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gerrit.onosproject.org / onos / 4ec3acef1a5f89aaf58e7bb7b0e8f740aab8624a / . / tools / test / p4src / p4-14 / p4c-out / tofino / default / montara / logs / mau.log
blob: a5a7a5ca4bd2b7e606460d5bfaae2190981f637d [file] [log] [blame]
+---------------------------------------------------------------------+
| Log file: mau.log |
| Compiler version: 5.1.0 (fca32d1) |
| Created on: Wed Sep 13 12:56:57 2017 |
+---------------------------------------------------------------------+
Match Table table0 did not specify the number of entries required. A default value (512) will be used.
Match Entry Table table0 has already been associated with stat Table table0_counter.
Cannot implement table0 in phase 0 resources because table uses side effect tables.
Match Table table0 did not specify the number of entries required. A default value (512) will be used.
Match Entry Table table0 has already been associated with stat Table table0_counter.
Cannot implement table0 in phase 0 resources because table uses side effect tables.
Match Table table0 did not specify the number of entries required. A default value (512) will be used.
POV/metadata bridge containers added between ingress/egress: [0]
Metadata bridge_ingress_intrinsic containers added between ingress/egress: [128]
Match Entry Table table0 has already been associated with stat Table table0_counter.
Match table ingress_port_count_table has no match key fields
Match table egress_port_count_table has no match key fields
##########################################
Call to decide_action_data_placement(stage=0, table=process_packet_out_table)
##########################################
Max immediate bits used in any action is 0 bits.
Overhead bit width for table process_packet_out_table is 0 bits.
Bits available in overhead for non-essential immediate data is 32 bits.
~~~~~~~~~~~~~~~~~~~~~
Examining placing 0 bits in match overhead
Overhead bit width for table process_packet_out_table is 0 bits.
Overhead SRAMs to use = 97
Entries requested = 1024 and match entries get = 0
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
total action ram packing size = [0, 0, 0]
action_ram_packing:
action _process_packet_out has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action _process_packet_out has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action _process_packet_out has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
Action Data SRAMs to use = 0
TODO: Total RAMs use when put 0 bits in match overhead: 97
TODO: Total RAMs use when put 0 bits in match overhead: 97
~~~~~~~~~~~~~~~~~~~~~
Examining placing 8 bits in match overhead
~~~~~~~~~~~~~~~~~~~~~
Examining placing 16 bits in match overhead
~~~~~~~~~~~~~~~~~~~~~
Examining placing 24 bits in match overhead
~~~~~~~~~~~~~~~~~~~~~
Examining placing 32 bits in match overhead
##########################################
Best Ram Usage is 97 rams
Best Immediate placement is 0 bits
##########################################
Call to decide_action_data_placement(stage=0, table=table0)
##########################################
Max immediate bits used in any action is 0 bits.
Overhead bit width for table table0 is 3 bits.
Bits available in overhead for non-essential immediate data is 32 bits.
~~~~~~~~~~~~~~~~~~~~~
Examining placing 0 bits in match overhead
Overhead bit width for table table0 is 3 bits.
Overhead SRAMs to use = 1
Entries requested = 512 and match entries get = 512
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 1 0 0 0 0 # 0
0 0 0 1 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
total action ram packing size = [16, 0, 0]
action_ram_packing:
action set_egress_port has [(16, 16, False)]
action send_to_cpu has [(16, 16, False)]
action _drop has []
total action ram packing size = [16, 0, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
total action ram packing size = [16, 0, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
byte_enables = [1, 1]
Allocating Action Parameter Bus Byte 32 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 33 in stage 0 for Byte 1 of 16-bit constant
Allocating Action Parameter Bus Byte 34 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 35 in stage 0 for Byte 1 of 16-bit constant
After allocation of 32s, available_slots is [(16, 0, 0), (32, 8, 0), (16, 1, 16)]
final packing is [(16, 16, False)]
final packing is [(16, 16, False)]
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
Action Data SRAMs to use = 1
TODO: Total RAMs use when put 0 bits in match overhead: 2
TODO: Total RAMs use when put 0 bits in match overhead: 2
~~~~~~~~~~~~~~~~~~~~~
Examining placing 8 bits in match overhead
~~~~~~~~~~~~~~~~~~~~~
Examining placing 16 bits in match overhead
Overhead bit width for table table0 is 3 bits.
Overhead SRAMs to use = 1
Entries requested = 512 and match entries get = 512
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 1 0 0 0 0 # 0
0 0 0 1 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
total action ram packing size = [0, 0, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has [(16, 16, False)]
action send_to_cpu has [(16, 16, False)]
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
byte_enables = [1, 1]
Allocating Action Parameter Bus Byte 32 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 33 in stage 0 for Byte 1 of 16-bit constant
Allocating Action Parameter Bus Byte 34 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 35 in stage 0 for Byte 1 of 16-bit constant
After allocation of 32s, available_slots is [(16, 0, 0), (32, 8, 0), (16, 1, 16)]
final packing is [(16, 16, False)]
final packing is [(16, 16, False)]
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
Action Data SRAMs to use = 0
TODO: Total RAMs use when put 16 bits in match overhead: 1
TODO: Total RAMs use when put 16 bits in match overhead: 1
~~~~~~~~~~~~~~~~~~~~~
Examining placing 24 bits in match overhead
Overhead bit width for table table0 is 3 bits.
