source: soft/giet_vm/giet_drivers/xcu_driver.h @ 468

Last change on this file since 468 was 437, checked in by alain, 10 years ago

Introducing dynamic allocation of peripheral channel(TTY, NIC, TIM, CMA)
Removint the ICU driver : ICU component not supported anymore.
Removing the FBF driver.

File size: 7.0 KB
RevLine 
[258]1///////////////////////////////////////////////////////////////////////////////////
2// File     : xcu_driver.h
3// Date     : 01/11/2013
4// Author   : alain greiner
5// Copyright (c) UPMC-LIP6
6///////////////////////////////////////////////////////////////////////////////////
[295]7// The xcu_driver.c and xcu_driver.h files are part ot the GIET-VM nano-kernel.
8// This driver supports the SoCLib vci_xicu, that is a vectorised interrupt
[437]9// controler supporting three types of interrupts:
[295]10//
[437]11// - HWI : HardWare Interrupts (from hardware peripherals)
12// - PTI : Programmable Timer Interrupts (contained in the XCU component)
13// - WTI : Write Trigered Interrupts (from software, or from a PIC controller)
14//
[295]15// It can exist several interrupt controller unit in the architecture
[437]16// (one per cluster), and each one can contain several channels:
[295]17// The number of XICU channels is equal to NB_PROCS_MAX, because there is
18// one private XICU channel per processor in a cluster.
[437]19//
[295]20// The virtual base address of the segment associated to the component is:
21//
[437]22//      vbase = SEG_XCU_BASE + cluster_xy * PERI_CLUSTER_INCREMENT
[295]23//
[437]24// The SEG_XCU_BSE  and PERI_CLUSTER_INCREMENT values must be defined
25// in the hard_config.h file.
[295]26////////////////////////////////////////////////////////////////////////////////
[258]27
28#ifndef _GIET_XCU_DRIVER_H_
29#define _GIET_XCU_DRIVER_H_
30
31///////////////////////////////////////////////////////////////////////////////////
32// XICU registers offsets
33///////////////////////////////////////////////////////////////////////////////////
34
[320]35enum Xcu_registers
[258]36{
[320]37    XCU_WTI_REG = 0,
38    XCU_PTI_PER = 1,
39    XCU_PTI_VAL = 2,
40    XCU_PTI_ACK = 3,
[258]41
[320]42    XCU_MSK_PTI = 4,
43    XCU_MSK_PTI_ENABLE = 5,
44    XCU_MSK_PTI_DISABLE = 6,
45    XCU_PTI_ACTIVE = 6,
[258]46
[320]47    XCU_MSK_HWI = 8,
48    XCU_MSK_HWI_ENABLE = 9,
49    XCU_MSK_HWI_DISABLE = 10,
50    XCU_HWI_ACTIVE = 10,
[258]51
[320]52    XCU_MSK_WTI = 12,
53    XCU_MSK_WTI_ENABLE = 13,
54    XCU_MSK_WTI_DISABLE = 14,
55    XCU_WTI_ACTIVE = 14,
[258]56
[320]57    XCU_PRIO = 15,
[258]58};
59
[320]60#define XCU_REG(func, index) (((func)<<5)|(index))
[263]61 
[437]62////////////////////////////////////////////////////////////////////////////////
63//                           access functions
64////////////////////////////////////////////////////////////////////////////////
[258]65
[437]66////////////////////////////////////////////////////////////////////////////////
67// This function set the mask register for the IRQ type defined by "irq_type",
68// and for the channel identified by the "cluster_xy" and "channel" arguments.
69// All '1' bits are set / all '0' bits are not modified.
70////////////////////////////////////////////////////////////////////////////////
[295]71extern void _xcu_set_mask( unsigned int cluster_xy,
72                           unsigned int channel, 
73                           unsigned int mask, 
74                           unsigned int irq_type );
[258]75
[437]76////////////////////////////////////////////////////////////////////////////////
77// This function returns the index and the type of the highest priority
78// - active PTI (Timer Interrupt), then
79// - active HWI (Hardware Interrupt), then
80// - active WTI (Software Interrupt)
81////////////////////////////////////////////////////////////////////////////////
[295]82extern void _xcu_get_index( unsigned int   cluster_xy, 
83                            unsigned int   channel,   
84                            unsigned int * index,
85                            unsigned int * irq_type );
[258]86
[437]87////////////////////////////////////////////////////////////////////////////////
88// This function writes the "wdata" value in the mailbox defined
89// by the "cluster_xy" and "wti_index" arguments.
90////////////////////////////////////////////////////////////////////////////////
[295]91extern void _xcu_send_wti( unsigned int cluster_xy,
92                           unsigned int wti_index,
93                           unsigned int wdata );
[258]94
[437]95////////////////////////////////////////////////////////////////////////////////
96// This function returns the value contained in a WTI mailbox defined by
97// the cluster_xy and "wti_index" arguments. This value is written in
98// the "value" argument, and the corresponding WTI is acknowledged.
99////////////////////////////////////////////////////////////////////////////////
[295]100extern void _xcu_get_wti_value( unsigned int   cluster_xy,
101                                unsigned int   wti_index,
102                                unsigned int * value );
[258]103
[437]104////////////////////////////////////////////////////////////////////////////////
105// This function returns the address of a WTI mailbox defined by
106// the "wti_index" argument, in the unsigned int "address" argument.
107// It is used by the GIET to configurate the IOPIC component.
108// There is no access to a specific XCU component in a specific cluster.
109////////////////////////////////////////////////////////////////////////////////
[295]110extern void _xcu_get_wti_address( unsigned int   wti_index,
111                                  unsigned int * address );
[258]112
[437]113////////////////////////////////////////////////////////////////////////////////
114// This function activates a timer contained in XCU by writing in the
115// proper register the period value.
116////////////////////////////////////////////////////////////////////////////////
[295]117extern void _xcu_timer_start( unsigned int cluster_xy, 
118                              unsigned int pti_index,
119                              unsigned int period ); 
[258]120
[437]121//////////////////////////////////////////////////////////////////////////////
122// This function desactivates a timer in XCU component
123// by writing in the proper register.
124//////////////////////////////////////////////////////////////////////////////
[295]125extern void _xcu_timer_stop( unsigned int cluster_xy, 
126                             unsigned int pti_index ); 
[258]127
[437]128//////////////////////////////////////////////////////////////////////////////
129// This function acknowlegge a timer interrupt in XCU
130// component by reading in the proper XCU register.
131// It can be used by both the isr_switch() for a "system" timer,
132// or by the _isr_timer() for an "user" timer.
133//////////////////////////////////////////////////////////////////////////////
[320]134extern unsigned int _xcu_timer_reset_irq( unsigned int cluster_xy, 
135                                          unsigned int pti_index );
[295]136
[437]137//////////////////////////////////////////////////////////////////////////////
138// This function resets a timer counter. To do so, we re-write the period
139// in the proper register, what causes the count to restart.
140// The period value is read from the same (TIMER_PERIOD) register,
141// this is why in appearance we do nothing useful (read a value
142// from a register and write this value in the same register).
143// This function is called during a context switch (user or preemptive)
144/////////////////////////////////////////////////////////////////////////////
[295]145extern void _xcu_timer_reset_cpt( unsigned int cluster_xy, 
146                                  unsigned int pti_index ); 
147
[258]148#endif
149
150// Local Variables:
151// tab-width: 4
152// c-basic-offset: 4
153// c-file-offsets:((innamespace . 0)(inline-open . 0))
154// indent-tabs-mode: nil
155// End:
156// vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4
157
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