Editing HV Syscall Reference

Jump to navigation Jump to search
Warning: You are not logged in. Your IP address will be publicly visible if you make any edits. If you log in or create an account, your edits will be attributed to your username, along with other benefits.

The edit can be undone. Please check the comparison below to verify that this is what you want to do, and then publish the changes below to finish undoing the edit.

Latest revision Your text
Line 221: Line 221:
|R4
|R4
|vas_id - virtual address space id of the PPE
|vas_id - virtual address space id of the PPE
|-
|R5
|htab_size_log2 - 18, 19 or 20 (256KB, 512KB or 1MB)
|-
|R6
|number_of_sizes - How many page sizes are specified in page_sizes
|-
|R7
|page_sizes - see lv1_construct_virtual_address_space
|}
|}


Line 236: Line 227:
Regardless of the ppe_id, when called from kernel module init function, vas_id always seems to be 11.
Regardless of the ppe_id, when called from kernel module init function, vas_id always seems to be 11.
----
----
=== lv1_query_logical_partition_address_region_info ===
=== lv1_query_logical_partition_address_region_info ===


Line 785: Line 775:
=== lv1_detect_pending_interrupts ===
=== lv1_detect_pending_interrupts ===


Not used in current kernel. Used in ps2_gxemu.
Not used in current kernel.


===== Abstract Call =====
===== Abstract Call =====
Line 800: Line 790:
|-
|-
|R3
|R3
|p1 - unknown (only 0 value is supported)
|p1 - unknown
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 808: Line 798:
|-
|-
|R3
|R3
|Status
|Status?
|-
|-
|R4
|R4
|v1 - irq_bitmap[0]
|v1 - Unknown
|-
|-
|R5
|R5
|v2 - irq_bitmap[1]
|v2 - Unknown
|-
|-
|R6
|R6
|v3 - irq_bitmap[2]
|v3 - Unknown
|-
|-
|R7
|R7
|v4 - irq_bitmap[3]
|v4 - Unknown
|-
|-
|}
|}


Notes:<br>
Notes:
Return 256 bit irq bitmap for previously connected irq plugs (using lv1_connect_irq_plug).<br>
 
Info taken from kboot-10\dl\linux-2.6.16\include\asm-powerpc\lv1calltab.h (kboot-20061208)
Info taken from kboot-10\dl\linux-2.6.16\include\asm-powerpc\lv1calltab.h (kboot-20061208)
----
----
=== lv1_end_of_interrupt ===
=== lv1_end_of_interrupt ===


Line 2,174: Line 2,163:
=== lv1_set_dabr ===
=== lv1_set_dabr ===


Sets dabr (Data Address Breakpoint Register) and dabrx (Data Address Breakpoint Register Extension)
Sets dabr (data address breakpoint register) - an exception should be thrown upon access to data at this address (range?)


===== Kernel Call =====
===== Kernel Call =====


  result = lv1_set_dabr( /*IN*/ dabr, dabrx);
  result = lv1_set_dabr( /*IN*/ dabr, DABR_KERNEL | DABR_USER);


===== Parameters =====
===== Parameters =====
Line 2,189: Line 2,178:
|-
|-
|R3
|R3
|dabr - see notes
|dabr - data address
|-
|-
|R4
|R4
|dabrx - see notes
|(DABR_KERNEL | DABR_USER) - see notes
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,205: Line 2,194:


Notes:
Notes:
*DABR:
Bit(s) Name Description
0:60  DAB  Data Address Breakpoint
61    BT  Breakpoint Translation
62    DW  Data Write
63    DR  Data Read


*DABRX
DABR_KERNEL and DABR_USER are defined in “setup.c” as follows
Bit(s) Name  Description
0:59        Reserved
60    BTI  Breakpoint Translation Ignore
61:63  PRIVM Privilege Mask
61    HYP  Hypervisor state - unsupported in LV1
62    PNH  Privileged but Non-Hypervisor state
63    PRO  Problem state
When PRIVM in dabrx is 0 or when any unsupported or reserved bit in dabrx is active, both dabr and dabrx writes are not performed and 0x2FFFFFFEF is returned. <br><br>
DABRX is defined in “setup.c” as follows
  enum {DABR_USER = 1, DABR_KERNEL = 2,};
  enum {DABR_USER = 1, DABR_KERNEL = 2,};
----
----
=== lv1_set_vmx_graphics_mode ===
=== lv1_set_vmx_graphics_mode ===