Overhead SRAMs to use = 1
Entries requested = 512 and match entries get = 512
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 1 0 0 0 0 # 0
0 0 0 1 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
total action ram packing size = [0, 0, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has [(16, 16, False)]
action send_to_cpu has [(16, 16, False)]
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
byte_enables = [1, 1]
Allocating Action Parameter Bus Byte 32 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 33 in stage 0 for Byte 1 of 16-bit constant
Allocating Action Parameter Bus Byte 34 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 35 in stage 0 for Byte 1 of 16-bit constant
After allocation of 32s, available_slots is [(16, 0, 0), (32, 8, 0), (16, 1, 16)]
final packing is [(16, 16, False)]
final packing is [(16, 16, False)]
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
Action Data SRAMs to use = 0
TODO: Total RAMs use when put 24 bits in match overhead: 1
TODO: Total RAMs use when put 24 bits in match overhead: 1
~~~~~~~~~~~~~~~~~~~~~
Examining placing 32 bits in match overhead
Overhead bit width for table table0 is 3 bits.
Overhead SRAMs to use = 1
Entries requested = 512 and match entries get = 512
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 1 0 0 0 0 # 0
0 0 0 1 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
total action ram packing size = [0, 0, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has [(16, 16, False)]
action send_to_cpu has [(16, 16, False)]
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
byte_enables = [1, 1]
Allocating Action Parameter Bus Byte 32 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 33 in stage 0 for Byte 1 of 16-bit constant
Allocating Action Parameter Bus Byte 34 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 35 in stage 0 for Byte 1 of 16-bit constant
After allocation of 32s, available_slots is [(16, 0, 0), (32, 8, 0), (16, 1, 16)]
final packing is [(16, 16, False)]
final packing is [(16, 16, False)]
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
Action Data SRAMs to use = 0
TODO: Total RAMs use when put 32 bits in match overhead: 1
TODO: Total RAMs use when put 32 bits in match overhead: 1
##########################################
Best Ram Usage is 1 rams
Best Immediate placement is 16 bits
Cannot implement table0 in phase 0 resources because table uses side effect tables.
----------------------------------------------
Call to Allocate P4 Table with table table0__action__, number_entries = 512, table id = None, and match type = exact
Allocating in stage 0
----------------------------------------------
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 1 0 0 0 0 # 0
0 0 0 1 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
0 0 0 0 0 0 0 0 # 1
0 0 0 0 0 0 0 0 # 2
total action ram packing size = [0, 0, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has [(16, 16, False)]
action send_to_cpu has [(16, 16, False)]
action _drop has []
total action ram packing size = [0, 16, 0]
action_ram_packing:
action set_egress_port has []
action send_to_cpu has []
action _drop has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
byte_enables = [1, 1]
Allocating Action Parameter Bus Byte 32 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 33 in stage 0 for Byte 1 of 16-bit constant
Allocating Action Parameter Bus Byte 34 in stage 0 for Byte 0 of 16-bit constant
Allocating Action Parameter Bus Byte 35 in stage 0 for Byte 1 of 16-bit constant
After allocation of 32s, available_slots is [(16, 0, 0), (32, 8, 0), (16, 1, 16)]
final packing is [(16, 16, False)]
final packing is [(16, 16, False)]
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
final packing is []
final packing is []
Allocating Action Logical Table ID 0 in stage 0
----------------------------------------------
Call to Allocate P4 Table with table table0_counter, number_entries = 512, table id = None, and match type = exact
Allocating in stage 0
----------------------------------------------
stat_stage_table referenced: direct
stat Table Resource Request is:
SRAM Resource Request for table table0_counter (of type statistics), with 1 ways wants 2 rams.
Sram Resource Request for P4 table table0_counter with handle 67108867 of type statistics in stage 0
table_type : statistics
rams_for_width : 1
use_stash : False
number_ways : 1
way #0
SRAM Request Group 0
rams_for_depth : 2
map_rams : 0
way_number : 0
ram_word_select_bits : 0
ram_enable_select_bits : 0
----------------------------------------------
Call to Allocate P4 Table with table table0, number_entries = 512, table id = None, and match type = ternary
Allocating in stage 0
----------------------------------------------
Logical Table ID in stage 0 was not supplied by table placement for table table0.
Allocating Logical Table ID 0 in stage 0
Allocating Table Type ID 0 of type ternary in stage 0
-----------------------------------------
Call to allocate_ternary_match_key_2
-----------------------------------------
Total crossbar bytes to allocate = 16
Minimum key bytes required by this match key = 16
Allocating: Byte 133 is of type ternary and member of group 0 with 1 bytes
version/valid in nibble 1 for table table0. for version/valid
{unused[6:0], ig_intr_md.ingress_port[8:8]}.
Allocating: Byte 128 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[7:0]}.
Allocating: Byte 129 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[15:8]}.
Allocating: Byte 130 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[23:16]}.
Allocating: Byte 131 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[31:24]}.
Allocating: Byte 132 is of type ternary and member of group 0 with 5 bytes. for {ethernet.dstAddr[15:8]}.
Allocating: Byte 134 is of type ternary and member of group 1 with 5 bytes. for {ethernet.dstAddr[31:24]}.
Allocating: Byte 135 is of type ternary and member of group 1 with 5 bytes. for {ethernet.dstAddr[39:32]}.
Allocating: Byte 136 is of type ternary and member of group 1 with 5 bytes. for {ethernet.etherType[7:0]}.
