_gp_in_ring_no_f(void) { return 0x0U; } static inline u32 sim_recv_ring_gp_in_ring_yes_v(void) { return 0x00000001U; } static inline u32 sim_recv_ring_gp_in_ring_yes_f(void) { return 0x800U; } static inline u32 sim_recv_ring_addr_lo_s(void) { return 20U; } static inline u32 sim_recv_ring_addr_lo_f(u32 v) { return (v & 0xfffffU) << 12U; } static inline u32 sim_recv_ring_addr_lo_m(void) { return 0xfffffU << 12U; } static inline u32 sim_recv_ring_addr_lo_v(u32 r) { return (r >> 12U) & 0xfffffU; } static inline u32 sim_recv_ring_addr_lo__init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_addr_lo__init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_addr_lo__prod_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_addr_lo__prod_f(void) { return 0x0U; } static inline u32 sim_recv_ring_hi_r(void) { return 0x00000014U; } static inline u32 sim_recv_ring_hi_addr_s(void) { return 20U; } static inline u32 sim_recv_ring_hi_addr_f(u32 v) { return (v & 0xfffffU) << 0U; } static inline u32 sim_recv_ring_hi_addr_m(void) { return 0xfffffU << 0U; } static inline u32 sim_recv_ring_hi_addr_v(u32 r) { return (r >> 0U) & 0xfffffU; } static inline u32 sim_recv_ring_hi_addr__init_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_hi_addr__init_f(void) { return 0x0U; } static inline u32 sim_recv_ring_hi_addr__prod_v(void) { return 0x00000000U; } static inline u32 sim_recv_ring_hi_addr__prod_f(void) { return 0x0U; } static inline u32 sim_recv_put_r(void) { return 0x00000018U; } static inline u32 sim_recv_put_pointer_s(void) { return 11U; } static inline u32 sim_recv_put_pointer_f(u32 v) { return (v & 0x7ffU) << 3U; } static inline u32 sim_recv_put_pointer_m(void) { return 0x7ffU << 3U; } static inline u32 sim_recv_put_pointer_v(u32 r) { return (r >> 3U) & 0x7ffU; } static inline u32 sim_recv_get_r(void) { return 0x0000001cU; } static inline u32 sim_recv_get_pointer_s(void) { return 11U; } static inline u32 sim_recv_get_pointer_f(u32 v) { return (v & 0x7ffU) << 3U; } static inline u32 sim_recv_get_pointer_m(void) { return 0x7ffU << 3U; } static inline u32 sim_recv_get_pointer_v(u32 r) { return (r >> 3U) & 0x7ffU; } static inline u32 sim_config_r(void) { return 0x00000020U; } static inline u32 sim_config_mode_s(void) { return 1U; } static inline u32 sim_config_mode_f(u32 v) { return (v & 0x1U) << 0U; } static inline u32 sim_config_mode_m(void) { return 0x1U << 0U; } static inline u32 sim_config_mode_v(u32 r) { return (r >> 0U) & 0x1U; } static inline u32 sim_config_mode_disabled_v(void) { return 0x00000000U; } static inline u32 sim_config_mode_disabled_f(void) { return 0x0U; } static inline u32 sim_config_mode_enabled_v(void) { return 0x00000001U; } static inline u32 sim_config_mode_enabled_f(void) { return 0x1U; } static inline u32 sim_config_channels_s(void) { return 7U; } static inline u32 sim_config_channels_f(u32 v) { return (v & 0x7fU) << 1U; } static inline u32 sim_config_channels_m(void) { return 0x7fU << 1U; } static inline u32 sim_config_channels_v(u32 r) { return (r >> 1U) & 0x7fU; } static inline u32 sim_config_channels_none_v(void) { return 0x00000000U; } static inline u32 sim_config_channels_none_f(void) { return 0x0U; } static inline u32 sim_config_cached_only_s(void) { return 1U; } static inline u32 sim_config_cached_only_f(u32 v) { return (v & 0x1U) << 8U; } static inline u32 sim_config_cached_only_m(void) { return 0x1U << 8U; } static inline u32 