diff options
author | Mauro Carvalho Chehab <mchehab+samsung@kernel.org> | 2019-06-08 23:27:15 -0300 |
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committer | Heiko Carstens <heiko.carstens@de.ibm.com> | 2019-06-11 09:48:09 +0200 |
commit | dc3988f40fdf7a51bd5480c3383372f463e4dfa9 (patch) | |
tree | f2708a543765659d34235c40aa74b160ac18d178 | |
parent | 04310324c6f482921c071444833e70fe861b73d9 (diff) |
docs: Debugging390.txt: convert table to ascii artwork
The first bit/value table inside the document is very
hard to read and won't fit ReST format. Also, some columns aren't
properly aligned.
Convert it to a nice ascii artwork table with makes it easier to
read as plain text and is compatible with ReST format parser
on Sphinx.
Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org>
Signed-off-by: Heiko Carstens <heiko.carstens@de.ibm.com>
-rw-r--r-- | Documentation/s390/Debugging390.txt | 210 |
1 files changed, 120 insertions, 90 deletions
diff --git a/Documentation/s390/Debugging390.txt b/Documentation/s390/Debugging390.txt index 5ae7f868a007..c35804c238ad 100644 --- a/Documentation/s390/Debugging390.txt +++ b/Documentation/s390/Debugging390.txt @@ -78,96 +78,126 @@ e.g. switching address translation off requires that you have a logical=physical mapping for the address you are currently running at. - Bit Value -s/390 z/Architecture -0 0 Reserved ( must be 0 ) otherwise specification exception occurs. - -1 1 Program Event Recording 1 PER enabled, - PER is used to facilitate debugging e.g. single stepping. - -2-4 2-4 Reserved ( must be 0 ). - -5 5 Dynamic address translation 1=DAT on. - -6 6 Input/Output interrupt Mask - -7 7 External interrupt Mask used primarily for interprocessor - signalling and clock interrupts. - -8-11 8-11 PSW Key used for complex memory protection mechanism - (not used under linux) - -12 12 1 on s/390 0 on z/Architecture - -13 13 Machine Check Mask 1=enable machine check interrupts - -14 14 Wait State. Set this to 1 to stop the processor except for - interrupts and give time to other LPARS. Used in CPU idle in - the kernel to increase overall usage of processor resources. - -15 15 Problem state ( if set to 1 certain instructions are disabled ) - all linux user programs run with this bit 1 - ( useful info for debugging under VM ). - -16-17 16-17 Address Space Control - - 00 Primary Space Mode: - The register CR1 contains the primary address-space control ele- - ment (PASCE), which points to the primary space region/segment - table origin. - - 01 Access register mode - - 10 Secondary Space Mode: - The register CR7 contains the secondary address-space control - element (SASCE), which points to the secondary space region or - segment table origin. - - 11 Home Space Mode: - The register CR13 contains the home space address-space control - element (HASCE), which points to the home space region/segment - table origin. - - See "Address Spaces on Linux for s/390 & z/Architecture" below - for more information about address space usage in Linux. - -18-19 18-19 Condition codes (CC) - -20 20 Fixed point overflow mask if 1=FPU exceptions for this event - occur ( normally 0 ) - -21 21 Decimal overflow mask if 1=FPU exceptions for this event occur - ( normally 0 ) - -22 22 Exponent underflow mask if 1=FPU exceptions for this event occur - ( normally 0 ) - -23 23 Significance Mask if 1=FPU exceptions for this event occur - ( normally 0 ) - -24-31 24-30 Reserved Must be 0. - - 31 Extended Addressing Mode - 32 Basic Addressing Mode - Used to set addressing mode - PSW 31 PSW 32 - 0 0 24 bit - 0 1 31 bit - 1 1 64 bit - -32 1=31 bit addressing mode 0=24 bit addressing mode (for backward - compatibility), linux always runs with this bit set to 1 - -33-64 Instruction address. - 33-63 Reserved must be 0 - 64-127 Address - In 24 bits mode bits 64-103=0 bits 104-127 Address - In 31 bits mode bits 64-96=0 bits 97-127 Address - Note: unlike 31 bit mode on s/390 bit 96 must be zero - when loading the address with LPSWE otherwise a - specification exception occurs, LPSW is fully backward - compatible. - ++-------------------------+-------------------------------------------------+ +| Bit | | ++--------+----------------+ Value | +| s/390 | z/Architecture | | ++========+================+=================================================+ +| 0 | 0 | Reserved (must be 0) otherwise specification | +| | | exception occurs. | ++--------+----------------+-------------------------------------------------+ +| 1 | 1 | Program Event Recording 1 PER enabled, | +| | | PER is used to facilitate debugging e.g. | +| | | single stepping. | ++--------+----------------+-------------------------------------------------+ +| 2-4 | 2-4 | Reserved (must be 0). | ++--------+----------------+-------------------------------------------------+ +| 5 | 5 | Dynamic address translation 1=DAT