Allocating: Byte 137 is of type ternary and member of group 1 with 5 bytes. for {ethernet.dstAddr[23:16]}.
Allocating: Byte 138 is of type ternary and member of group 1 with 5 bytes. for {ethernet.srcAddr[47:40]}.
Allocating: Byte 139 is of type ternary and member of group 2 with 5 bytes. for {ethernet.etherType[15:8]}.
Allocating: Byte 140 is of type ternary and member of group 2 with 5 bytes. for {ig_intr_md.ingress_port[7:0]}.
Allocating: Byte 141 is of type ternary and member of group 2 with 5 bytes. for {ethernet.dstAddr[7:0]}.
Allocating: Byte 142 is of type ternary and member of group 2 with 5 bytes. for {ethernet.srcAddr[39:32]}.
Allocating: Byte 143 is of type ternary and member of group 2 with 5 bytes. for {ethernet.dstAddr[47:40]}.
Formed Ternary Match Key:
{--unused--[3:0], ethernet.dstAddr[47:40], ethernet.srcAddr[39:32], ethernet.dstAddr[7:0], ig_intr_md.ingress_port[7:0], ethernet.etherType[15:8], --version--[1:0], --unused--[1:0], ethernet.srcAddr[47:40], ethernet.dstAddr[23:16], ethernet.etherType[7:0], ethernet.dstAddr[39:24], --unused--[2:0], ig_intr_md.ingress_port[8:8], ethernet.dstAddr[15:8], ethernet.srcAddr[31:0]}
---------------------------------------------
Call to can_any_match_key_fields_be_shared(stage=0, table=table0)
---------------------------------------------
Decided way to allocate for table table0 in stage 0 WAS non_shared
-----------------------------------------
Call to allocate_ternary_match_key_2
-----------------------------------------
Total crossbar bytes to allocate = 16
Minimum key bytes required by this match key = 16
Allocating: Byte 133 is of type ternary and member of group 0 with 1 bytes
version/valid in nibble 1 for table table0. for version/valid
{unused[6:0], ig_intr_md.ingress_port[8:8]}.
Allocating: Byte 128 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[7:0]}.
Allocating: Byte 129 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[15:8]}.
Allocating: Byte 130 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[23:16]}.
Allocating: Byte 131 is of type ternary and member of group 0 with 5 bytes. for {ethernet.srcAddr[31:24]}.
Allocating: Byte 132 is of type ternary and member of group 0 with 5 bytes. for {ethernet.dstAddr[15:8]}.
Allocating: Byte 134 is of type ternary and member of group 1 with 5 bytes. for {ethernet.dstAddr[31:24]}.
Allocating: Byte 135 is of type ternary and member of group 1 with 5 bytes. for {ethernet.dstAddr[39:32]}.
Allocating: Byte 136 is of type ternary and member of group 1 with 5 bytes. for {ethernet.etherType[7:0]}.
Allocating: Byte 137 is of type ternary and member of group 1 with 5 bytes. for {ethernet.dstAddr[23:16]}.
Allocating: Byte 138 is of type ternary and member of group 1 with 5 bytes. for {ethernet.srcAddr[47:40]}.
Allocating: Byte 139 is of type ternary and member of group 2 with 5 bytes. for {ethernet.etherType[15:8]}.
Allocating: Byte 140 is of type ternary and member of group 2 with 5 bytes. for {ig_intr_md.ingress_port[7:0]}.
Allocating: Byte 141 is of type ternary and member of group 2 with 5 bytes. for {ethernet.dstAddr[7:0]}.
Allocating: Byte 142 is of type ternary and member of group 2 with 5 bytes. for {ethernet.srcAddr[39:32]}.
Allocating: Byte 143 is of type ternary and member of group 2 with 5 bytes. for {ethernet.dstAddr[47:40]}.
Formed Ternary Match Key:
{--unused--[3:0], ethernet.dstAddr[47:40], ethernet.srcAddr[39:32], ethernet.dstAddr[7:0], ig_intr_md.ingress_port[7:0], ethernet.etherType[15:8], --version--[1:0], --unused--[1:0], ethernet.srcAddr[47:40], ethernet.dstAddr[23:16], ethernet.etherType[7:0], ethernet.dstAddr[39:24], --unused--[2:0], ig_intr_md.ingress_port[8:8], ethernet.dstAddr[15:8], ethernet.srcAddr[31:0]}
Allocating: Byte 0 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[5:0], --validity_check--packet_out_hdr[0:0], unused[0:0]}.
Allocating: Byte 0 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[5:0], --validity_check--packet_out_hdr[0:0], unused[0:0]}.