sim_config_cached_only_v(u32 r) { return (r >> 8U) & 0x1U; } static inline u32 sim_config_cached_only_disabled_v(void) { return 0x00000000U; } static inline u32 sim_config_cached_only_disabled_f(void) { return 0x0U; } static inline u32 sim_config_cached_only_enabled_v(void) { return 0x00000001U; } static inline u32 sim_config_cached_only_enabled_f(void) { return 0x100U; } static inline u32 sim_config_validity_s(void) { return 2U; } static inline u32 sim_config_validity_f(u32 v) { return (v & 0x3U) << 9U; } static inline u32 sim_config_validity_m(void) { return 0x3U << 9U; } static inline u32 sim_config_validity_v(u32 r) { return (r >> 9U) & 0x3U; } static inline u32 sim_config_validity__init_v(void) { return 0x00000001U; } static inline u32 sim_config_validity__init_f(void) { return 0x200U; } static inline u32 sim_config_validity_valid_v(void) { return 0x00000001U; } static inline u32 sim_config_validity_valid_f(void) { return 0x200U; } static inline u32 sim_config_simulation_s(void) { return 2U; } static inline u32 sim_config_simulation_f(u32 v) { return (v & 0x3U) << 12U; } static inline u32 sim_config_simulation_m(void) { return 0x3U << 12U; } static inline u32 sim_config_simulation_v(u32 r) { return (r >> 12U) & 0x3U; } static inline u32 sim_config_simulation_disabled_v(void) { return 0x00000000U; } static inline u32 sim_config_simulation_disabled_f(void) { return 0x0U; } static inline u32 sim_config_simulation_fmodel_v(void) { return 0x00000001U; } static inline u32 sim_config_simulation_fmodel_f(void) { return 0x1000U; } static inline u32 sim_config_simulation_rtlsim_v(void) { return 0x00000002U; } static inline u32 sim_config_simulation_rtlsim_f(void) { return 0x2000U; } static inline u32 sim_config_secondary_display_s(void) { return 1U; } static inline u32 sim_config_secondary_display_f(u32 v) { return (v & 0x1U) << 14U; } static inline u32 sim_config_secondary_display_m(void) { return 0x1U << 14U; } static inline u32 sim_config_secondary_display_v(u32 r) { return (r >> 14U) & 0x1U; } static inline u32 sim_config_secondary_display_disabled_v(void) { return 0x00000000U; } static inline u32 sim_config_secondary_display_disabled_f(void) { return 0x0U; } static inline u32 sim_config_secondary_display_enabled_v(void) { return 0x00000001U; } static inline u32 sim_config_secondary_display_enabled_f(void) { return 0x4000U; } static inline u32 sim_config_num_heads_s(void) { return 8U; } static inline u32 sim_config_num_heads_f(u32 v) { return (v & 0xffU) << 17U; } static inline u32 sim_config_num_heads_m(void) { return 0xffU << 17U; } static inline u32 sim_config_num_heads_v(u32 r) { return (r >> 17U) & 0xffU; } static inline u32 sim_event_ring_r(void) { return 0x00000030U; } static inline u32 sim_event_ring_target_s(void) { return 2U; } static inline u32 sim_event_ring_target_f(u32 v) { return (v & 0x3U) << 0U; } static inline u32 sim_event_ring_target_m(void) { return 0x3U << 0U; } static inline u32 sim_event_ring_target_v(u32 r) { return (r >> 0U) & 0x3U; } static inline u32 sim_event_ring_target_phys_init_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_target_phys_init_f(void) { return 0x1U; } static inline u32 sim_event_ring_target_phys__init_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_target_phys__init_f(void) { return 0x1U; } static inline u32 sim_event_ring_target_phys__prod_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_target_phys__prod_f(void) { return 