on. | ++--------+----------------+-------------------------------------------------+ +| 6 | 6 | Input/Output interrupt Mask | ++--------+----------------+-------------------------------------------------+ +| 7 | 7 | External interrupt Mask used primarily for | +| | | interprocessor signalling and clock interrupts. | ++--------+----------------+-------------------------------------------------+ +| 8-11 | 8-11 | PSW Key used for complex memory protection | +| | | mechanism (not used under linux) | ++--------+----------------+-------------------------------------------------+ +| 12 | 12 | 1 on s/390 0 on z/Architecture | ++--------+----------------+-------------------------------------------------+ +| 13 | 13 | Machine Check Mask 1=enable machine check | +| | | interrupts | ++--------+----------------+-------------------------------------------------+ +| 14 | 14 | Wait State. Set this to 1 to stop the processor | +| | | except for interrupts and give time to other | +| | | LPARS. Used in CPU idle in the kernel to | +| | | increase overall usage of processor resources. | ++--------+----------------+-------------------------------------------------+ +| 15 | 15 | Problem state (if set to 1 certain instructions | +| | | are disabled). All linux user programs run with | +| | | this bit 1 (useful info for debugging under VM).| ++--------+----------------+-------------------------------------------------+ +| 16-17 | 16-17 | Address Space Control | +| | | | +| | | 00 Primary Space Mode: | +| | | | +| | | The register CR1 contains the primary | +| | | address-space control element (PASCE), which | +| | | points to the primary space region/segment | +| | | table origin. | +| | | | +| | | 01 Access register mode | +| | | | +| | | 10 Secondary Space Mode: | +| | | | +| | | The register CR7 contains the secondary | +| | | address-space control element (SASCE), which | +| | | points to the secondary space region or | +| | | segment table origin. | +| | | | +| | | 11 Home Space Mode: | +| | | | +| | | The register CR13 contains the home space | +| | | address-space control element (HASCE), which | +| | | points to the home space region/segment | +| | | table origin. | +| | | | +| | | See "Address Spaces on Linux for s/390 & | +| | | z/Architecture" below for more information | +| | | about address space usage in Linux. | ++--------+----------------+-------------------------------------------------+ +| 18-19 | 18-19 | Condition codes (CC) | ++--------+----------------+-------------------------------------------------+ +| 20 | 20 | Fixed point overflow mask if 1=FPU exceptions | +| | | for this event occur (normally 0) | ++--------+----------------+-------------------------------------------------+ +| 21 | 21 | Decimal overflow mask if 1=FPU exceptions for | +| | | this event occur (normally 0) | ++--------+----------------+-------------------------------------------------+ +| 22 | 22 | Exponent underflow mask if 1=FPU exceptions | +| | | for this event occur (normally 0) | ++--------+----------------+-------------------------------------------------+ +| 23 | 23 | Significance Mask if 1=FPU exceptions for this | +| | | event occur (normally 0) | ++--------+----------------+-------------------------------------------------+ +| 24-31 | 24-30 | Reserved Must be 0. | +| +----------------+-------------------------------------------------+ +| | 31 | Extended Addressing Mode | +| +----------------+-------------------------------------------------+ +| | 32 | Basic Addressing Mode | +| | | | +| | | Used to set addressing mode | +| | | | +| | | +---------+----------+----------+ | +| | | | PSW 31 | PSW 32 | | | +| | | +---------+----------+----------+ | +| | | | 0 | 0 | 24 bit | | +| | | +---------+----------+----------+ | +| | | | 0 | 1 | 31 bit | | +| | | +---------+----------+----------+ | +| | | | 1 | 1 | 64 bit | | +| | | +---------+----------+----------+ | ++--------+----------------+-------------------------------------------------+ +| 32 | | 1=31 bit addressing mode 0=24 bit addressing | +| | | mode (for backward compatibility), linux | +| | | always runs with this bit set to 1 | ++--------+----------------+-------------------------------------------------+ +| 33-64 | | Instruction address. | +| +----------------+-------------------------------------------------+ +| | 33-63 | Reserved must be 0 | +| +----------------+-------------------------------------------------+ +| | 64-127 | Address | +| | | | +| | | - In 24 bits mode bits 64-103=0 bits 104-127 | +| | | Address | +| | | - In 31 bits mode bits 64-96=0 bits 97-127 | +| | | Address | +| | | | +| | | Note: | +| | | unlike 31 bit mode on s/390 bit 96 must be | +| | | zero when loading the address with LPSWE | +| | | otherwise a specification exception occurs, | +| | | LPSW is fully backward compatible. | ++--------+----------------+-------------------------------------------------+ Prefix Page(s) -------------- |