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/*
* Copyright 2001 Mike Corrigan, IBM Corp
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version
* 2 of the License, or (at your option) any later version.
*/
#include <linux/config.h>
#include <linux/types.h>
#include <linux/threads.h>
#include <linux/module.h>
#include <linux/bitops.h>
#include <asm/processor.h>
#include <asm/ptrace.h>
#include <asm/naca.h>
#include <asm/abs_addr.h>
#include <asm/iSeries/ItLpNaca.h>
#include <asm/lppaca.h>
#include <asm/iSeries/ItLpRegSave.h>
#include <asm/paca.h>
#include <asm/iSeries/HvReleaseData.h>
#include <asm/iSeries/LparMap.h>
#include <asm/iSeries/ItVpdAreas.h>
#include <asm/iSeries/ItIplParmsReal.h>
#include <asm/iSeries/ItExtVpdPanel.h>
#include <asm/iSeries/ItLpQueue.h>
#include <asm/iSeries/IoHriProcessorVpd.h>
#include <asm/iSeries/ItSpCommArea.h>
/* The HvReleaseData is the root of the information shared between
* the hypervisor and Linux.
*/
struct HvReleaseData hvReleaseData = {
.xDesc = 0xc8a5d9c4, /* "HvRD" ebcdic */
.xSize = sizeof(struct HvReleaseData),
.xVpdAreasPtrOffset = offsetof(struct naca_struct, xItVpdAreas),
.xSlicNacaAddr = &naca, /* 64-bit Naca address */
.xMsNucDataOffset = LPARMAP_PHYS,
.xFlags = HVREL_TAGSINACTIVE /* tags inactive */
/* 64 bit */
/* shared processors */
/* HMT allowed */
| 6, /* TEMP: This allows non-GA driver */
.xVrmIndex = 4, /* We are v5r2m0 */
.xMinSupportedPlicVrmIndex = 3, /* v5r1m0 */
.xMinCompatablePlicVrmIndex = 3, /* v5r1m0 */
.xVrmName = { 0xd3, 0x89, 0x95, 0xa4, /* "Linux 2.4.64" ebcdic */
0xa7, 0x40, 0xf2, 0x4b,
0xf4, 0x4b, 0xf6, 0xf4 },
};
extern void system_reset_iSeries(void);
extern void machine_check_iSeries(void);
extern void data_access_iSeries(void);
extern void instruction_access_iSeries(void);
extern void hardware_interrupt_iSeries(void);
extern void alignment_iSeries(void);
extern void program_check_iSeries(void);
extern void fp_unavailable_iSeries(void);
extern void decrementer_iSeries(void);
extern void trap_0a_iSeries(void);
extern void trap_0b_iSeries(void);
extern void system_call_iSeries(void);
extern void single_step_iSeries(void);
extern void trap_0e_iSeries(void);
extern void performance_monitor_iSeries(void);
extern void data_access_slb_iSeries(void);
extern void instruction_access_slb_iSeries(void);
struct ItLpNaca itLpNaca = {
.xDesc = 0xd397d581, /* "LpNa" ebcdic */
.xSize = 0x0400, /* size of ItLpNaca */
.xIntHdlrOffset = 0x0300, /* offset to int array */
.xMaxIntHdlrEntries = 19, /* # ents */
.xPrimaryLpIndex = 0, /* Part # of primary */
.xServiceLpIndex = 0, /* Part # of serv */
.xLpIndex = 0, /* Part # of me */
.xMaxLpQueues = 0, /* # of LP queues */
.xLpQueueOffset = 0x100, /* offset of start of LP queues */
.xPirEnvironMode = 0, /* Piranha stuff */
.xPirConsoleMode = 0,
.xPirDasdMode = 0,
.xLparInstalled = 0,