For action set_egress_port, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 130 has bit width 23
Field Src2 [3:0] : 0x2 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x0 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x1 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [3:0] : 0x8 (4 bits in instruction bits [14:11])
Field low_bit_lo [0:0] : 0x0 (1 bits in instruction bits [15:15])
Field right_rotate [3:0] : 0x0 (4 bits in instruction bits [19:16])
Field low_bit_hi [2:0] : 0x0 (3 bits in instruction bits [22:20])
Allocating Action ALU 2 (16 bits) in stage 0 for match table table0's action set_egress_port
Allocating VLIW Instruction : 0 in stage 0 for match table table0's action set_egress_port
For action send_to_cpu, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 130 has bit width 23
Field Src2 [3:0] : 0x2 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x0 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x1 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [3:0] : 0x8 (4 bits in instruction bits [14:11])
Field low_bit_lo [0:0] : 0x0 (1 bits in instruction bits [15:15])
Field right_rotate [3:0] : 0x0 (4 bits in instruction bits [19:16])
Field low_bit_hi [2:0] : 0x0 (3 bits in instruction bits [22:20])
For action send_to_cpu, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 66 has bit width 20
Field Src2 [3:0] : 0x2 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x19 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x0 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [2:0] : 0x0 (3 bits in instruction bits [13:11])
Field low_bit_lo [1:0] : 0x0 (2 bits in instruction bits [15:14])
Field right_rotate [2:0] : 0x0 (3 bits in instruction bits [18:16])
Field low_bit_hi [0:0] : 0x0 (1 bits in instruction bits [19:19])
For action send_to_cpu, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 129 has bit width 23
Field Src2 [3:0] : 0x1 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x0 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x0 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [3:0] : 0xf (4 bits in instruction bits [14:11])
Field low_bit_lo [0:0] : 0x1 (1 bits in instruction bits [15:15])
Field right_rotate [3:0] : 0x9 (4 bits in instruction bits [19:16])
Field low_bit_hi [2:0] : 0x3 (3 bits in instruction bits [22:20])
Allocating Action ALU 2 (16 bits) in stage 0 for match table table0's action send_to_cpu
Allocating Action ALU 2 (8 bits) in stage 0 for match table table0's action send_to_cpu
Allocating Action ALU 1 (16 bits) in stage 0 for match table table0's action send_to_cpu
Allocating VLIW Instruction : 1 in stage 0 for match table table0's action send_to_cpu
For action _drop, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 67 has bit width 20
Field Src2 [3:0] : 0x3 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x19 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x0 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [2:0] : 0x7 (3 bits in instruction bits [13:11])
Field low_bit_lo [1:0] : 0x1 (2 bits in instruction bits [15:14])
Field right_rotate [2:0] : 0x3 (3 bits in instruction bits [18:16])
Field low_bit_hi [0:0] : 0x1 (1 bits in instruction bits [19:19])
Allocating Action ALU 3 (8 bits) in stage 0 for match table table0's action _drop
Allocating VLIW Instruction : 1 in stage 0 for match table table0's action _drop
Ternary table Pack Format =
Pack Format:
table_word_width: 141
memory_word_width: 47
entries_per_table_word: 1
number_memory_units_per_table_word: 3
entry_list: [
entry_number : 0
field_list : [
]
Field --tcam_parity_2-- [1:0] : in bits [140:139]
Field --unused-- [3:0] : in bits [138:135]
Field ethernet.dstAddr [47:40] : in bits [134:127]
Field ethernet.srcAddr [39:32] : in bits [126:119]
Field ethernet.dstAddr [7:0] : in bits [118:111]
Field ig_intr_md.ingress_port [7:0] : in bits [110:103]
Field ethernet.etherType [15:8] : in bits [102:95]
Field --tcam_payload_2-- [0:0] : in bits [94:94]
Field --tcam_parity_1-- [1:0] : in bits [93:92]
Field --version-- [1:0] : in bits [91:90]
Field --unused-- [1:0] : in bits [89:88]
Field ethernet.srcAddr [47:40] : in bits [87:80]
Field ethernet.dstAddr [23:16] : in bits [79:72]
Field ethernet.etherType [7:0] : in bits [71:64]
Field ethernet.dstAddr [39:24] : in bits [63:48]
Field --tcam_payload_1-- [0:0] : in bits [47:47]
Field --tcam_parity_0-- [1:0] : in bits [46:45]
Field --unused-- [2:0] : in bits [44:42]
Field ig_intr_md.ingress_port [8:8] : in bits [41:41]
Field ethernet.dstAddr [15:8] : in bits [40:33]
Field ethernet.srcAddr [31:0] : in bits [32:1]
Field --tcam_payload_0-- [0:0] : in bits [0:0]
]
----------------------------------------------
Call to Allocate P4 Table with table process_packet_out_table__action__, number_entries = 1024, table id = None, and match type = exact
Allocating in stage 0
----------------------------------------------
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
total action ram packing size = [0, 0, 0]
action_ram_packing:
action _process_packet_out has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action _process_packet_out has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action _process_packet_out has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
Allocating Action Logical Table ID 1 in stage 0
----------------------------------------------
Call to Allocate P4 Table with table process_packet_out_table, number_entries = 1024, table id = None, and match type = exact
Allocating in stage 0
----------------------------------------------
Logical Table ID in stage 0 was not supplied by table placement for table process_packet_out_table.
Allocating Logical Table ID 1 in stage 0
Allocating Table Type ID 0 of type exact in stage 0
Match Overhead:
Field --version_valid-- [3:0] (4 bits)
Logical Table ID in stage 0 was not supplied by table placement for table process_packet_out_table.
Allocating Logical Table ID 1 in stage 0
Allocating Table Type ID 0 of type exact in stage 0
Allocating: Byte 0 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[5:0], --validity_check--packet_out_hdr[0:0], unused[0:0]}.
Match Table Resource Request is:
SRAM Resource Request for table process_packet_out_table (of type match), with 0 ways wants 0 rams.
Allocating: Byte 0 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[5:0], --validity_check--packet_out_hdr[0:0], unused[0:0]}.