Line 2,263: Line 2,236:
The Cell Broadband Engine Programming Handbook has this to say on the subject: The first implementation of the Cell Broadband Engine Architecture (CBEA) (the CBE processor) supports instructions with a graphics rounding mode. This mode allows programs written with vector/SIMD multimedia extension instructions to produce floating-point results that are equivalent in precision to those written in the SPU instruction set. In this mode, as in the SPU environment, the default rounding mode is round to zero, denormals are treated as zero, and there are no infinities or NaNs.
The Cell Broadband Engine Programming Handbook has this to say on the subject: The first implementation of the Cell Broadband Engine Architecture (CBEA) (the CBE processor) supports instructions with a graphics rounding mode. This mode allows programs written with vector/SIMD multimedia extension instructions to produce floating-point results that are equivalent in precision to those written in the SPU instruction set. In this mode, as in the SPU environment, the default rounding mode is round to zero, denormals are treated as zero, and there are no infinities or NaNs.


This call change bit 12 (known as grap_md or grap_mode in various documents) in the HID1 register. Hardware Implementation Register 1 is a HV privileged resource, hence to change the mode from Supervisor mode requires a HV call.
To change this mode, bit 12 in the HID1 register (known as grap_md or grap_mode in various documents). HID1 is a HV privileged resource, hence to change the mode from Supervisor mode requires a HV call.


Reference Documents: Cell Broadband Engine Programming Handbook V1.1 Cell Broadband Engine Registers V1.5
Reference Documents: Cell Broadband Engine Programming Handbook V1.1 Cell Broadband Engine Registers V1.5
Line 2,273: Line 2,246:
When recompiled into Kernel module init function, accepts values of 0 and 1 for p1. All other values return -17 (LV1_ILLEGAL_PARAMETER_VALUE)
When recompiled into Kernel module init function, accepts values of 0 and 1 for p1. All other values return -17 (LV1_ILLEGAL_PARAMETER_VALUE)
----
----
=== lv1_set_thread_switch_control_register ===
=== lv1_set_thread_switch_control_register ===


Line 2,382: Line 2,354:
Exists in PAL 1.7. Returns the same as [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
Exists in PAL 1.7. Returns the same as [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
----
----
=== lv1_read_remote_file ===
=== lv1_undocumented_function_110 ===
 
Exists in PAL 1.7. Returns -6 (LV1_NO_ENTRY) in R3, rest same as  [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
----
=== lv1_undocumented_function_111 ===
 
Exists in PAL 1.7. Returns -6 (LV1_NO_ENTRY) in R3, rest same as  [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
----
=== lv1_undocumented_function_112 ===
 
Exists in PAL 1.7. Returns -6 (LV1_NO_ENTRY) in R3, rest same as  [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
----
=== lv1_map_physical_address_region ===


===== Parameters =====
===== Parameters =====
Line 2,393: Line 2,377:
|-
|-
|R3
|R3
|u32 type
|start -
|-
|-
|R4
|R4
|u32 *path
|page_size -
|-
|-
|R5
|R5
|u64 offset
|size -  
|-
|R6
|u32 *buf
|-
|R7
|u64 size
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,413: Line 2,391:
|-
|-
|R3
|R3
|status - 0 = OK, LV1_TYPE_MISMATCH when type is not 1. Other values are unknown but indicate failure.
|Status - 0 = OK, Other values are unknown, but indicate failure.
|-
|-
|R4
|R4
|n_read
|lpar_addr -
|-
|-
|}
|}
----
----


=== lv1_write_remote_file ===
=== lv1_unmap_physical_address_region ===


===== Parameters =====
===== Parameters =====
Line 2,432: Line 2,411:
|-
|-
|R3
|R3
|u32 type
|lpar_addr -
|-
|-
|R4
! colspan="2" | Outputs
|u32 *path
|-
|-
|R5
!Register
|u64 offset
!Description
|-
|-
|R6
|R3
|u32 *buf
|Status - 0 = OK, Other values are unknown, but indicate failure.
|-
|R7
|u64 size
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|status
|-
|R4
|n_write
|-
|-
|}
|}
----
----
=== lv1_get_remote_file_size ===
 
=== lv1_allocate_io_segment ===
 
Allocate an io segment.
 
