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/*
* QEMU PowerPC XIVE internal structure definitions
*
*
* The XIVE structures are accessed by the HW and their format is
* architected to be big-endian. Some macros are provided to ease
* access to the different fields.
*
*
* Copyright (c) 2016-2018, IBM Corporation.
*
* This code is licensed under the GPL version 2 or later. See the
* COPYING file in the top-level directory.
*/
#ifndef PPC_XIVE_REGS_H
#define PPC_XIVE_REGS_H
#include "qemu/bswap.h"
#include "qemu/host-utils.h"
/*
* Interrupt source number encoding on PowerBUS
*/
/*
* Trigger data definition
*
* The trigger definition is used for triggers both for HW source
* interrupts (PHB, PSI), as well as for rerouting interrupts between
* Interrupt Controller.
*
* HW source controllers set bit0 of word0 to ‘0’ as they provide EAS
* information (EAS block + EAS index) in the 8 byte data and not END
* information, which is use for rerouting interrupts.
*
* bit1 of word0 to ‘1’ signals that the state bit check has been
* performed.
*/
#define XIVE_TRIGGER_END PPC_BIT(0)
#define XIVE_TRIGGER_PQ PPC_BIT(1)
/*
* QEMU macros to manipulate the trigger payload in native endian
*/
#define XIVE_EAS_BLOCK(n) (((n) >> 28) & 0xf)
#define XIVE_EAS_INDEX(n) ((n) & 0x0fffffff)
#define XIVE_EAS(blk, idx) ((uint32_t)(blk) << 28 | (idx))
#define TM_SHIFT 16
/*
* TIMA addresses are 12-bits (4k page).
* The MSB indicates a special op with side effect, which can be
* refined with bit 10 (see below).
* The registers, logically grouped in 4 rings (a quad-word each), are
* defined on the 6 LSBs (offset below 0x40)
* In between, we can add a cache line index from 0...3 (ie, 0, 0x80,
* 0x100, 0x180) to select a specific snooper. Those 'snoop port
* address' bits should be dropped when processing the operations as
* they are all equivalent.
*/
#define TM_ADDRESS_MASK 0xC3F
#define TM_SPECIAL_OP 0x800
#define TM_RING_OFFSET 0x30
#define TM_REG_OFFSET 0x3F
/* TM register offsets */
#define TM_QW0_USER 0x000 /* All rings */
#define TM_QW1_OS 0x010 /* Ring 0..2 */
#define TM_QW2_HV_POOL 0x020 /* Ring 0..1 */
#define TM_QW3_HV_PHYS 0x030 /* Ring 0..1 */
/* Byte offsets inside a QW QW0 QW1 QW2 QW3 */
#define TM_NSR 0x0 /* + + - + */
#define TM_CPPR 0x1 /* - + - + */
#define TM_IPB 0x2 /* - + + + */
#define TM_LSMFB 0x3 /* - + + + */
#define TM_ACK_CNT 0x4 /* - + - - */
#define TM_INC 0x5 /* - + - + */
#define TM_AGE 0x6 /* - + - + */
#define TM_PIPR 0x7 /* - + - + */
#define TM_WORD0 0x0
#define TM_WORD1 0x4
/*
* QW word 2 contains the valid bit at the top and other fields
* depending on the QW.
*/
#define TM_WORD2 0x8
#define TM_QW0W2_VU PPC_BIT32(0)
#define TM_QW0W2_LOGIC_SERV PPC_BITMASK32(1, 31) /* XX 2,31 ? */
#define TM_QW1W2_VO PPC_BIT32(0)
#define TM_QW1W2_OS_CAM PPC_BITMASK32(8, 31)
#define TM_QW2W2_VP PPC_BIT32(0)
#define TM_QW2W2_POOL_CAM PPC_BITMASK32(8, 31)
#define TM_QW3W2_VT PPC_BIT32(0)
#define TM_QW3W2_LP PPC_BIT32(6)
#define TM_QW3W2_LE PPC_BIT32(7)
#define TM_QW3W2_T PPC_BIT32(31)
/*
* In addition to normal loads to "peek" and writes (only when invalid)
* using 4 and 8 bytes accesses, the above registers support these
* "special" byte operations:
*
* - Byte load from QW0[NSR] - User level NSR (EBB)
* - Byte store to QW0[NSR] - User level NSR (EBB)
* - Byte load/store to QW1[CPPR] and QW3[CPPR] - CPPR access
* - Byte load from QW3[TM_WORD2] - Read VT||00000||LP||LE on thrd 0