0x1U; } static inline u32 sim_event_ring_target_phys_nvm_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_target_phys_nvm_f(void) { return 0x1U; } static inline u32 sim_event_ring_target_phys_pci_v(void) { return 0x00000002U; } static inline u32 sim_event_ring_target_phys_pci_f(void) { return 0x2U; } static inline u32 sim_event_ring_target_phys_pci_coherent_v(void) { return 0x00000003U; } static inline u32 sim_event_ring_target_phys_pci_coherent_f(void) { return 0x3U; } static inline u32 sim_event_ring_status_s(void) { return 1U; } static inline u32 sim_event_ring_status_f(u32 v) { return (v & 0x1U) << 3U; } static inline u32 sim_event_ring_status_m(void) { return 0x1U << 3U; } static inline u32 sim_event_ring_status_v(u32 r) { return (r >> 3U) & 0x1U; } static inline u32 sim_event_ring_status_init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_status_init_f(void) { return 0x0U; } static inline u32 sim_event_ring_status__init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_status__init_f(void) { return 0x0U; } static inline u32 sim_event_ring_status__prod_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_status__prod_f(void) { return 0x0U; } static inline u32 sim_event_ring_status_invalid_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_status_invalid_f(void) { return 0x0U; } static inline u32 sim_event_ring_status_valid_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_status_valid_f(void) { return 0x8U; } static inline u32 sim_event_ring_size_s(void) { return 2U; } static inline u32 sim_event_ring_size_f(u32 v) { return (v & 0x3U) << 4U; } static inline u32 sim_event_ring_size_m(void) { return 0x3U << 4U; } static inline u32 sim_event_ring_size_v(u32 r) { return (r >> 4U) & 0x3U; } static inline u32 sim_event_ring_size_init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_size_init_f(void) { return 0x0U; } static inline u32 sim_event_ring_size__init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_size__init_f(void) { return 0x0U; } static inline u32 sim_event_ring_size__prod_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_size__prod_f(void) { return 0x0U; } static inline u32 sim_event_ring_size_4kb_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_size_4kb_f(void) { return 0x0U; } static inline u32 sim_event_ring_size_8kb_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_size_8kb_f(void) { return 0x10U; } static inline u32 sim_event_ring_size_12kb_v(void) { return 0x00000002U; } static inline u32 sim_event_ring_size_12kb_f(void) { return 0x20U; } static inline u32 sim_event_ring_size_16kb_v(void) { return 0x00000003U; } static inline u32 sim_event_ring_size_16kb_f(void) { return 0x30U; } static inline u32 sim_event_ring_gp_in_ring_s(void) { return 1U; } static inline u32 sim_event_ring_gp_in_ring_f(u32 v) { return (v & 0x1U) << 11U; } static inline u32 sim_event_ring_gp_in_ring_m(void) { return 0x1U << 11U; } static inline u32 sim_event_ring_gp_in_ring_v(u32 r) { return (r >> 11U) & 0x1U; } static inline u32 sim_event_ring_gp_in_ring__init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_gp_in_ring__init_f(void) { return 0x0U; } static inline u32 sim_event_ring_gp_in_ring__prod_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_gp_in_ring__prod_f(void) { return 0x0U; } static inline u32 sim_event_ring_gp_in_ring_no_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_gp_in_ring_no_f(void) { return 