.xSysPartitioned = 0,
.xHwSyncedTBs = 0,
.xIntProcUtilHmt = 0,
.xSpVpdFormat = 0,
.xIntProcRatio = 0,
.xPlicVrmIndex = 0, /* VRM index of PLIC */
.xMinSupportedSlicVrmInd = 0, /* min supported SLIC */
.xMinCompatableSlicVrmInd = 0, /* min compat SLIC */
.xLoadAreaAddr = 0, /* 64-bit addr of load area */
.xLoadAreaChunks = 0, /* chunks for load area */
.xPaseSysCallCRMask = 0, /* PASE mask */
.xSlicSegmentTablePtr = 0, /* seg table */
.xOldLpQueue = { 0 }, /* Old LP Queue */
.xInterruptHdlr = {
(u64)system_reset_iSeries, /* 0x100 System Reset */
(u64)machine_check_iSeries, /* 0x200 Machine Check */
(u64)data_access_iSeries, /* 0x300 Data Access */
(u64)instruction_access_iSeries, /* 0x400 Instruction Access */
(u64)hardware_interrupt_iSeries, /* 0x500 External */
(u64)alignment_iSeries, /* 0x600 Alignment */
(u64)program_check_iSeries, /* 0x700 Program Check */
(u64)fp_unavailable_iSeries, /* 0x800 FP Unavailable */
(u64)decrementer_iSeries, /* 0x900 Decrementer */
(u64)trap_0a_iSeries, /* 0xa00 Trap 0A */
(u64)trap_0b_iSeries, /* 0xb00 Trap 0B */
(u64)system_call_iSeries, /* 0xc00 System Call */
(u64)single_step_iSeries, /* 0xd00 Single Step */
(u64)trap_0e_iSeries, /* 0xe00 Trap 0E */
(u64)performance_monitor_iSeries,/* 0xf00 Performance Monitor */
0, /* int 0x1000 */
0, /* int 0x1010 */
0, /* int 0x1020 CPU ctls */
(u64)hardware_interrupt_iSeries, /* SC Ret Hdlr */
(u64)data_access_slb_iSeries, /* 0x380 D-SLB */
(u64)instruction_access_slb_iSeries /* 0x480 I-SLB */
}
};
EXPORT_SYMBOL(itLpNaca);
/* May be filled in by the hypervisor so cannot end up in the BSS */
struct ItIplParmsReal xItIplParmsReal __attribute__((__section__(".data")));
/* May be filled in by the hypervisor so cannot end up in the BSS */
struct ItExtVpdPanel xItExtVpdPanel __attribute__((__section__(".data")));
EXPORT_SYMBOL(xItExtVpdPanel);
#define maxPhysicalProcessors 32
struct IoHriProcessorVpd xIoHriProcessorVpd[maxPhysicalProcessors] = {
{
.xInstCacheOperandSize = 32,
.xDataCacheOperandSize = 32,
.xProcFreq = 50000000,
.xTimeBaseFreq = 50000000,
.xPVR = 0x3600
}
};
/* Space for Main Store Vpd 27,200 bytes */
/* May be filled in by the hypervisor so cannot end up in the BSS */
u64 xMsVpd[3400] __attribute__((__section__(".data")));
/* Space for Recovery Log Buffer */
/* May be filled in by the hypervisor so cannot end up in the BSS */
u64 xRecoveryLogBuffer[32] __attribute__((__section__(".data")));
struct SpCommArea xSpCommArea = {
.xDesc = 0xE2D7C3C2,
.xFormat = 1,
};
/* The LparMap data is now located at offset 0x6000 in head.S
* It was put there so that the HvReleaseData could address it
* with a 32-bit offset as required by the iSeries hypervisor
*
* The Naca has a pointer to the ItVpdAreas. The hypervisor finds
* the Naca via the HvReleaseData area. The HvReleaseData has the
* offset into the Naca of the pointer to the ItVpdAreas.