For action _process_packet_out, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 130 has bit width 23
Field Src2 [3:0] : 0x2 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x1 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x0 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [3:0] : 0x8 (4 bits in instruction bits [14:11])
Field low_bit_lo [0:0] : 0x0 (1 bits in instruction bits [15:15])
Field right_rotate [3:0] : 0x7 (4 bits in instruction bits [19:16])
Field low_bit_hi [2:0] : 0x0 (3 bits in instruction bits [22:20])
For action _process_packet_out, formed micro_instruction:
Micro Instruction deposit-field for PHV Container 66 has bit width 20
Field Src2 [3:0] : 0x2 (4 bits in instruction bits [3:0])
Field Src1 [4:0] : 0x18 (5 bits in instruction bits [8:4])
Field Src1i [0:0] : 0x0 (1 bits in instruction bits [9:9])
Field opcode [0:0] : 0x1 (1 bits in instruction bits [10:10])
Field high_bit [2:0] : 0x1 (3 bits in instruction bits [13:11])
Field low_bit_lo [1:0] : 0x1 (2 bits in instruction bits [15:14])
Field right_rotate [2:0] : 0x7 (3 bits in instruction bits [18:16])
Field low_bit_hi [0:0] : 0x0 (1 bits in instruction bits [19:19])
Allocating Action ALU 2 (16 bits) in stage 0 for match table process_packet_out_table's action _process_packet_out
Allocating Action ALU 2 (8 bits) in stage 0 for match table process_packet_out_table's action _process_packet_out
Allocating VLIW Instruction : 2 in stage 0 for match table process_packet_out_table's action _process_packet_out
----------------------------------------------
Call to Allocate P4 Table with table ingress_port_count_table__action__, number_entries = 1024, table id = None, and match type = exact
Allocating in stage 1
----------------------------------------------
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
total action ram packing size = [0, 0, 0]
action_ram_packing:
action count_ingress has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action count_ingress has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action count_ingress has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
Allocating Action Logical Table ID 0 in stage 1
----------------------------------------------
Call to Allocate P4 Table with table ingress_port_counter, number_entries = 512, table id = None, and match type = exact
Allocating in stage 1
----------------------------------------------
stat_stage_table referenced: indirect
stat Table Resource Request is:
SRAM Resource Request for table ingress_port_counter (of type statistics), with 1 ways wants 2 rams.
Sram Resource Request for P4 table ingress_port_counter with handle 67108865 of type statistics in stage 1
table_type : statistics
rams_for_width : 1
use_stash : False
number_ways : 1
way #0
SRAM Request Group 0
rams_for_depth : 2
map_rams : 0
way_number : 0
ram_word_select_bits : 0
ram_enable_select_bits : 0
----------------------------------------------
Call to Allocate P4 Table with table ingress_port_count_table, number_entries = 1024, table id = None, and match type = exact
Allocating in stage 1
----------------------------------------------
Logical Table ID in stage 1 was not supplied by table placement for table ingress_port_count_table.
Allocating Logical Table ID 0 in stage 1
Allocating Table Type ID 0 of type exact in stage 1
Too few bits (9) specified to address ingress_port_counter from table ingress_port_count_table. 10 are needed.
The most significant 1 bit will be padded with zeros.
----------------------------------------------
Call to allocate_hash_distribution_units with
hash_algorithm = identity
hash_output_width = 10
hash_bits_need = 10
output_hash_bit_start = 0
immediate_bit_positions = None
used_for = Statistics Address
----------------------------------------------
available_tuples_sorted_by_parity_bytes_available = [(0, 3, 0), (1, 3, 0)]
available_tuples_split_sorted_by_parity_bytes_available = []
Allocate fresh exact match group / hash group
Allocating: Byte 0 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {ig_intr_md.ingress_port[7:0]}.
Allocating: Byte 1 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[6:0], ig_intr_md.ingress_port[8:8]}.
-------------------
Call to _allocate_hash_distribution_and_hash_bits
p4_table = ingress_port_count_table
used_for = Statistics Address
hash_distribution_hash_id = 0
hash_group_id = 0
hash_bits_in_units = OrderedDict([(0, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9])])
address_left_shift = 2
-------------------
Allocating Hash Distribution Group 0/0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 0 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 1 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 2 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 3 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 4 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 5 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 6 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 7 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 8 in hash match group 0 for table ingress_port_count_table in stage 1.
Allocating Hash Bit 9 in hash match group 0 for table ingress_port_count_table in stage 1.