===== kboot Call =====
 
result = lv1_allocate_io_segment( /*IN*/ ioas_id, segment_size, io_page_size, /*OUT*/ &ioif_addr );


===== Parameters =====
===== Parameters =====
Line 2,470: Line 2,443:
|-
|-
|R3
|R3
|u32 type
|ioas_id - io address space id
|-
|-
|R4
|R4
|u32 *path
|segment_size - io segment size
|-
|R5
|io_page_size - io page size, 0xC, 0×10, 0×14
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,481: Line 2,457:
|-
|-
|R3
|R3
|status
|Status - 0 = OK, Other values are unknown, but indicate failure.
|-
|-
|R4
|R4
|file_size
|ioif_addr - io interface address
|-
|-
|}----
|}
=== lv1_map_physical_address_region ===
 
Notes:


===== Parameters =====
Code taken from kboot-10\dl\linux-2.6.16\sound\powerpc\snd_ps3pf.c (kboot-20061208)
{| class="wikitable"
ret64 = lv1_allocate_io_segment(0,          /* io space */
|-
    IO_SEGMENTSIZE, /* segment size */
! colspan="2" | Inputs
    IO_PAGESIZE_SHIFT, /* io page size */
|-
    &(ioif_map_info_array[current_segment].ioif_addr));
!Register
----
=== lv1_release_io_segment ===
 
Release an io segment.
 
===== kboot Call =====
 
result = lv1_release_io_segment( /*IN*/ ioas_id, ioif_addr );
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
!Description
|-
|-
|R3
|R3
|start -  
|ioas_id - io address space id
|-
|-
|R4
|R4
|page_size -
|ioif_addr - io interface address
|-
|R5
|size -  
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,513: Line 2,501:
|R3
|R3
|Status - 0 = OK, Other values are unknown, but indicate failure.
|Status - 0 = OK, Other values are unknown, but indicate failure.
|-
|R4
|lpar_addr -
|-
|-
|}
|}


Notes:
Code taken from kboot-10\dl\linux-2.6.16\sound\powerpc\snd_ps3pf.c (kboot-20061208)
ret64 = lv1_release_io_segment(0, /* io space */
    ioif_map_info_array[current_segment].ioif_addr);
----
----
=== lv1_allocate_ioid ===
Not used in current kernel.
===== Abstract Call =====


=== lv1_unmap_physical_address_region ===
result = lv1_allocate_ioid( /*IN*/ p1, /*OUT*/ &v1 );


===== Parameters =====
===== Parameters =====
Line 2,532: Line 2,527:
|-
|-
|R3
|R3
|lpar_addr -
|SBZ
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,540: Line 2,535:
|-
|-
|R3
|R3
|Status - 0 = OK, Other values are unknown, but indicate failure.
|Status?
|-
|R4
|the ioid
|-
|-
|}
|}


Notes:


Info taken from kboot-10\dl\linux-2.6.16\include\asm-powerpc\lv1calltab.h (kboot-20061208)
----
----
=== lv1_release_ioid ===


=== lv1_allocate_io_segment ===
Not used in current Kernel.


Allocate an io segment.
===== Abstract Call =====


===== kboot Call =====
  result = lv1_release_ioid( /*IN*/ p1, p2 );
 
  result = lv1_allocate_io_segment( /*IN*/ ioas_id, segment_size, io_page_size, /*OUT*/ &ioif_addr );


===== Parameters =====
===== Parameters =====
Line 2,564: Line 2,563:
|-
|-
|R3
|R3
|ioas_id - io address space id
|p1 - Unknown
|-
|-
|R4
|R4
|segment_size - io segment size
|p2 - Unknown
|-
|R5
|io_page_size - io page size, 0xC, 0×10, 0×14
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,578: Line 2,574:
|-
|-
|R3
|R3
|Status - 0 = OK, Other values are unknown, but indicate failure.
|Status?
|-
|R4
|ioif_addr - io interface address
|-
|-
|}
|}
Line 2,587: Line 2,580:
Notes:
Notes:


Code taken from kboot-10\dl\linux-2.6.16\sound\powerpc\snd_ps3pf.c (kboot-20061208)
Info taken from kboot-10\dl\linux-2.6.16\include\asm-powerpc\lv1calltab.h (kboot-20061208)
ret64 = lv1_allocate_io_segment(0,          /* io space */
    IO_SEGMENTSIZE, /* segment size */
    IO_PAGESIZE_SHIFT, /* io page size */
    &(ioif_map_info_array[current_segment].ioif_addr));
----
----
=== lv1_release_io_segment ===
=== lv1_construct_io_irq_outlet ===


Release an io segment.
Construct an outlet for a non-virtualized device interrupt.


