Zephyr API Documentation 4.0.99
A Scalable Open Source RTOS
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thread.h
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1/*
2 * Copyright (c) 2017 Intel Corporation
3 *
4 * SPDX-License-Identifier: Apache-2.0
5 */
6
19#ifndef ZEPHYR_INCLUDE_ARCH_X86_IA32_THREAD_H_
20#define ZEPHYR_INCLUDE_ARCH_X86_IA32_THREAD_H_
21
29#if defined(CONFIG_EAGER_FPU_SHARING) || defined(CONFIG_LAZY_FPU_SHARING)
30#ifdef CONFIG_X86_SSE
31#define FP_REG_SET_ALIGN 16
32#else
33#define FP_REG_SET_ALIGN 4
34#endif
35#else
36/* Unused, no special alignment requirements, use default alignment for
37 * char buffers on this arch
38 */
39#define FP_REG_SET_ALIGN 1
40#endif /* CONFIG_*_FP_SHARING */
41
42/*
43 * Bits for _thread_arch.flags, see their use in intstub.S et al.
44 */
45
46#define X86_THREAD_FLAG_INT 0x01
47#define X86_THREAD_FLAG_EXC 0x02
48#define X86_THREAD_FLAG_ALL (X86_THREAD_FLAG_INT | X86_THREAD_FLAG_EXC)
49
50#ifndef _ASMLANGUAGE
51#include <stdint.h>
53
54/*
55 * The following structure defines the set of 'non-volatile' integer registers.
56 * These registers must be preserved by a called C function. These are the
57 * only registers that need to be saved/restored when a cooperative context
58 * switch occurs.
59 */
60
61struct _callee_saved {
62 unsigned long esp;
63
64 /*
65 * The following registers are considered non-volatile, i.e.
66 * callee-save,
67 * but their values are pushed onto the stack rather than stored in the
68 * TCS
69 * structure:
70 *
71 * unsigned long ebp;
72 * unsigned long ebx;
73 * unsigned long esi;
74 * unsigned long edi;
75 */
76
77};
78
79typedef struct _callee_saved _callee_saved_t;
80
81/*
82 * The macros CONFIG_{LAZY|EAGER}_FPU_SHARING shall be set to indicate that the
83 * saving/restoring of the traditional x87 floating point (and MMX) registers
84 * are supported by the kernel's context swapping code. The macro
85 * CONFIG_X86_SSE shall _also_ be set if saving/restoring of the XMM
86 * registers is also supported in the kernel's context swapping code.
87 */
88
89#if defined(CONFIG_EAGER_FPU_SHARING) || defined(CONFIG_LAZY_FPU_SHARING)
90
91/* definition of a single x87 (floating point / MMX) register */
92
93typedef struct s_FpReg {
94 unsigned char reg[10]; /* 80 bits: ST[0-7] */
95} tFpReg;
96
97/*
98 * The following is the "normal" floating point register save area, or
99 * more accurately the save area required by the 'fnsave' and 'frstor'
100 * instructions. The structure matches the layout described in the
101 * "Intel(r) 64 and IA-32 Architectures Software Developer's Manual
102 * Volume 1: Basic Architecture": Protected Mode x87 FPU State Image in
103 * Memory, 32-Bit Format.
104 */
105
106typedef struct s_FpRegSet { /* # of bytes: name of register */
107 unsigned short fcw; /* 2 : x87 FPU control word */
108 unsigned short pad1; /* 2 : N/A */
109 unsigned short fsw; /* 2 : x87 FPU status word */
110 unsigned short pad2; /* 2 : N/A */
111 unsigned short ftw; /* 2 : x87 FPU tag word */
112 unsigned short pad3; /* 2 : N/A */
113 unsigned int fpuip; /* 4 : x87 FPU instruction pointer offset */
114 unsigned short cs; /* 2 : x87 FPU instruction pointer selector */
115 unsigned short fop : 11; /* 2 : x87 FPU opcode */
116 unsigned short pad4 : 5; /* : 5 bits = 00000 */
117 unsigned int fpudp; /* 4 : x87 FPU instr operand ptr offset */
118 unsigned short ds; /* 2 : x87 FPU instr operand ptr selector */
119 unsigned short pad5; /* 2 : N/A */
120 tFpReg fpReg[8]; /* 80 : ST0 -> ST7 */
121} tFpRegSet __aligned(FP_REG_SET_ALIGN);
122
123#ifdef CONFIG_X86_SSE
124
125/* definition of a single x87 (floating point / MMX) register */
126
127typedef struct s_FpRegEx {
128 unsigned char reg[10]; /* 80 bits: ST[0-7] or MM[0-7] */
129 unsigned char rsrvd[6]; /* 48 bits: reserved */
130} tFpRegEx;
131
132/* definition of a single XMM register */
133
134typedef struct s_XmmReg {
135 unsigned char reg[16]; /* 128 bits: XMM[0-7] */
136} tXmmReg;
137
138/*
139 * The following is the "extended" floating point register save area, or
140 * more accurately the save area required by the 'fxsave' and 'fxrstor'
141 * instructions. The structure matches the layout described in the
142 * "Intel 64 and IA-32 Architectures Software Developer's Manual
143 * Volume 2A: Instruction Set Reference, A-M", except for the bytes from offset
144 * 464 to 511 since these "are available to software use. The processor does
145 * not write to bytes 464:511 of an FXSAVE area".