seed = 0x0
set the seed to be [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
Hash Function 0
hash_bit_0 = ig_intr_md.ingress_port[0] ^ 0
hash_bit_1 = ig_intr_md.ingress_port[1] ^ 0
hash_bit_2 = ig_intr_md.ingress_port[2] ^ 0
hash_bit_3 = ig_intr_md.ingress_port[3] ^ 0
hash_bit_4 = ig_intr_md.ingress_port[4] ^ 0
hash_bit_5 = ig_intr_md.ingress_port[5] ^ 0
hash_bit_6 = ig_intr_md.ingress_port[6] ^ 0
hash_bit_7 = ig_intr_md.ingress_port[7] ^ 0
hash_bit_8 = ig_intr_md.ingress_port[8] ^ 0
hash_bit_9 = 0
hash_bit_10 = 0
hash_bit_11 = 0
hash_bit_12 = 0
hash_bit_13 = 0
hash_bit_14 = 0
hash_bit_15 = 0
hash_bit_16 = 0
hash_bit_17 = 0
hash_bit_18 = 0
hash_bit_19 = 0
hash_bit_20 = 0
hash_bit_21 = 0
hash_bit_22 = 0
hash_bit_23 = 0
hash_bit_24 = 0
hash_bit_25 = 0
hash_bit_26 = 0
hash_bit_27 = 0
hash_bit_28 = 0
hash_bit_29 = 0
hash_bit_30 = 0
hash_bit_31 = 0
hash_bit_32 = 0
hash_bit_33 = 0
hash_bit_34 = 0
hash_bit_35 = 0
hash_bit_36 = 0
hash_bit_37 = 0
hash_bit_38 = 0
hash_bit_39 = 0
hash_bit_40 = 0
hash_bit_41 = 0
hash_bit_42 = 0
hash_bit_43 = 0
hash_bit_44 = 0
hash_bit_45 = 0
hash_bit_46 = 0
hash_bit_47 = 0
hash_bit_48 = 0
hash_bit_49 = 0
hash_bit_50 = 0
hash_bit_51 = 0
Allocating: Byte 2 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {ig_intr_md_for_tm.ucast_egress_port[7:0]}.
Allocating: Byte 3 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[6:0], ig_intr_md_for_tm.ucast_egress_port[8:8]}.
Match Table Resource Request is:
SRAM Resource Request for table ingress_port_count_table (of type match), with 0 ways wants 0 rams.
Allocating: Byte 2 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {ig_intr_md_for_tm.ucast_egress_port[7:0]}.
Allocating: Byte 3 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[6:0], ig_intr_md_for_tm.ucast_egress_port[8:8]}.
No micro instructions needed for action count_ingress executed from table ingress_port_count_table.
Allocating Action ALU 0 (32 bits) in stage 1 for match table ingress_port_count_table's action count_ingress
Allocating VLIW Instruction : 0 in stage 1 for match table ingress_port_count_table's action count_ingress
My hash-action stage table is
StageHashActionTable
stage_number: 1
number_entries 1024
pack_format:
Pack Format:
table_word_width: 0
memory_word_width: 0
entries_per_table_word: 0
number_memory_units_per_table_word: 0
entry_list: [
]
p4_table: 'ingress_port_count_table'
stage_table_handle: 0
stage_table_type_handle: 0
stage_gateway_table: StageGatewayTable
stage_number: 1
number_entries 0
memory_resource_allocation GatewayMemoryResourceAllocation:
memory_type: gateway
memory_units: [[15]]
home_row: -1
stateful_action_bus_output: None
p4_table: '_condition_2'
match_group_resource_allocation:
vliw_resource_allocation:
action handle 536870914 maps to:
VliwResourceAllocation:
match_table_name: ingress_port_count_table
p4_action: count_ingress
address_to_use: 1
full_address: 64
vliw_instruction_number: 0
color: 0
direction: ingress
micro_instructions:
action_to_vliw_mapping:
action handle 536870914 maps to vliw instruction 0, color 0, and direction ingress and is found in instruction address 1
hash_distribution_usages:
MAU Hash Distribution Resource Usage for P4 table ingress_port_count_table
exact_match_group_resource_allocation : HashMatchGroupResourceAllocation:
match_groups: [(0, 16)]
match_group_key_bit_width: 9
match_group_phv_bit_scrambling: OrderedDict([(('ig_intr_md.ingress_port', 0), 0), (('ig_intr_md.ingress_port', 1), 1), (('ig_intr_md.ingress_port', 2), 2), (('ig_intr_md.ingress_port', 3), 3), (('ig_intr_md.ingress_port', 4), 4), (('ig_intr_md.ingress_port', 5), 5), (('ig_intr_md.ingress_port', 6), 6), (('ig_intr_md.ingress_port', 7), 7), (('ig_intr_md.ingress_port', 8), 8)])
('ig_intr_md.ingress_port', 0) -> 0
('ig_intr_md.ingress_port', 1) -> 1
('ig_intr_md.ingress_port', 2) -> 2
('ig_intr_md.ingress_port', 3) -> 3
('ig_intr_md.ingress_port', 4) -> 4
('ig_intr_md.ingress_port', 5) -> 5
('ig_intr_md.ingress_port', 6) -> 6
('ig_intr_md.ingress_port', 7) -> 7
('ig_intr_md.ingress_port', 8) -> 8
hash_function_dictionary: OrderedDict([(0, <p4c_tofino.target.tofino.llir.mau.stage.resources.hash_function.HashFunction object at 0x7f56d9e86bd0>)])
hash_group_id: 0
seed: [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
table_direction: ingress
hash_distribution_resource_allocations :
Hash Distribution:
source_hash_group : 0
hash_distribution_hash_id : 0
hash_distribution_group_id : 0
hash_distribution_used_for : Statistics Address
table_direction : ingress
bits_to_use : [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
left_shift : 2
expanded_lo : False
expanded_hi : False
expanded_bit_width : 0
immediate_position : unused
----------------------------------------------
Call to Allocate P4 Table with table egress_port_count_table__action__, number_entries = 1024, table id = None, and match type = exact
Allocating in stage 1
----------------------------------------------
ram_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
immediate_size_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
hash_to_phv_matrix =
(8, 8, False) (8, 8, True) (8, 32, False) (16, 16, False) (16, 16, True) (16, 32, False) (32, 32, False) (32, 32, True)
0 0 0 0 0 0 0 0 # 0
total action ram packing size = [0, 0, 0]
action_ram_packing:
action count_egress has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action count_egress has []
total action ram packing size = [0, 0, 0]
action_ram_packing:
action count_egress has []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
byte_enables = []
After allocation of 32s, available_slots is []
final packing is []
Allocating Action Logical Table ID 1 in stage 1
----------------------------------------------
Call to Allocate P4 Table with table egress_port_counter, number_entries = 512, table id = None, and match type = exact
Allocating in stage 1
----------------------------------------------
stat_stage_table referenced: indirect
stat Table Resource Request is:
SRAM Resource Request for table egress_port_counter (of type statistics), with 1 ways wants 2 rams.