*/
struct ItVpdAreas itVpdAreas = {
.xSlicDesc = 0xc9a3e5c1, /* "ItVA" */
.xSlicSize = sizeof(struct ItVpdAreas),
.xSlicVpdEntries = ItVpdMaxEntries, /* # VPD array entries */
.xSlicDmaEntries = ItDmaMaxEntries, /* # DMA array entries */
.xSlicMaxLogicalProcs = NR_CPUS * 2, /* Max logical procs */
.xSlicMaxPhysicalProcs = maxPhysicalProcessors, /* Max physical procs */
.xSlicDmaToksOffset = offsetof(struct ItVpdAreas, xPlicDmaToks),
.xSlicVpdAdrsOffset = offsetof(struct ItVpdAreas, xSlicVpdAdrs),
.xSlicDmaLensOffset = offsetof(struct ItVpdAreas, xPlicDmaLens),
.xSlicVpdLensOffset = offsetof(struct ItVpdAreas, xSlicVpdLens),
.xSlicMaxSlotLabels = 0, /* max slot labels */
.xSlicMaxLpQueues = 1, /* max LP queues */
.xPlicDmaLens = { 0 }, /* DMA lengths */
.xPlicDmaToks = { 0 }, /* DMA tokens */
.xSlicVpdLens = { /* VPD lengths */
0,0,0, /* 0 - 2 */
sizeof(xItExtVpdPanel), /* 3 Extended VPD */
sizeof(struct paca_struct), /* 4 length of Paca */
0, /* 5 */
sizeof(struct ItIplParmsReal),/* 6 length of IPL parms */
26992, /* 7 length of MS VPD */
0, /* 8 */
sizeof(struct ItLpNaca),/* 9 length of LP Naca */
0, /* 10 */
256, /* 11 length of Recovery Log Buf */
sizeof(struct SpCommArea), /* 12 length of SP Comm Area */
0,0,0, /* 13 - 15 */
sizeof(struct IoHriProcessorVpd),/* 16 length of Proc Vpd */
0,0,0,0,0,0, /* 17 - 22 */
sizeof(struct hvlpevent_queue), /* 23 length of Lp Queue */
0,0 /* 24 - 25 */
},
.xSlicVpdAdrs = { /* VPD addresses */
0,0,0, /* 0 - 2 */
&xItExtVpdPanel, /* 3 Extended VPD */
&paca[0], /* 4 first Paca */
0, /* 5 */
&xItIplParmsReal, /* 6 IPL parms */
&xMsVpd, /* 7 MS Vpd */
0, /* 8 */
&itLpNaca, /* 9 LpNaca */
0, /* 10 */
&xRecoveryLogBuffer, /* 11 Recovery Log Buffer */
&xSpCommArea, /* 12 SP Comm Area */
0,0,0, /* 13 - 15 */
&xIoHriProcessorVpd, /* 16 Proc Vpd */
0,0,0,0,0,0, /* 17 - 22 */
&hvlpevent_queue, /* 23 Lp Queue */
0,0
}
};
struct msChunks msChunks;
EXPORT_SYMBOL(msChunks);
/* Depending on whether this is called from iSeries or pSeries setup
* code, the location of the msChunks struct may or may not have
* to be reloc'd, so we force the caller to do that for us by passing
* in a pointer to the structure.
*/
unsigned long
msChunks_alloc(unsigned long mem, unsigned long num_chunks, unsigned long chunk_size)
{
unsigned long offset = reloc_offset();
struct msChunks *_msChunks = PTRRELOC(&msChunks);
_msChunks->num_chunks = num_chunks;
_msChunks->chunk_size = chunk_size;
_msChunks->chunk_shift = __ilog2(chunk_size);
_msChunks->chunk_mask = (1UL<<_msChunks->chunk_shift)-1;
mem = _ALIGN(mem, sizeof(msChunks_entry));
_msChunks->abs = (msChunks_entry *)(mem + offset);
mem += num_chunks * sizeof(msChunks_entry);
return mem;
}