0x0U; } static inline u32 sim_event_ring_gp_in_ring_yes_v(void) { return 0x00000001U; } static inline u32 sim_event_ring_gp_in_ring_yes_f(void) { return 0x800U; } static inline u32 sim_event_ring_addr_lo_s(void) { return 20U; } static inline u32 sim_event_ring_addr_lo_f(u32 v) { return (v & 0xfffffU) << 12U; } static inline u32 sim_event_ring_addr_lo_m(void) { return 0xfffffU << 12U; } static inline u32 sim_event_ring_addr_lo_v(u32 r) { return (r >> 12U) & 0xfffffU; } static inline u32 sim_event_ring_addr_lo__init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_addr_lo__init_f(void) { return 0x0U; } static inline u32 sim_event_ring_addr_lo__prod_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_addr_lo__prod_f(void) { return 0x0U; } static inline u32 sim_event_ring_hi_v(void) { return 0x00000034U; } static inline u32 sim_event_ring_hi_addr_s(void) { return 20U; } static inline u32 sim_event_ring_hi_addr_f(u32 v) { return (v & 0xfffffU) << 0U; } static inline u32 sim_event_ring_hi_addr_m(void) { return 0xfffffU << 0U; } static inline u32 sim_event_ring_hi_addr_v(u32 r) { return (r >> 0U) & 0xfffffU; } static inline u32 sim_event_ring_hi_addr__init_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_hi_addr__init_f(void) { return 0x0U; } static inline u32 sim_event_ring_hi_addr__prod_v(void) { return 0x00000000U; } static inline u32 sim_event_ring_hi_addr__prod_f(void) { return 0x0U; } static inline u32 sim_event_put_r(void) { return 0x00000038U; } static inline u32 sim_event_put_pointer_s(void) { return 30U; } static inline u32 sim_event_put_pointer_f(u32 v) { return (v & 0x3fffffffU) << 2U; } static inline u32 sim_event_put_pointer_m(void) { return 0x3fffffffU << 2U; } static inline u32 sim_event_put_pointer_v(u32 r) { return (r >> 2U) & 0x3fffffffU; } static inline u32 sim_event_get_r(void) { return 0x0000003cU; } static inline u32 sim_event_get_pointer_s(void) { return 30U; } static inline u32 sim_event_get_pointer_f(u32 v) { return (v & 0x3fffffffU) << 2U; } static inline u32 sim_event_get_pointer_m(void) { return 0x3fffffffU << 2U; } static inline u32 sim_event_get_pointer_v(u32 r) { return (r >> 2U) & 0x3fffffffU; } static inline u32 sim_status_r(void) { return 0x00000028U; } static inline u32 sim_status_send_put_s(void) { return 1U; } static inline u32 sim_status_send_put_f(u32 v) { return (v & 0x1U) << 0U; } static inline u32 sim_status_send_put_m(void) { return 0x1 << 0U; } static inline u32 sim_status_send_put_v(u32 r) { return (r >> 0U) & 0x1U; } static inline u32 sim_status_send_put__init_v(void) { return 0x00000000U; } static inline u32 sim_status_send_put__init_f(void) { return 0x0U; } static inline u32 sim_status_send_put_idle_v(void) { return 0x00000000U; } static inline u32 sim_status_send_put_idle_f(void) { return 0x0U; } static inline u32 sim_status_send_put_pending_v(void) { return 0x00000001U; } static inline u32 sim_status_send_put_pending_f(void) { return 0x1U; } static inline u32 sim_status_send_get_s(void) { return 1U; } static inline u32 sim_status_send_get_f(u32 v) { return (v & 0x1U) << 1U; } static inline u32 sim_status_send_get_m(void) { return 0x1U << 1U; } static inline u32 sim_status_send_get_v(u32 r) { return (r >> 1U) & 0x1U; } static inline u32 sim_status_send_get__init_v(void) { return 0x00000000U; } static inline u32 sim_status_send_get__init_f(void) { return 0x0U; } static inline u32 