146 *
147 * This structure must be aligned on a 16 byte boundary when the instructions
148 * fxsave/fxrstor are used to write/read the data to/from the structure.
149 */
150
151typedef struct s_FpRegSetEx /* # of bytes: name of register */
152{
153 unsigned short fcw; /* 2 : x87 FPU control word */
154 unsigned short fsw; /* 2 : x87 FPU status word */
155 unsigned char ftw; /* 1 : x87 FPU abridged tag word */
156 unsigned char rsrvd0; /* 1 : reserved */
157 unsigned short fop; /* 2 : x87 FPU opcode */
158 unsigned int fpuip; /* 4 : x87 FPU instruction pointer offset */
159 unsigned short cs; /* 2 : x87 FPU instruction pointer selector */
160 unsigned short rsrvd1; /* 2 : reserved */
161 unsigned int fpudp; /* 4 : x87 FPU instr operand ptr offset */
162 unsigned short ds; /* 2 : x87 FPU instr operand ptr selector */
163 unsigned short rsrvd2; /* 2 : reserved */
164 unsigned int mxcsr; /* 4 : MXCSR register state */
165 unsigned int mxcsrMask; /* 4 : MXCSR register mask */
166 tFpRegEx fpReg[8]; /* 128 : x87 FPU/MMX registers */
167 tXmmReg xmmReg[8]; /* 128 : XMM registers */
168 unsigned char rsrvd3[176]; /* 176 : reserved */
169} tFpRegSetEx __aligned(FP_REG_SET_ALIGN);
170
171#else /* CONFIG_X86_SSE == 0 */
172
173typedef struct s_FpRegSetEx {
175
176#endif /* CONFIG_X86_SSE == 0 */
177
178#else /* !CONFIG_LAZY_FPU_SHARING && !CONFIG_EAGER_FPU_SHARING */
179
180/* empty floating point register definition */
181
182typedef struct s_FpRegSet {
184
185typedef struct s_FpRegSetEx {
187
188#endif /* CONFIG_LAZY_FPU_SHARING || CONFIG_EAGER_FPU_SHARING */
189
190/*
191 * The following structure defines the set of 'volatile' x87 FPU/MMX/SSE
192 * registers. These registers need not be preserved by a called C function.
193 * Given that they are not preserved across function calls, they must be
194 * save/restored (along with s_coopFloatReg) when a preemptive context
195 * switch occurs.
196 */
197
198typedef struct s_preempFloatReg {
199 union {
200 /* threads with K_FP_REGS utilize this format */
202 /* threads with K_SSE_REGS utilize this format */
206
207/*
208 * The thread control structure definition. It contains the
209 * various fields to manage a _single_ thread. The TCS will be aligned
210 * to the appropriate architecture specific boundary via the
211 * arch_new_thread() call.
212 */
213
214struct _thread_arch {
216
217#ifdef CONFIG_USERSPACE
218#ifndef CONFIG_X86_COMMON_PAGE_TABLE
219 /* Physical address of the page tables used by this thread */
220 uintptr_t ptables;
221#endif /* CONFIG_X86_COMMON_PAGE_TABLE */
222
223 /* Initial privilege mode stack pointer when doing a system call.
224 * Un-set for supervisor threads.
225 */
226 char *psp;
227#endif
228
229#if defined(CONFIG_LAZY_FPU_SHARING)
230 /*
231 * Nested exception count to maintain setting of EXC_ACTIVE flag across
232 * outermost exception. EXC_ACTIVE is used by z_swap() lazy FP
233 * save/restore and by debug tools.
234 */
235 unsigned excNestCount; /* nested exception count */
236#endif /* CONFIG_LAZY_FPU_SHARING */
237
238 tPreempFloatReg preempFloatReg; /* volatile float register storage */
239};
240
241typedef struct _thread_arch _thread_arch_t;
242
243#endif /* _ASMLANGUAGE */
244
245#endif /* ZEPHYR_INCLUDE_ARCH_X86_IA32_THREAD_H_ */
struct s_preempFloatReg tPreempFloatReg
struct s_FpRegSetEx tFpRegSetEx
struct s_FpRegSet tFpRegSet
#define FP_REG_SET_ALIGN
Floating point register set alignment.
Definition thread.h:39
flags
Definition parser.h:96
__UINT8_TYPE__ uint8_t
Definition stdint.h:88
__UINTPTR_TYPE__ uintptr_t
Definition stdint.h:105
Definition thread.h:185
Definition thread.h:182
Definition thread.h:198
tFpRegSetEx fpRegsEx
Definition thread.h:203
tFpRegSet fpRegs
Definition thread.h:201
union s_preempFloatReg::@63 floatRegsUnion