===== kboot Call =====
===== Kernel Call =====


  result = lv1_release_io_segment( /*IN*/ ioas_id, ioif_addr );
  result = lv1_construct_io_irq_outlet( /*IN*/ interrupt_id, /*OUT*/ &outlet );


===== Parameters =====
===== Parameters =====
Line 2,610: Line 2,599:
|-
|-
|R3
|R3
|ioas_id - io address space id
|interrupt_id - interrupt id
|-
|R4
|ioif_addr - io interface address
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,622: Line 2,608:
|R3
|R3
|Status - 0 = OK, Other values are unknown, but indicate failure.
|Status - 0 = OK, Other values are unknown, but indicate failure.
|-
|R4
|outlet - interrupt outlet
|-
|-
|}
|}
----
=== lv1_destruct_io_irq_outlet ===


Notes:
Destruct a previously constructed device interrupt outlet.


Code taken from kboot-10\dl\linux-2.6.16\sound\powerpc\snd_ps3pf.c (kboot-20061208)
===== Kernel Call =====
ret64 = lv1_release_io_segment(0, /* io space */
    ioif_map_info_array[current_segment].ioif_addr);
----
=== lv1_allocate_ioid ===


Not used in current kernel.
  result = lv1_destruct_io_irq_outlet( /*IN*/ outlet );
 
===== Abstract Call =====
 
  result = lv1_allocate_ioid( /*IN*/ p1, /*OUT*/ &v1 );


===== Parameters =====
===== Parameters =====
Line 2,648: Line 2,631:
|-
|-
|R3
|R3
|SBZ
|outlet - interrupt outlet
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,656: Line 2,639:
|-
|-
|R3
|R3
|Status?
|Status - 0 = OK, Other values are unknown, but indicate failure.
|-
|R4
|the ioid
|-
|}
|}
Notes:
Info taken from kboot-10\dl\linux-2.6.16\include\asm-powerpc\lv1calltab.h (kboot-20061208)
----
----
=== lv1_release_ioid ===
=== lv1_map_htab ===


Not used in current Kernel.
Map the hash page table.


===== Abstract Call =====
===== Kernel Call =====


  result = lv1_release_ioid( /*IN*/ p1, p2 );
  result = lv1_map_htab( /*IN*/ 0, /*OUT*/ &htab_addr );


===== Parameters =====
===== Parameters =====
Line 2,684: Line 2,659:
|-
|-
|R3
|R3
|p1 - Unknown
|0 - Unknown (lpid?)
|-
|R4
|p2 - Unknown
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,697: Line 2,669:
|Status?
|Status?
|-
|-
|R4
|htab_addr - hash page table address
|}
|}


Notes:
Notes:


Info taken from kboot-10\dl\linux-2.6.16\include\asm-powerpc\lv1calltab.h (kboot-20061208)
In “htab.c” return code is assigned, but not used. Must be translated and ioremapped before it can be used in the kernel. It’s 1MB long
----
----
=== lv1_construct_io_irq_outlet ===
=== lv1_unmap_htab ===


Construct an outlet for a non-virtualized device interrupt.
Unmap the hash page table.


===== Kernel Call =====
===== Kernel Call =====


  result = lv1_construct_io_irq_outlet( /*IN*/ interrupt_id, /*OUT*/ &outlet );
  lv1_unmap_htab( /*IN*/ htab_addr );


===== Parameters =====
===== Parameters =====
Line 2,720: Line 2,694:
|-
|-
|R3
|R3
|interrupt_id - interrupt id
|htab_addr - hash page table address
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Line 2,728: Line 2,702:
|-
|-
|R3
|R3
|Status - 0 = OK, Other values are unknown, but indicate failure.
|Status?
|-
|R4
|outlet - interrupt outlet
|-
|}
|}
----
----
=== lv1_destruct_io_irq_outlet ===
=== lv1_undocumented_function_124 ===


Destruct a previously constructed device interrupt outlet.
Exists in PAL 1.7. Returns -6 (LV1_NO_ENTRY) in R3, rest same as  [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
----
=== lv1_undocumented_function_125 ===


===== Kernel Call =====
Exists in PAL 1.7. Returns -6 (LV1_NO_ENTRY) in R3, rest same as  [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
 
result = lv1_destruct_io_irq_outlet( /*IN*/ outlet );
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
|-
|R3
|outlet - interrupt outlet
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|Status - 0 = OK, Other values are unknown, but indicate failure.
|}
----
----
=== lv1_map_htab ===
=== lv1_undocumented_function_126 ===


Map the hash page table.
Exists in PAL 1.7. Returns -6 (LV1_NO_ENTRY) in R3, rest same as [[HV_Syscall_Reference#lv1_undocumented_function_105|lv1_undocumented_function_105]].
 