sim_status_send_get_idle_v(void) { return 0x00000000U; } static inline u32 sim_status_send_get_idle_f(void) { return 0x0U; } static inline u32 sim_status_send_get_pending_v(void) { return 0x00000001U; } static inline u32 sim_status_send_get_pending_f(void) { return 0x2U; } static inline u32 sim_status_send_get_clear_v(void) { return 0x00000001U; } static inline u32 sim_status_send_get_clear_f(void) { return 0x2U; } static inline u32 sim_status_recv_put_s(void) { return 1U; } static inline u32 sim_status_recv_put_f(u32 v) { return (v & 0x1U) << 2U; } static inline u32 sim_status_recv_put_m(void) { return 0x1U << 2U; } static inline u32 sim_status_recv_put_v(u32 r) { return (r >> 2U) & 0x1U; } static inline u32 sim_status_recv_put__init_v(void) { return 0x00000000U; } static inline u32 sim_status_recv_put__init_f(void) { return 0x0U; } static inline u32 sim_status_recv_put_idle_v(void) { return 0x00000000U; } static inline u32 sim_status_recv_put_idle_f(void) { return 0x0U; } static inline u32 sim_status_recv_put_pending_v(void) { return 0x00000001U; } static inline u32 sim_status_recv_put_pending_f(void) { return 0x4U; } static inline u32 sim_status_recv_put_clear_v(void) { return 0x00000001U; } static inline u32 sim_status_recv_put_clear_f(void) { return 0x4U; } static inline u32 sim_status_recv_get_s(void) { return 1U; } static inline u32 sim_status_recv_get_f(u32 v) { return (v & 0x1U) << 3U; } static inline u32 sim_status_recv_get_m(void) { return 0x1U << 3U; } static inline u32 sim_status_recv_get_v(u32 r) { return (r >> 3U) & 0x1U; } static inline u32 sim_status_recv_get__init_v(void) { return 0x00000000U; } static inline u32 sim_status_recv_get__init_f(void) { return 0x0U; } static inline u32 sim_status_recv_get_idle_v(void) { return 0x00000000U; } static inline u32 sim_status_recv_get_idle_f(void) { return 0x0U; } static inline u32 sim_status_recv_get_pending_v(void) { return 0x00000001U; } static inline u32 sim_status_recv_get_pending_f(void) { return 0x8U; } static inline u32 sim_status_event_put_s(void) { return 1U; } static inline u32 sim_status_event_put_f(u32 v) { return (v & 0x1U) << 4U; } static inline u32 sim_status_event_put_m(void) { return 0x1U << 4U; } static inline u32 sim_status_event_put_v(u32 r) { return (r >> 4U) & 0x1U; } static inline u32 sim_status_event_put__init_v(void) { return 0x00000000U; } static inline u32 sim_status_event_put__init_f(void) { return 0x0U; } static inline u32 sim_status_event_put_idle_v(void) { return 0x00000000U; } static inline u32 sim_status_event_put_idle_f(void) { return 0x0U; } static inline u32 sim_status_event_put_pending_v(void) { return 0x00000001U; } static inline u32 sim_status_event_put_pending_f(void) { return 0x10U; } static inline u32 sim_status_event_put_clear_v(void) { return 0x00000001U; } static inline u32 sim_status_event_put_clear_f(void) { return 0x10U; } static inline u32 sim_status_event_get_s(void) { return 1U; } static inline u32 sim_status_event_get_f(u32 v) { return (v & 0x1U) << 5U; } static inline u32 sim_status_event_get_m(void) { return 0x1U << 5U; } static inline u32 sim_status_event_get_v(u32 r) { return (r >> 5U) & 0x1U; } static inline u32 sim_status_event_get__init_v(void) { return 0x00000000U; } static inline u32 sim_status_event_get__init_f(void) { return 0x0U; } static inline u32 sim_status_event_get_idle_v(void) { return 0x00000000U; } static inline u32 sim_status_event_get_idle_f(void) { return 