* otherwise VT||0000000
* - Byte store to QW3[TM_WORD2] - Set VT bit (and LP/LE if present)
*
* Then we have all these "special" CI ops at these offset that trigger
* all sorts of side effects:
*/
#define TM_SPC_ACK_EBB 0x800 /* Load8 ack EBB to reg*/
#define TM_SPC_ACK_OS_REG 0x810 /* Load16 ack OS irq to reg */
#define TM_SPC_PUSH_USR_CTX 0x808 /* Store32 Push/Validate user context */
#define TM_SPC_PULL_USR_CTX 0x808 /* Load32 Pull/Invalidate user
* context */
#define TM_SPC_SET_OS_PENDING 0x812 /* Store8 Set OS irq pending bit */
#define TM_SPC_PULL_OS_CTX 0x818 /* Load32/Load64 Pull/Invalidate OS
* context to reg */
#define TM_SPC_PULL_POOL_CTX 0x828 /* Load32/Load64 Pull/Invalidate Pool
* context to reg*/
#define TM_SPC_ACK_HV_REG 0x830 /* Load16 ack HV irq to reg */
#define TM_SPC_PULL_USR_CTX_OL 0xc08 /* Store8 Pull/Inval usr ctx to odd
* line */
#define TM_SPC_ACK_OS_EL 0xc10 /* Store8 ack OS irq to even line */
#define TM_SPC_ACK_HV_POOL_EL 0xc20 /* Store8 ack HV evt pool to even
* line */
#define TM_SPC_ACK_HV_EL 0xc30 /* Store8 ack HV irq to even line */
/* XXX more... */
/* NSR fields for the various QW ack types */
#define TM_QW0_NSR_EB PPC_BIT8(0)
#define TM_QW1_NSR_EO PPC_BIT8(0)
#define TM_QW3_NSR_HE PPC_BITMASK8(0, 1)
#define TM_QW3_NSR_HE_NONE 0
#define TM_QW3_NSR_HE_POOL 1
#define TM_QW3_NSR_HE_PHYS 2
#define TM_QW3_NSR_HE_LSI 3
#define TM_QW3_NSR_I PPC_BIT8(2)
#define TM_QW3_NSR_GRP_LVL PPC_BIT8(3, 7)
/*
* EAS (Event Assignment Structure)
*
* One per interrupt source. Targets an interrupt to a given Event
* Notification Descriptor (END) and provides the corresponding
* logical interrupt number (END data)
*/
typedef struct XiveEAS {
/*
* Use a single 64-bit definition to make it easier to perform
* atomic updates
*/
uint64_t w;
#define EAS_VALID PPC_BIT(0)
#define EAS_END_BLOCK PPC_BITMASK(4, 7) /* Destination END block# */
#define EAS_END_INDEX PPC_BITMASK(8, 31) /* Destination END index */
#define EAS_MASKED PPC_BIT(32) /* Masked */
#define EAS_END_DATA PPC_BITMASK(33, 63) /* Data written to the END */
} XiveEAS;
#define xive_eas_is_valid(eas) (be64_to_cpu((eas)->w) & EAS_VALID)
#define xive_eas_is_masked(eas) (be64_to_cpu((eas)->w) & EAS_MASKED)
void xive_eas_pic_print_info(XiveEAS *eas, uint32_t lisn, Monitor *mon);
static inline uint64_t xive_get_field64(uint64_t mask, uint64_t word)
{
return (be64_to_cpu(word) & mask) >> ctz64(mask);
}
static inline uint64_t xive_set_field64(uint64_t mask, uint64_t word,
uint64_t value)
{
uint64_t tmp =
(be64_to_cpu(word) & ~mask) | ((value << ctz64(mask)) & mask);
return cpu_to_be64(tmp);
}
static inline uint32_t xive_get_field32(uint32_t mask, uint32_t word)
{
return (be32_to_cpu(word) & mask) >> ctz32(mask);
}
static inline uint32_t xive_set_field32(uint32_t mask, uint32_t word,
uint32_t value)
{
uint32_t tmp =
(be32_to_cpu(word) & ~mask) | ((value << ctz32(mask)) & mask);
return cpu_to_be32(tmp);
}
/* Event Notification Descriptor (END) */
typedef struct XiveEND {
uint32_t w0;
#define END_W0_VALID PPC_BIT32(0) /* "v" bit */
#define END_W0_ENQUEUE PPC_BIT32(1) /* "q" bit */
#define END_W0_UCOND_NOTIFY PPC_BIT32(2) /* "n" bit */
#define END_W0_BACKLOG PPC_BIT32(3) /* "b" bit */
#define END_W0_PRECL_ESC_CTL PPC_BIT32(4) /* "p" bit */
#define END_W0_ESCALATE_CTL PPC_BIT32(5) /* "e" bit */
#define END_W0_UNCOND_ESCALATE PPC_BIT32(6) /* "u" bit - DD2.0 */