Sram Resource Request for P4 table egress_port_counter with handle 67108866 of type statistics in stage 1
table_type : statistics
rams_for_width : 1
use_stash : False
number_ways : 1
way #0
SRAM Request Group 0
rams_for_depth : 2
map_rams : 0
way_number : 0
ram_word_select_bits : 0
ram_enable_select_bits : 0
Allocating: Byte 2 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {ig_intr_md_for_tm.ucast_egress_port[7:0]}.
Allocating: Byte 3 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[6:0], ig_intr_md_for_tm.ucast_egress_port[8:8]}.
----------------------------------------------
Call to Allocate P4 Table with table egress_port_count_table, number_entries = 1024, table id = None, and match type = exact
Allocating in stage 1
----------------------------------------------
Logical Table ID in stage 1 was not supplied by table placement for table egress_port_count_table.
Allocating Logical Table ID 1 in stage 1
Allocating Table Type ID 1 of type exact in stage 1
Too few bits (9) specified to address egress_port_counter from table egress_port_count_table. 10 are needed.
The most significant 1 bit will be padded with zeros.
----------------------------------------------
Call to allocate_hash_distribution_units with
hash_algorithm = identity
hash_output_width = 10
hash_bits_need = 10
output_hash_bit_start = 0
immediate_bit_positions = None
used_for = Statistics Address
----------------------------------------------
available_tuples_sorted_by_parity_bytes_available = [(1, 3, 0), (0, 2, 4)]
available_tuples_split_sorted_by_parity_bytes_available = []
Allocate fresh exact match group / hash group
Allocating: Byte 8 is of type exact and member of group 0 (parity group 1) with 16 bytes. for {ig_intr_md_for_tm.ucast_egress_port[7:0]}.
Allocating: Byte 9 is of type exact and member of group 0 (parity group 1) with 16 bytes. for {unused[6:0], ig_intr_md_for_tm.ucast_egress_port[8:8]}.
-------------------
Call to _allocate_hash_distribution_and_hash_bits
p4_table = egress_port_count_table
used_for = Statistics Address
hash_distribution_hash_id = 1
hash_group_id = 1
hash_bits_in_units = OrderedDict([(0, [0, 1, 2, 3, 4, 5, 6, 7, 8, 9])])
address_left_shift = 2
-------------------
Allocating Hash Distribution Group 1/0 for table egress_port_count_table in stage 1.
Allocating Hash Bit 0 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 1 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 2 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 3 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 4 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 5 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 6 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 7 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 8 in hash match group 1 for table egress_port_count_table in stage 1.
Allocating Hash Bit 9 in hash match group 1 for table egress_port_count_table in stage 1.
seed = 0x0
set the seed to be [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
Hash Function 0
hash_bit_0 = ig_intr_md_for_tm.ucast_egress_port[0] ^ 0
hash_bit_1 = ig_intr_md_for_tm.ucast_egress_port[1] ^ 0
hash_bit_2 = ig_intr_md_for_tm.ucast_egress_port[2] ^ 0
hash_bit_3 = ig_intr_md_for_tm.ucast_egress_port[3] ^ 0
hash_bit_4 = ig_intr_md_for_tm.ucast_egress_port[4] ^ 0
hash_bit_5 = ig_intr_md_for_tm.ucast_egress_port[5] ^ 0
hash_bit_6 = ig_intr_md_for_tm.ucast_egress_port[6] ^ 0
hash_bit_7 = ig_intr_md_for_tm.ucast_egress_port[7] ^ 0
hash_bit_8 = ig_intr_md_for_tm.ucast_egress_port[8] ^ 0
hash_bit_9 = 0
hash_bit_10 = 0
hash_bit_11 = 0
hash_bit_12 = 0
hash_bit_13 = 0
hash_bit_14 = 0
hash_bit_15 = 0
hash_bit_16 = 0
hash_bit_17 = 0
hash_bit_18 = 0
hash_bit_19 = 0
hash_bit_20 = 0
hash_bit_21 = 0
hash_bit_22 = 0
hash_bit_23 = 0
hash_bit_24 = 0
hash_bit_25 = 0
hash_bit_26 = 0
hash_bit_27 = 0
hash_bit_28 = 0
hash_bit_29 = 0
hash_bit_30 = 0
hash_bit_31 = 0
hash_bit_32 = 0
hash_bit_33 = 0
hash_bit_34 = 0
hash_bit_35 = 0
hash_bit_36 = 0
hash_bit_37 = 0
hash_bit_38 = 0
hash_bit_39 = 0
hash_bit_40 = 0
hash_bit_41 = 0
hash_bit_42 = 0
hash_bit_43 = 0
hash_bit_44 = 0
hash_bit_45 = 0
hash_bit_46 = 0
hash_bit_47 = 0
hash_bit_48 = 0
hash_bit_49 = 0
hash_bit_50 = 0
hash_bit_51 = 0
Allocating: Byte 2 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {ig_intr_md_for_tm.ucast_egress_port[7:0]}.