0x0U; } static inline u32 sim_status_event_get_pending_v(void) { return 0x00000001U; } static inline u32 sim_status_event_get_pending_f(void) { return 0x20U; } static inline u32 sim_control_r(void) { return 0x0000002cU; } static inline u32 sim_control_send_put_s(void) { return 1U; } static inline u32 sim_control_send_put_f(u32 v) { return (v & 0x1U) << 0U; } static inline u32 sim_control_send_put_m(void) { return 0x1U << 0U; } static inline u32 sim_control_send_put_v(u32 r) { return (r >> 0U) & 0x1U; } static inline u32 sim_control_send_put__init_v(void) { return 0x00000000U; } static inline u32 sim_control_send_put__init_f(void) { return 0x0U; } static inline u32 sim_control_send_put_disabled_v(void) { return 0x00000000U; } static inline u32 sim_control_send_put_disabled_f(void) { return 0x0U; } static inline u32 sim_control_send_put_enabled_v(void) { return 0x00000001U; } static inline u32 sim_control_send_put_enabled_f(void) { return 0x1U; } static inline u32 sim_control_send_get_s(void) { return 1U; } static inline u32 sim_control_send_get_f(u32 v) { return (v & 0x1U) << 1U; } static inline u32 sim_control_send_get_m(void) { return 0x1U << 1U; } static inline u32 sim_control_send_get_v(u32 r) { return (r >> 1U) & 0x1U; } static inline u32 sim_control_send_get__init_v(void) { return 0x00000000U; } static inline u32 sim_control_send_get__init_f(void) { return 0x0U; } static inline u32 sim_control_send_get_disabled_v(void) { return 0x00000000U; } static inline u32 sim_control_send_get_disabled_f(void) { return 0x0U; } static inline u32 sim_control_send_get_enabled_v(void) { return 0x00000001U; } static inline u32 sim_control_send_get_enabled_f(void) { return 0x2U; } static inline u32 sim_control_recv_put_s(void) { return 1U; } static inline u32 sim_control_recv_put_f(u32 v) { return (v & 0x1U) << 2U; } static inline u32 sim_control_recv_put_m(void) { return 0x1U << 2U; } static inline u32 sim_control_recv_put_v(u32 r) { return (r >> 2U) & 0x1U; } static inline u32 sim_control_recv_put__init_v(void) { return 0x00000000U; } static inline u32 sim_control_recv_put__init_f(void) { return 0x0U; } static inline u32 sim_control_recv_put_disabled_v(void) { return 0x00000000U; } static inline u32 sim_control_recv_put_disabled_f(void) { return 0x0U; } static inline u32 sim_control_recv_put_enabled_v(void) { return 0x00000001U; } static inline u32 sim_control_recv_put_enabled_f(void) { return 0x4U; } static inline u32 sim_control_recv_get_s(void) { return 1U; } static inline u32 sim_control_recv_get_f(u32 v) { return (v & 0x1U) << 3U; } static inline u32 sim_control_recv_get_m(void) { return 0x1U << 3U; } static inline u32 sim_control_recv_get_v(u32 r) { return (r >> 3U) & 0x1U; } static inline u32 sim_control_recv_get__init_v(void) { return 0x00000000U; } static inline u32 sim_control_recv_get__init_f(void) { return 0x0U; } static inline u32 sim_control_recv_get_disabled_v(void) { return 0x00000000U; } static inline u32 sim_control_recv_get_disabled_f(void) { return 0x0U; } static inline u32 sim_control_recv_get_enabled_v(void) { return 0x00000001U; } static inline u32 sim_control_recv_get_enabled_f(void) { return 0x8U; } static inline u32 sim_control_event_put_s(void) { return 1U; } static inline u32 sim_control_event_put_f(u32 v) { return (v & 0x1U) << 4U; } static inline u32 sim_control_event_put_m(void) { return 0x1U << 4U; } static inline u32 