Difference between revisions of "GeneveOS Memory Management Functions"
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Memory management in MDOS is available via XOP 7. In the MDOS sources the relevant files are ''manage2s'' and ''manage2t''. | Memory management in MDOS is available via XOP 7. In the MDOS sources the relevant files are ''manage2s'' and ''manage2t''. | ||
'''Fast RAM''' is all memory with 0 wait states (SRAM), while '''Slow RAM''' is 1 wait state RAM, offered by the DRAM chips. The on-chip RAM is not considered here as it is not manageable by MDOS. The 256 bytes of on-chip RAM are always visible in the logical address area F000-F0FB and FFFC-FFFF. Any page that is mapped to the E000-FFFF area will be overwritten by operations in that area; this must be considered when using the E000-FFFF area. | |||
=== | Two classes of memory management functions are available: XOPs for user tasks, and XOPs exclusively used by the operating system. | ||
== Introduction and terms == | |||
=== Execution pages === | |||
=== Physical pages === | |||
=== Virtual pages === | |||
== User-task XOPs == | |||
=== Available memory pages === | |||
'''Opcode: 0''' | '''Opcode: 0''' | ||
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|} | |} | ||
=== | === Allocate pages === | ||
'''Opcode: 1''' | '''Opcode: 1''' | ||
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|} | |} | ||
=== | This function is used to claim pages from the set of unassigned physical pages. This is particularly useful when the application requires more than just small buffers. As it was common with TI application programming, buffers were usually placed statically in the program, that is, a portion of memory (like 256 bytes) was reserved in the program code to be used for storing data. Assembly language offers the [[BSS]] and [[BES]] directives for this purpose. This is not recommended when the buffer is very big, like 100 KiB. In that cases, dynamic allocation is the typical solution also known from other systems. | ||
=== Free pages === | |||
'''Opcode: 2''' | '''Opcode: 2''' |
Revision as of 12:57, 12 November 2011
Memory management in MDOS is available via XOP 7. In the MDOS sources the relevant files are manage2s and manage2t.
Fast RAM is all memory with 0 wait states (SRAM), while Slow RAM is 1 wait state RAM, offered by the DRAM chips. The on-chip RAM is not considered here as it is not manageable by MDOS. The 256 bytes of on-chip RAM are always visible in the logical address area F000-F0FB and FFFC-FFFF. Any page that is mapped to the E000-FFFF area will be overwritten by operations in that area; this must be considered when using the E000-FFFF area.
Two classes of memory management functions are available: XOPs for user tasks, and XOPs exclusively used by the operating system.
Introduction and terms
Execution pages
Physical pages
Virtual pages
User-task XOPs
Available memory pages
Opcode: 0
Input | Output | |
---|---|---|
R0 | Opcode (0000) | Error code (always 0) |
R1 | Number of free pages | |
R2 | Number of fast free pages | |
R3 | Total number of pages in system |
Allocate pages
Opcode: 1
Input | Output | |
---|---|---|
R0 | Opcode (0001) | Error code (0, 1, 7, 8) |
R1 | Number of pages | Number of pages actually fetched to complete map as required |
R2 | Local page address | Number of fast pages fetched |
R3 | Speed flag (if not 0, only fast) |
This function is used to claim pages from the set of unassigned physical pages. This is particularly useful when the application requires more than just small buffers. As it was common with TI application programming, buffers were usually placed statically in the program, that is, a portion of memory (like 256 bytes) was reserved in the program code to be used for storing data. Assembly language offers the BSS and BES directives for this purpose. This is not recommended when the buffer is very big, like 100 KiB. In that cases, dynamic allocation is the typical solution also known from other systems.
Free pages
Opcode: 2
Input | Output | |
---|---|---|
R0 | Opcode (0002) | Error code (0, 2) |
R1 | Number of pages | |
R2 | Local page address |
Error code 2 is returned when the local page address (R2) is 0; page 0 cannot be freed in this way.
Map local page at excution page
Opcode: 3
Input | Output | |
---|---|---|
R0 | Opcode (0003) | Error code (-, 2, 3) |
R1 | Local page number | |
R2 | Execution page number |
The local page numbers are the IDs of the allocated memory pages. The task contains a linked list of pointers to these local pages; the last list element points to 0. The list of pages is not sorted, so the search for a special local page may require to traverse the complete list.
Error code 2 is returned when the local page number or the execution page number is 0.
Error code 3 is returned when the execution page number is higher than 7 or the list does not contain an entry with the given local page number.
Get address map
Opcode: 4
Input | Output | |
---|---|---|
R0 | Opcode (0004) | Error code (-, 8) |
R1 | Pointer to buffer | Count of pages reported |
R2 | Buffer size |
On return of the call, the memory locations pointed to by R1 contain a sequence of physical page numbers that have been allocated. R1 contains the length of this sequence.
Error code 8 is returned when the buffer is too small to hold the list of numbers of allocated pages.
Opcode: 5
Input | Output | |
---|---|---|
R0 | Opcode (0005) | Error code |
R1 | Number of pages to declare as shared | |
R2 | Local page address | |
R3 | Type to be assigned to shared pages |
Opcode: 6
Input | Output | |
---|---|---|
R0 | Opcode (0006) | Error code |
R1 | Type |
Also have to check their current execution map
Opcode: 7
Input | Output | |
---|---|---|
R0 | Opcode (0007) | Error code |
R1 | Type | |
R2 | Local page number for start of shared area |
Opcode: 8
Input | Output | |
---|---|---|
R0 | Opcode (0008) | Error code |
R1 | Type | Number of pages in shared group |
Privileged XOPs (only available for operating system)
Release task
Opcode: 9
Input | Output | |
---|---|---|
R0 | Opcode (0009) |
Task header at >8000
Page get
Opcode: 10
Input | Output | |
---|---|---|
R0 | Opcode (000A) | Error code |
R1 | Page number to get (if high byte not 0, get first available) | Pointer to node |
R2 | Speed flag (if not 0, only fast) | Page number from node |
Add page to free pages in system
Opcode: 11
Input | Output | |
---|---|---|
R0 | Opcode (000B) | Error code (if no free nodes available) |
R1 | Page number | Pointer to node |
Add a node to the list of free nodes
Opcode: 12
Input | Output | |
---|---|---|
R0 | Opcode (000C) | Error code (always 0000) |
R1 | Pointer to node |
Link a node to the specified node
Opcode: 13
Input | Output | |
---|---|---|
R0 | Opcode (000D) | Error code (always 0000) |
R1 | Pointer to node | |
R2 | Pointer to node to link to |
Get address map (system)
Opcode: 14
Input | Output | |
---|---|---|
R0 | Opcode (000E) | Count of valid pages |
Error codes
Code | Meaning |
---|---|
00 | No error |
01 | not enough free pages |
02 | can't remap execution page zero |
03 | no page at LOCAL address |
04 | user area not large enough for list |
05 | shared type already defined |
06 | shared type doesn't exist |
07 | can't overlay shared and private memory |
08 | out of table space |