#define END_W0_SILENT_ESCALATE PPC_BIT32(7) /* "s" bit - DD2.0 */
#define END_W0_QSIZE PPC_BITMASK32(12, 15)
#define END_W0_SW0 PPC_BIT32(16)
#define END_W0_FIRMWARE END_W0_SW0 /* Owned by FW */
#define END_QSIZE_4K 0
#define END_QSIZE_64K 4
#define END_W0_HWDEP PPC_BITMASK32(24, 31)
uint32_t w1;
#define END_W1_ESn PPC_BITMASK32(0, 1)
#define END_W1_ESn_P PPC_BIT32(0)
#define END_W1_ESn_Q PPC_BIT32(1)
#define END_W1_ESe PPC_BITMASK32(2, 3)
#define END_W1_ESe_P PPC_BIT32(2)
#define END_W1_ESe_Q PPC_BIT32(3)
#define END_W1_GENERATION PPC_BIT32(9)
#define END_W1_PAGE_OFF PPC_BITMASK32(10, 31)
uint32_t w2;
#define END_W2_MIGRATION_REG PPC_BITMASK32(0, 3)
#define END_W2_OP_DESC_HI PPC_BITMASK32(4, 31)
uint32_t w3;
#define END_W3_OP_DESC_LO PPC_BITMASK32(0, 31)
uint32_t w4;
#define END_W4_ESC_END_BLOCK PPC_BITMASK32(4, 7)
#define END_W4_ESC_END_INDEX PPC_BITMASK32(8, 31)
uint32_t w5;
#define END_W5_ESC_END_DATA PPC_BITMASK32(1, 31)
uint32_t w6;
#define END_W6_FORMAT_BIT PPC_BIT32(8)
#define END_W6_NVT_BLOCK PPC_BITMASK32(9, 12)
#define END_W6_NVT_INDEX PPC_BITMASK32(13, 31)
uint32_t w7;
#define END_W7_F0_IGNORE PPC_BIT32(0)
#define END_W7_F0_BLK_GROUPING PPC_BIT32(1)
#define END_W7_F0_PRIORITY PPC_BITMASK32(8, 15)
#define END_W7_F1_WAKEZ PPC_BIT32(0)
#define END_W7_F1_LOG_SERVER_ID PPC_BITMASK32(1, 31)
} XiveEND;
#define xive_end_is_valid(end) (be32_to_cpu((end)->w0) & END_W0_VALID)
#define xive_end_is_enqueue(end) (be32_to_cpu((end)->w0) & END_W0_ENQUEUE)
#define xive_end_is_notify(end) (be32_to_cpu((end)->w0) & END_W0_UCOND_NOTIFY)
#define xive_end_is_backlog(end) (be32_to_cpu((end)->w0) & END_W0_BACKLOG)
#define xive_end_is_escalate(end) (be32_to_cpu((end)->w0) & END_W0_ESCALATE_CTL)
#define xive_end_is_uncond_escalation(end) \
(be32_to_cpu((end)->w0) & END_W0_UNCOND_ESCALATE)
#define xive_end_is_silent_escalation(end) \
(be32_to_cpu((end)->w0) & END_W0_SILENT_ESCALATE)
#define xive_end_is_firmware(end) \
(be32_to_cpu((end)->w0) & END_W0_FIRMWARE)
static inline uint64_t xive_end_qaddr(XiveEND *end)
{
return ((uint64_t) be32_to_cpu(end->w2) & 0x0fffffff) << 32 |
be32_to_cpu(end->w3);
}
void xive_end_pic_print_info(XiveEND *end, uint32_t end_idx, Monitor *mon);
void xive_end_queue_pic_print_info(XiveEND *end, uint32_t width, Monitor *mon);
void xive_end_eas_pic_print_info(XiveEND *end, uint32_t end_idx, Monitor *mon);
/* Notification Virtual Target (NVT) */
typedef struct XiveNVT {
uint32_t w0;
#define NVT_W0_VALID PPC_BIT32(0)
uint32_t w1;
#define NVT_W1_EQ_BLOCK PPC_BITMASK32(0, 3)
#define NVT_W1_EQ_INDEX PPC_BITMASK32(4, 31)
uint32_t w2;
uint32_t w3;
uint32_t w4;
#define NVT_W4_IPB PPC_BITMASK32(16, 23)
uint32_t w5;
uint32_t w6;
uint32_t w7;
uint32_t w8;
#define NVT_W8_GRP_VALID PPC_BIT32(0)
uint32_t w9;
uint32_t wa;
uint32_t wb;
uint32_t wc;
uint32_t wd;
uint32_t we;
uint32_t wf;
} XiveNVT;
#define xive_nvt_is_valid(nvt) (be32_to_cpu((nvt)->w0) & NVT_W0_VALID)
/*
* The VP number space in a block is defined by the END_W6_NVT_INDEX
* field of the XIVE END
*/
#define XIVE_NVT_SHIFT 19
#define XIVE_NVT_COUNT (1 << XIVE_NVT_SHIFT)
static inline uint32_t xive_nvt_cam_line(uint8_t nvt_blk, uint32_t nvt_idx)
{
return (nvt_blk << XIVE_NVT_SHIFT) | nvt_idx;
}
static inline uint32_t xive_nvt_idx(uint32_t cam_line)
{
return cam_line & ((1 << XIVE_NVT_SHIFT) - 1);
}
static inline uint32_t xive_nvt_blk(uint32_t cam_line)
{
return (cam_line >> XIVE_NVT_SHIFT) & 0xf;
}
#endif /* PPC_XIVE_REGS_H */