sim_control_event_put_v(u32 r) { return (r >> 4U) & 0x1U; } static inline u32 sim_control_event_put__init_v(void) { return 0x00000000U; } static inline u32 sim_control_event_put__init_f(void) { return 0x0U; } static inline u32 sim_control_event_put_disabled_v(void) { return 0x00000000U; } static inline u32 sim_control_event_put_disabled_f(void) { return 0x0U; } static inline u32 sim_control_event_put_enabled_v(void) { return 0x00000001U; } static inline u32 sim_control_event_put_enabled_f(void) { return 0x10U; } static inline u32 sim_control_event_get_s(void) { return 1U; } static inline u32 sim_control_event_get_f(u32 v) { return (v & 0x1U) << 5U; } static inline u32 sim_control_event_get_m(void) { return 0x1U << 5U; } static inline u32 sim_control_event_get_v(u32 r) { return (r >> 5U) & 0x1U; } static inline u32 sim_control_event_get__init_v(void) { return 0x00000000U; } static inline u32 sim_control_event_get__init_f(void) { return 0x0U; } static inline u32 sim_control_event_get_disabled_v(void) { return 0x00000000U; } static inline u32 sim_control_event_get_disabled_f(void) { return 0x0U; } static inline u32 sim_control_event_get_enabled_v(void) { return 0x00000001U; } static inline u32 sim_control_event_get_enabled_f(void) { return 0x20U; } static inline u32 sim_dma_r(void) { return 0x00000000U; } static inline u32 sim_dma_target_s(void) { return 2U; } static inline u32 sim_dma_target_f(u32 v) { return (v & 0x3U) << 0U; } static inline u32 sim_dma_target_m(void) { return 0x3U << 0U; } static inline u32 sim_dma_target_v(u32 r) { return (r >> 0U) & 0x3U; } static inline u32 sim_dma_target_phys_init_v(void) { return 0x00000001U; } static inline u32 sim_dma_target_phys_init_f(void) { return 0x1U; } static inline u32 sim_dma_target_phys__init_v(void) { return 0x00000001U; } static inline u32 sim_dma_target_phys__init_f(void) { return 0x1U; } static inline u32 sim_dma_target_phys__prod_v(void) { return 0x00000001U; } static inline u32 sim_dma_target_phys__prod_f(void) { return 0x1U; } static inline u32 sim_dma_target_phys_nvm_v(void) { return 0x00000001U; } static inline u32 sim_dma_target_phys_nvm_f(void) { return 0x1U; } static inline u32 sim_dma_target_phys_pci_v(void) { return 0x00000002U; } static inline u32 sim_dma_target_phys_pci_f(void) { return 0x2U; } static inline u32 sim_dma_target_phys_pci_coherent_v(void) { return 0x00000003U; } static inline u32 sim_dma_target_phys_pci_coherent_f(void) { return 0x3U; } static inline u32 sim_dma_status_s(void) { return 1U; } static inline u32 sim_dma_status_f(u32 v) { return (v & 0x1U) << 3U; } static inline u32 sim_dma_status_m(void) { return 0x1U << 3U; } static inline u32 sim_dma_status_v(u32 r) { return (r >> 3U) & 0x1U; } static inline u32 sim_dma_status_init_v(void) { return 0x00000000U; } static inline u32 sim_dma_status_init_f(void) { return 0x0U; } static inline u32 sim_dma_status__init_v(void) { return 0x00000000U; } static inline u32 sim_dma_status__init_f(void) { return 0x0U; } static inline u32 sim_dma_status__prod_v(void) { return 0x00000000U; } static inline u32 sim_dma_status__prod_f(void) { return 0x0U; } static inline u32 sim_dma_status_invalid_v(void) { return 0x00000000U; } static inline u32 sim_dma_status_invalid_f(void) { return 0x0U; } static inline u32 sim_dma_status_valid_v(void) { return 0x00000001U; } static inline u32 sim_dma_status_valid_f(void) { return 0x8U; } static inline u32 