Allocating: Byte 3 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[6:0], ig_intr_md_for_tm.ucast_egress_port[8:8]}.
Match Table Resource Request is:
SRAM Resource Request for table egress_port_count_table (of type match), with 0 ways wants 0 rams.
Allocating: Byte 2 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {ig_intr_md_for_tm.ucast_egress_port[7:0]}.
Allocating: Byte 3 is of type exact and member of group 0 (parity group 0) with 16 bytes. for {unused[6:0], ig_intr_md_for_tm.ucast_egress_port[8:8]}.
No micro instructions needed for action count_egress executed from table egress_port_count_table.
Allocating Action ALU 0 (32 bits) in stage 1 for match table egress_port_count_table's action count_egress
Allocating VLIW Instruction : 0 in stage 1 for match table egress_port_count_table's action count_egress
My hash-action stage table is
StageHashActionTable
stage_number: 1
number_entries 1024
pack_format:
Pack Format:
table_word_width: 0
memory_word_width: 0
entries_per_table_word: 0
number_memory_units_per_table_word: 0
entry_list: [
]
p4_table: 'egress_port_count_table'
stage_table_handle: 1
stage_table_type_handle: 1
stage_gateway_table: StageGatewayTable
stage_number: 1
number_entries 0
memory_resource_allocation GatewayMemoryResourceAllocation:
memory_type: gateway
memory_units: [[14]]
home_row: -1
stateful_action_bus_output: None
p4_table: 'egress_port_count_table_always_true_condition'
match_group_resource_allocation:
vliw_resource_allocation:
action handle 536870916 maps to:
VliwResourceAllocation:
match_table_name: egress_port_count_table
p4_action: count_egress
address_to_use: 0
full_address: 64
vliw_instruction_number: 0
color: 0
direction: ingress
micro_instructions:
action_to_vliw_mapping:
action handle 536870916 maps to vliw instruction 0, color 0, and direction ingress and is found in instruction address 0
hash_distribution_usages:
MAU Hash Distribution Resource Usage for P4 table egress_port_count_table
exact_match_group_resource_allocation : HashMatchGroupResourceAllocation:
match_groups: [(0, 16)]
match_group_key_bit_width: 73
match_group_phv_bit_scrambling: OrderedDict([(('ig_intr_md_for_tm.ucast_egress_port', 0), 64), (('ig_intr_md_for_tm.ucast_egress_port', 1), 65), (('ig_intr_md_for_tm.ucast_egress_port', 2), 66), (('ig_intr_md_for_tm.ucast_egress_port', 3), 67), (('ig_intr_md_for_tm.ucast_egress_port', 4), 68), (('ig_intr_md_for_tm.ucast_egress_port', 5), 69), (('ig_intr_md_for_tm.ucast_egress_port', 6), 70), (('ig_intr_md_for_tm.ucast_egress_port', 7), 71), (('ig_intr_md_for_tm.ucast_egress_port', 8), 72)])
('ig_intr_md_for_tm.ucast_egress_port', 0) -> 64
('ig_intr_md_for_tm.ucast_egress_port', 1) -> 65
('ig_intr_md_for_tm.ucast_egress_port', 2) -> 66
('ig_intr_md_for_tm.ucast_egress_port', 3) -> 67
('ig_intr_md_for_tm.ucast_egress_port', 4) -> 68
('ig_intr_md_for_tm.ucast_egress_port', 5) -> 69
('ig_intr_md_for_tm.ucast_egress_port', 6) -> 70
('ig_intr_md_for_tm.ucast_egress_port', 7) -> 71
('ig_intr_md_for_tm.ucast_egress_port', 8) -> 72
hash_function_dictionary: OrderedDict([(0, <p4c_tofino.target.tofino.llir.mau.stage.resources.hash_function.HashFunction object at 0x7f56d9c34490>)])
hash_group_id: 1
seed: [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
table_direction: ingress
hash_distribution_resource_allocations :
Hash Distribution:
source_hash_group : 1
hash_distribution_hash_id : 1
hash_distribution_group_id : 0
hash_distribution_used_for : Statistics Address
table_direction : ingress
bits_to_use : [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
left_shift : 2
expanded_lo : False
expanded_hi : False
expanded_bit_width : 0
immediate_position : unused
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Cannot find table object for 'egress_port_count_table_always_true_condition'.
Cannot find table object for 'process_packet_out_table_always_true_condition'.
Field ig_intr_md_for_tm.ucast_egress_port not contiguous on gateway input
Field ig_intr_md_for_tm.ucast_egress_port not contiguous on gateway input
Writing configuration registers: regs.match_action_stage.00
Writing configuration registers: regs.match_action_stage.01
Writing configuration registers: regs.match_action_stage.02
Writing configuration registers: regs.match_action_stage.03
Writing configuration registers: regs.match_action_stage.04
Writing configuration registers: regs.match_action_stage.05
Writing configuration registers: regs.match_action_stage.06
Writing configuration registers: regs.match_action_stage.07
Writing configuration registers: regs.match_action_stage.08
Writing configuration registers: regs.match_action_stage.09
Writing configuration registers: regs.match_action_stage.0a
Writing configuration registers: regs.match_action_stage.0b