===== Kernel Call =====
 
result = lv1_map_htab( /*IN*/ 0, /*OUT*/ &htab_addr );
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
|-
|R3
|0 - Unknown (lpid?)
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|Status?
|-
|R4
|htab_addr - hash page table address
|}
 
Notes:
 
In “htab.c” return code is assigned, but not used. Must be translated and ioremapped before it can be used in the kernel. It’s 1MB long
----
=== lv1_unmap_htab ===
 
Unmap the hash page table.
 
===== Kernel Call =====
 
  lv1_unmap_htab( /*IN*/ htab_addr );
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
|-
|R3
|htab_addr - hash page table address
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|Status?
|}
----
=== lv1_read_remote_file_long_name ===
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
|-
|R3
|u32 type
|-
|R4
|u32 *path
|-
|R5
|u32 path_len
|-
|R6
|u64 offset
|-
|R7
|u32 *buf
|-
|R8
|u64 size
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|status
|-
|R4
|n_read
|-
|}
----
=== lv1_write_remote_file_long_name ===
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
|-
|R3
|u32 type
|-
|R4
|u32 *path
|-
|R5
|u32 path_len
|-
|R6
|u64 offset
|-
|R7
|u32 *buf
|-
|R8
|u64 size
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|status
|-
|R4
|n_write
|-
|}
----
=== lv1_get_remote_file_size_long_name ===
 
===== Parameters =====
{| class="wikitable"
|-
! colspan="2" | Inputs
|-
!Register
!Description
|-
|R3
|u32 type
|-
|R4
|u32 *path
|-
|R5
|u32 path_len
|-
! colspan="2" | Outputs
|-
!Register
!Description
|-
|R3
|status
|-
|R4
|file_size
|-
|}
----
----
=== lv1_get_version_info ===
=== lv1_get_version_info ===
Line 4,157: Line 3,934:
===== Kernel Call =====
===== Kernel Call =====


  result = lv1_allocate_device_dma_region( /*IN*/ bus_id, dev_id, io_size, io_pagesize, flag, /*OUT*/ &dma_region );
  result = lv1_allocate_device_dma_region( /*IN*/ bus_id, dev_id, io_size, io_pagesize, flag, &dma_region );


===== Parameters =====
===== Parameters =====
Line 4,197: Line 3,974:
Notes: When the device is little endian, the mode must be set to 8 bit for 8 bit DMA to work as expected, otherwise the bytes will be read/written in the wrong order. OTOH, this mode requires that 16 and 32-bit values are byte-swapped by the CPU since they will appear as little endian in memory.
Notes: When the device is little endian, the mode must be set to 8 bit for 8 bit DMA to work as expected, otherwise the bytes will be read/written in the wrong order. OTOH, this mode requires that 16 and 32-bit values are byte-swapped by the CPU since they will appear as little endian in memory.
----
----
=== lv1_free_device_dma_region ===
=== lv1_free_device_dma_region ===


Line 5,308: Line 5,084:
|-
|-
|R4
|R4
|tile_max_size in bytes. Max value 512*1024.
|0 - tile_max_size in bytes. Max value 512*1024.
|-
|-
|R5
|R5
|zcull_max_size in bytes. Max value 3075*1024.
|0 - zcull_max_size in bytes. Max value 3075*1024.
|-
|-
|R6
|R6
|tile_max_areas. Max value 15.
|0 - tile_max_areas. Max value 15.
|-
|-
|R7
|R7
|zcull_max_areas. Max value 8.
|0 - zcull_max_areas. Max value 8.
|-
|-
! colspan="2" | Outputs
! colspan="2" | Outputs
Please note that all contributions to PS3 Developer wiki are considered to be released under the GNU Free Documentation License 1.2 (see PS3 Developer wiki:Copyrights for details). If you do not want your writing to be edited mercilessly and redistributed at will, then do not submit it here.
You are also promising us that you wrote this yourself, or copied it from a public domain or similar free resource. Do not submit copyrighted work without permission!

To protect the wiki against automated edit spam, we kindly ask you to solve the following hCaptcha:

Cancel Editing help (opens in new window)