sim_dma_size_s(void) { return 2U; } static inline u32 sim_dma_size_f(u32 v) { return (v & 0x3U) << 4U; } static inline u32 sim_dma_size_m(void) { return 0x3U << 4U; } static inline u32 sim_dma_size_v(u32 r) { return (r >> 4U) & 0x3U; } static inline u32 sim_dma_size_init_v(void) { return 0x00000000U; } static inline u32 sim_dma_size_init_f(void) { return 0x0U; } static inline u32 sim_dma_size__init_v(void) { return 0x00000000U; } static inline u32 sim_dma_size__init_f(void) { return 0x0U; } static inline u32 sim_dma_size__prod_v(void) { return 0x00000000U; } static inline u32 sim_dma_size__prod_f(void) { return 0x0U; } static inline u32 sim_dma_size_4kb_v(void) { return 0x00000000U; } static inline u32 sim_dma_size_4kb_f(void) { return 0x0U; } static inline u32 sim_dma_size_8kb_v(void) { return 0x00000001U; } static inline u32 sim_dma_size_8kb_f(void) { return 0x10U; } static inline u32 sim_dma_size_12kb_v(void) { return 0x00000002U; } static inline u32 sim_dma_size_12kb_f(void) { return 0x20U; } static inline u32 sim_dma_size_16kb_v(void) { return 0x00000003U; } static inline u32 sim_dma_size_16kb_f(void) { return 0x30U; } static inline u32 sim_dma_addr_lo_s(void) { return 20U; } static inline u32 sim_dma_addr_lo_f(u32 v) { return (v & 0xfffffU) << 12U; } static inline u32 sim_dma_addr_lo_m(void) { return 0xfffffU << 12U; } static inline u32 sim_dma_addr_lo_v(u32 r) { return (r >> 12U) & 0xfffffU; } static inline u32 sim_dma_addr_lo__init_v(void) { return 0x00000000U; } static inline u32 sim_dma_addr_lo__init_f(void) { return 0x0U; } static inline u32 sim_dma_addr_lo__prod_v(void) { return 0x00000000U; } static inline u32 sim_dma_addr_lo__prod_f(void) { return 0x0U; } static inline u32 sim_dma_hi_r(void) { return 0x00000004U; } static inline u32 sim_dma_hi_addr_s(void) { return 20U; } static inline u32 sim_dma_hi_addr_f(u32 v) { return (v & 0xfffffU) << 0U; } static inline u32 sim_dma_hi_addr_m(void) { return 0xfffffU << 0U; } static inline u32 sim_dma_hi_addr_v(u32 r) { return (r >> 0U) & 0xfffffU; } static inline u32 sim_dma_hi_addr__init_v(void) { return 0x00000000U; } static inline u32 sim_dma_hi_addr__init_f(void) { return 0x0U; } static inline u32 sim_dma_hi_addr__prod_v(void) { return 0x00000000U; } static inline u32 sim_dma_hi_addr__prod_f(void) { return 0x0U; } static inline u32 sim_msg_header_version_r(void) { return 0x00000000U; } static inline u32 sim_msg_header_version_major_tot_v(void) { return 0x03000000U; } static inline u32 sim_msg_header_version_minor_tot_v(void) { return 0x00000000U; } static inline u32 sim_msg_signature_r(void) { return 0x00000004U; } static inline u32 sim_msg_signature_valid_v(void) { return 0x43505256U; } static inline u32 sim_msg_length_r(void) { return 0x00000008U; } static inline u32 sim_msg_function_r(void) { return 0x0000000cU; } static inline u32 sim_msg_function_sim_escape_read_v(void) { return 0x00000023U; } static inline u32 sim_msg_function_sim_escape_write_v(void) { return 0x00000024U; } static inline u32 sim_msg_result_r(void) { return 0x00000010U; } static inline u32 sim_msg_result_success_v(void) { return 0x00000000U; } static inline u32 sim_msg_result_rpc_pending_v(void) { return 0xFFFFFFFFU; } static inline u32 sim_msg_sequence_r(void) { return 0x00000018U; } static inline u32 sim_msg_spare_r(void) { return 0x0000001cU; } static inline u32 sim_msg_spare__init_v(void) { return 0x00000000U; } #endif /* __hw_sim_pci_h__ */